ABCMdb

ABCB11 p.Asn591Ser

ClinVar:	c.1772A>G , p.Asn591Ser N , Benign
Reviews:	p.Asn591Ser D
Predicted by SNAP2:	A: N (82%), C: N (57%), D: D (59%), E: D (59%), F: N (53%), G: N (57%), H: D (91%), I: D (91%), K: D (59%), L: N (53%), M: D (85%), P: N (57%), Q: D (91%), R: N (57%), S: D (59%), T: N (97%), V: N (66%), W: D (63%), Y: N (57%),
Predicted by PROVEAN:	A: N, C: D, D: N, E: N, F: D, G: D, H: D, I: D, K: N, L: D, M: D, P: D, Q: N, R: N, S: N, T: N, V: D, W: D, Y: D,

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[hide] Sequence analysis of bile salt export pump (ABCB11... Pharmacogenetics. 2004 Feb;14(2):91-102. Pauli-Magnus C, Lang T, Meier Y, Zodan-Marin T, Jung D, Breymann C, Zimmermann R, Kenngott S, Beuers U, Reichel C, Kerb R, Penger A, Meier PJ, Kullak-Ublick GA
Sequence analysis of bile salt export pump (ABCB11) and multidrug resistance p-glycoprotein 3 (ABCB4, MDR3) in patients with intrahepatic cholestasis of pregnancy.
Pharmacogenetics. 2004 Feb;14(2):91-102., [PMID:15077010]

Abstract [show]
Intrahepatic cholestasis of pregnancy (ICP) is a liver disorder associated with increased risk of intrauterine fetal death and prematurity. There is increasing evidence that genetically determined dysfunction in the canalicular ABC transporters bile salt export pump (BSEP, ABCB11) and multidrug resistance protein 3 (MDR3, ABCB4) might be risk factors for ICP development. This study aimed to (i). describe the extent of genetic variability in BSEP and MDR3 in ICP and (ii). identify new disease-causing mutations. Twenty-one women with ICP and 40 women with uneventful pregnancies were recruited between April 2001 and April 2003. Sequencing of BSEP and MDR3 spanned 8-10 kb per gene and comprised the promoter region and 100-350 bp of the flanking intronic region around each exon. DNA sequencing of polymerase chain reaction fragments was performed on an ABI3700 capillary sequencer. MDR3 promoter activity of promoter constructs carrying different ICP-specific mutations was studied using reporter assays. A total of 37 and 51 variant sites were detected in BSEP and MDR3, respectively. Three non-synonymous sites in codons for evolutionarily conserved amino acids were specific for the ICP collective (BSEP, N591S; MDR3, S320F and G762E). Furthermore, four ICP-specific splicing mutations were detected in MDR3 [intron 21, G(+1)A; intron 25, G(+5)C and C(-3)G; and intron 26, T(+2)A]. Activity of the mutated MDR3 promoter was similar to that observed for the wild-type promoter. Our data further support an involvement of MDR3 genetic variation in the pathogenesis of ICP, whereas analysis of BSEP sequence variation indicates that this gene is probably less important for the development of pregnancy-associated cholestasis.

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8 Three nonsynonymous sites in codons for evolutionarily conserved amino acids were specific for the ICP collective (BSEP, N591S; MDR3, S320F and G762E). Login to comment
95 Non-synonymous changes observed as singletons or doubletons in our sample set coded for the amino acid changes R415Q and N591S. Login to comment
96 Alignment of all mammalian BSEP sequences indicated that three of the four non-synonymous coding variants were in codons for evolutionarily conserved amino acids (R415Q, V444A and N591S) (Table 1). Login to comment
136 1 , 1 Splicing 2 , 1 N591S 3 NA 4 3.7 Splicing 5 NA 6 9.0 7 , 1 8 , 1 9 , 1 10 1.7 G762E 11 , 1 12 2.6 13 2.8 14 4.5 15 2.9 Splicing 16 , 1 17 4.2 18 2.5 Splicing 19 2.3 20 1.4 S320F 21 , 1 ICP-specific variants are indicated with their respective variant number (Tables 1 and 2). Login to comment

[hide] Prediction of drug-induced intrahepatic cholestasi... Expert Opin Drug Saf. 2007 Jan;6(1):71-86. Sakurai A, Kurata A, Onishi Y, Hirano H, Ishikawa T
Prediction of drug-induced intrahepatic cholestasis: in vitro screening and QSAR analysis of drugs inhibiting the human bile salt export pump.
Expert Opin Drug Saf. 2007 Jan;6(1):71-86., [PMID:17181454]

Abstract [show]
Drug-induced intrahepatic cholestasis is one of the major causes of hepatotoxicity, which often occur during the drug discovery and development process. Human ATP-binding cassette transporter ABCB11 (sister of P-glycoprotein/bile salt export pump) mediates the elimination of cytotoxic bile salts from liver cells to bile, and, therefore, plays a critical role in the generation of bile flow. The authors have recently developed in vitro high-speed screening and quantitative structure-activity relationship analysis methods to investigate the interaction of ABCB11 with a variety of compounds. Based on the extent of inhibition of the bile salt export pump, the authors analysed the quantitative structure-activity relationship to identify chemical groups closely associated with the inhibition of ABCB11. This approach provides a new tool to predict compounds with a potential risk of drug-induced intrahepatic cholestasis.

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120 H2N COOH S56L G238V G260D C336S L339V V444A K461E D482G T923P K930X G982R R1090X R1153C Outside Inside R1268Q A1228VE1186K R1128H R1057X R1050C A926P A865V R698H E636G M677V S593R E592Q N591S R575XA570T Q558H I498T R432T R415Q R299K E297G V284A I206V S194P E186G cholestasis Expert Opin. Drug Saf. (2007) 6(1) Table 1. Login to comment
123 [40] rs1156869 14 1674 G→C Gln558His - [102] - 14 1708 G→A Ala570Thr BRIC2 [45] - 14 1723 C→T Arg575X PFIC2 [35,46,47] rs11568367 15 1772 A→G Asn591Ser ICP [39,102] rs11568370 15 1774 G→C Glu592Gln - [102] - 15 1779 T→A/G Ser593Arg PFIC2? Login to comment

[hide] Levels of plasma membrane expression in progressiv... Am J Physiol Cell Physiol. 2007 Nov;293(5):C1709-16. Epub 2007 Sep 13. Lam P, Pearson CL, Soroka CJ, Xu S, Mennone A, Boyer JL
Levels of plasma membrane expression in progressive and benign mutations of the bile salt export pump (Bsep/Abcb11) correlate with severity of cholestatic diseases.
Am J Physiol Cell Physiol. 2007 Nov;293(5):C1709-16. Epub 2007 Sep 13., [PMID:17855769]

Abstract [show]
Human BSEP (ABCB11) mutations are the molecular basis for at least three clinical forms of liver disease, progressive familial intrahepatic cholestasis type 2 (PFIC2), benign recurrent intrahepatic cholestasis type 2 (BRIC2), and intrahepatic cholestasis of pregnancy (ICP). To better understand the pathobiology of these disease phenotypes, we hypothesized that different mutations may cause significant differences in protein defects. Therefore we compared the effect of two PFIC2 mutations (D482G, E297G) with two BRIC2 mutations (A570T and R1050C) and one ICP mutation (N591S) with regard to the subcellular localization, maturation, and function of the rat Bsep protein. Bile salt transport was retained in all but the E297G mutant. Mutant proteins were expressed at reduced levels on the plasma membrane of transfected HEK293 cells compared with wild-type (WT) Bsep in the following order: WT > N591S > R1050C approximately A570T approximately E297G >> D482G. Total cell protein and surface protein expression were reduced to the same extent, suggesting that trafficking of these mutants to the plasma membrane is not impaired. All Bsep mutants accumulate in perinuclear aggresome-like structures in the presence of the proteasome inhibitor MG-132, suggesting that mutations are associated with protein instability and ubiquitin-dependent degradation. Reduced temperature, sodium butyrate, and sodium 4-phenylbutyrate enhanced the expression of the mature and cell surface D482G protein in HEK293 cells. These results suggest that the clinical phenotypes of PFIC2, BRIC2, and ICP may directly correlate with the amount of mature protein that is expressed at the cell surface and that strategies to stabilize cell surface mutant protein may be therapeutic.

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9 Therefore we compared the effect of two PFIC2 mutations (D482G, E297G) with two BRIC2 mutations (A570T and R1050C) and one ICP mutation (N591S) with regard to the subcellular localization, maturation, and function of the rat Bsep protein. Login to comment
11 Mutant proteins were expressed at reduced levels on the plasma membrane of transfected HEK293 cells compared with wild-type (WT) Bsep in the following order: WT Ͼ N591S Ͼ R1050C ϳ A570T ϳ E297G ϾϾ D482G. Login to comment
45 All point mutations (D482G, E297G, A570T, R1050C, N591S) were introduced with the QuickChange Site-Directed Mutagenesis Kit (Stratagene, La Jolla, CA). Login to comment
64 PFIC2 (D482G, E297G), BRIC2 (A570T, R1050C), and ICP (N591S) mutations that are investigated in this study are indicated in italics. Login to comment
94 Sf9 cells infected with recombinant virus (mock, WT, D482G, E297G, A570T, R1050C, and N591S) were harvested, and cell membranes were prepared as described previously (23). Login to comment
107 The subcellular distributions of D482G, E297G, A570T, R1050C, and N591S were examined first because intracellular accumulation of misfolded proteins has been shown for many diseases. Login to comment
118 The level of cell surface expression of Bsep protein was quantitated by densitometry and determined to be in the following order: WT (100%) Ͼ N591S (75.6 Ϯ 15.6%) Ͼ E297G (38.5 Ϯ 12.6%) ϳ R1050C (35.6 Ϯ 14.5%) ϳ A570T (29.5 Ϯ 8.8%) ϾϾ D482G (5.7 Ϯ 2.3%). Login to comment
120 The total expression (cell surface and intracellular proteins) also showed changes similar to those in cell surface expression: WT (100%) Ͼ N591S (73.5 Ϯ 4.3%) Ͼ E297G (33.7 Ϯ 20.4%) ϳ R1050C (26.7 Ϯ 16.0%) ϳ A570T (11.9 Ϯ 5.2%) ϾϾ D482G (2.5 Ϯ 2.0%) (Fig. 4B). Login to comment
146 Membrane vesicles containing WT Bsep (17.1 Ϯ 2.5 nmol Pi ⅐min-1 ⅐mg protein-1 ) and mutant N591S Bsep (18.4 Ϯ 1.53 nmol Pi ⅐min-1 ⅐mg protein-1 ) showed slightly higher basal ATPase activity than membrane vesicles containing the mock-transfected control (12.3 Ϯ 0.67 nmol Pi ⅐min-1 ⅐mg protein-1 ) (Fig. 7B). Login to comment
150 The membrane vesicles expressing D482G, A570T, R1050C, or N591S showed similar levels of taurocholate uptake compared with WT Bsep. Login to comment
155 Cells were transiently transfected with pEGFPN1 (control), rat Bsep-GFP [wild type (WT)], D482G-GFP, E297G-GFP, A570T-GFP, R1050C-GFP, and N591S-GFP constructs. Login to comment
157 In contrast, 4 of the mutant GFP-tagged Bsep proteins are variably localized to both intracellular and apical membranes, whereas localization of N591S-GFP is similar to WT. Login to comment
165 In contrast, the surface expression of the ICP variant N591S is close to the level of the WT protein (ϳ70%). Login to comment
169 Cells were transfected with rat Bsep-GFP (WT), D482G-GFP, E297G-GFP, A570T-GFP, R1050C-GFP, and N591S-GFP constructs and were examined for GFP by confocal laser microscopy. Login to comment
172 N591S was mainly expressed on the membrane surface, a pattern similar to the WT protein. Login to comment
176 D4, D482G; E2, E297G; A5, A570T; R10, R1050C; N5, N591S. Login to comment
183 P Ͻ 0.05, D482G, E297G, A570T, R1050C, and N591S compared with WT control. Login to comment
229 A: immunoblot of the isolated Sf9 cell membrane proteins with anti-Bsep polyclonal antibody: GFP control expressed in HEK293 cells, WT expressed in HEK293 cells, rat liver homogenate (L), pFastBac1-Gus control (C), wild type (WT), D482G (D4), E297G (E2), A570T (A5), R1050C (R10), N591S (N5). Login to comment
231 B: TCA (200 ␮M) stimulates and orthovanadate inhibits ATPase activity in membrane vesicles containing comparable levels of WT or D482G, E297G, A570T, R1050C, and N591S mutant Bsep. Login to comment

[hide] Contribution of variant alleles of ABCB11 to susce... Gut. 2009 Apr;58(4):537-44. Epub 2008 Nov 5. Dixon PH, van Mil SW, Chambers J, Strautnieks S, Thompson RJ, Lammert F, Kubitz R, Keitel V, Glantz A, Mattsson LA, Marschall HU, Molokhia M, Moore GE, Linton KJ, Williamson C
Contribution of variant alleles of ABCB11 to susceptibility to intrahepatic cholestasis of pregnancy.
Gut. 2009 Apr;58(4):537-44. Epub 2008 Nov 5., [PMID:18987030]

Abstract [show]
BACKGROUND: Intrahepatic cholestasis of pregnancy (ICP) has a complex aetiology with a significant genetic component. ABCB11 encodes the bile salt export pump (BSEP); mutations cause a spectrum of cholestatic disease, and are implicated in the aetiology of ICP. METHODS: ABCB11 variation in ICP was investigated by screening for five mutant alleles (E297G, D482G, N591S, D676Y and G855R) and the V444A polymorphism (c.1331T>C, rs2287622) in two ICP cohorts (n = 333 UK, n = 158 continental Europe), and controls (n = 261) for V444A. PCR primers were used to amplify and sequence patient and control DNA. The molecular basis for the observed phenotypes was investigated in silico by analysing the equivalent residues in the structure of the homologous bacterial transporter Sav1866. RESULTS: E297G was observed four times and D482G once. N591S was present in two patients; D676Y and G855R were not observed. The V444A polymorphism was associated with ICP (allelic analysis for C vs T: OR 1.7 (95% CI 1.4 to 2.1, p<0.001)). In addition, CC homozygotes were more likely to have ICP than TT homozygotes: OR 2.8 (95% CI 1.7 to 4.4 p<0.0001). Structural analyses suggest that E297G and D482G destabilize the protein fold of BSEP. The molecular basis of V444A and N591S was not apparent from the Sav1866 structure. CONCLUSIONS: Heterozygosity for the common ABCB11 mutations accounts for 1% of European ICP cases; these two mutants probably reduce the folding efficiency of BSEP. N591S is a recurrent mutation; however, the mechanism may be independent of protein stability or function. The V444A polymorphism is a significant risk factor for ICP in this population.

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2 Methods: ABCB11 variation in ICP was investigated by screening for five mutant alleles (E297G, D482G, N591S, D676Y and G855R) and the V444A polymorphism (c.1331T.C, rs2287622) in two ICP cohorts (n = 333 UK, n = 158 continental Europe), and controls (n = 261) for V444A. Login to comment
6 N591S was present in two patients; D676Y and G855R were not observed. Login to comment
10 The molecular basis of V444A and N591S was not apparent from the Sav1866 structure. Login to comment
12 N591S is a recurrent mutation; however, the mechanism may be independent of protein stability or function. Login to comment
19 This was initially proposed in the Finnish population following analysis of a two SNP (single nucleotide polymorphism) haplotype in 57 cases.30 However, a subsequent study in a larger cohort of 142 ICP cases failed to replicate the initial findings, leaving the role of BSEP open to question.31 A recent study of the entire coding region of the BSEP gene identified a single potential mutation (N591S) in a cohort of 21 women with ICP.32 In addition, a polymorphism (c.1331C.T, V444A, rs2287622) possibly affecting BSEP expression has been suggested to play a role in ICP32 33 and has recently been reported to be associated with drug-induced cholestasis (DIC).34 This association has been replicated recently in a slightly larger cohort.24 We sought to clarify the role of ABCB11 mutations in predisposition to ICP by screening a large cohort of patients for the two common mutant alleles, together with the N591S mutation found previously in a case of ICP32 and the two recently described mutations (D676Y and G855R) associated with DIC.34 We also genotyped the V444A polymorphism in the largest case/control study to date in ICP. Login to comment
21 BSEP is homologous with the bacterial multidrug resistance protein (Sav1866) for which two structures have recently been determined at high resolution by x ray crystallography.35 36 We therefore used this structure to consider the possible effects of E297G, D482G, N591S and V444A on BSEP, all of which were identified in patients with ICP, to provide insights into potential mutational mechanisms. Login to comment
48 RESULTS Sequencing DNA sequence was generated for the UK ICP cohort (333 patients) for exons 9 and 14 which contain the common European mutations E297G and D482G, together with exons 15, 17 and 21 containing the previously described ICP-linked mutation (N591S) and the two DIC-linked mutations (D676Y and G855R), respectively. Login to comment
54 In this cohort, a single occurrence each of E297G and D482G was identified together with two occurrences of N591S. Login to comment
77 S363 occupies the position of V444 in Sav1866. S363 hydrogen-bonds with D341 in an adjacent antiparallel b-strand within the Sav1866 NBD (fig 2C), but as it is only one of many bonds between the Table 1 Clinical features of ICP patients with heterozygous ABCB11 mutations Patient No Cohort Biochemistry (highest level measured) Other maternal clinical findings Fetal and labour complications Family history of ICPBile acids* ALT* GGT* E297G 1 UK 32 133 27 - - Yes 2{ UK 41 166 16 - M, H No 3{ UK 118 229 NP G, C Pr No 4 CE 41 82 NP - - No D482G 5 CE 74 98 15 J, P, BR - No N591S 6 CE 270 195 29 - - - 7 CE 32 60 11 - - - *Normal ranges: bile acids, ,14 mmol/l; alanine aminotransferase (ALT), (31 IU/l; c-glutamyl transferase (GGT), ,30 IU/l; bilirubin (BR), ,17 mmol/l. Login to comment
84 Likewise, the functional or structural significance of the N591S variant of BSEP is not apparent from the crystal structure of Sav1866 (fig 2D). Login to comment
88 Indeed, in the sequence of MJ0796 from Methanococcus jannaschii this position is occupied by a serine, suggesting that the serine side chain is likely to be tolerated as a replacement for N591 in BSEP.38 DISCUSSION We report here the identification of seven heterozygous carriers of BSEP (ABCB11) mutations (four E297G, one D482G and two N591S) in a large cohort of patients with ICP. Login to comment
118 The N591S mutation has been previously described in a case of ICP in a screen of 21 cases.32 This residue is not highly conserved across ABC transporter NBDs, suggesting that folding and/or function may not be affected by this change. Login to comment
123 Examination of clinical information for the E297G and N591S carriers failed to identify any factor to distinguish them from the general ICP population. Login to comment

[hide] Missense mutations and single nucleotide polymorph... Hepatology. 2009 Feb;49(2):553-67. Byrne JA, Strautnieks SS, Ihrke G, Pagani F, Knisely AS, Linton KJ, Mieli-Vergani G, Thompson RJ
Missense mutations and single nucleotide polymorphisms in ABCB11 impair bile salt export pump processing and function or disrupt pre-messenger RNA splicing.
Hepatology. 2009 Feb;49(2):553-67., [PMID:19101985]

Abstract [show]
The gene encoding the human bile salt export pump (BSEP), ABCB11, is mutated in several forms of intrahepatic cholestasis. Here we classified the majority (63) of known ABCB11 missense mutations and 21 single-nucleotide polymorphisms (SNPs) to determine whether they caused abnormal ABCB11 pre-messenger RNA splicing, abnormal processing of BSEP protein, or alterations in BSEP protein function. Using an in vitro minigene system to analyze splicing events, we found reduced wild-type splicing for 20 mutations/SNPs, with normal mRNA levels reduced to 5% or less in eight cases. The common ABCB11 missense mutation encoding D482G enhanced aberrant splicing, whereas the common SNP A1028A promoted exon skipping. Addition of exogenous splicing factors modulated several splicing defects. Of the mutants expressed in vitro in CHO-K1 cells, most appeared to be retained in the endoplasmic reticulum and degraded. A minority had BSEP levels similar to wild-type. The SNP variant A444 had reduced levels of protein compared with V444. Treatment with glycerol and incubation at reduced temperature overcame processing defects for several mutants, including E297G. Taurocholate transport by two assessed mutants, N490D and A570T, was reduced compared with wild-type. Conclusion: This work is a comprehensive analysis of 80% of ABCB11 missense mutations and single-nucleotide polymorphisms at pre-mRNA splicing and protein processing/functional levels. We show that aberrant pre-mRNA splicing occurs in a considerable number of cases, leading to reduced levels of normal mRNA. Thus, primary defects at either the protein or the mRNA level (or both) contribute significantly to BSEP deficiency. These results will help to develop mutation-specific therapies for children and adults suffering from intrahepatic cholestasis due to BSEP deficiency.

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68 Continued Exon Nucleotide Change Predicted Protein Effect Location in Protein Associated Phenotype Prevalence or frequency* Any Defect(s) Identified Reference BRIC, 1 family (both hom) 15 c.1757CϾT T586I Adj WB BRIC 1 family (het) No splicing † 15 c.1763CϾT A588V Adj WB PFIC 2 families (both het) No protein 31, 32 15 c.1772AϾG N591S Adj WB SNP-ICP 2.6% 42 15 c.1779TϾA S593R NBF1 PFIC 1 family (het) 29 15 c.1791GϾT V597V NBF1 SNP 2.6% 42 16 c.1880TϾC I627T IC3 PFIC 1 family (het) ‡ 16 c.1964CϾT T655I IC3 BRIC / ICP / DC 1 family (het) Reduced levels of mature protein ‡ 17 c.2029AϾG M677V IC3 SNP 1.6-5.6% 39, 42-45 18 c.2093GϾA R698H IC3 SNP 0.3 - 0.8% 43, 45 18 c.2125GϾA E709K IC3 SNP-PFIC 1 family (het) ‡ 18 c.2130TϾC P710P IC3 SNP-PBC 0.5 - 3.1% 43 20-21 c.2412AϾC A804A TM8 SNP 1.1% 45 20-21 c.2453AϾT Y818F IC4 SNP-PFIC 2 families (hom) Reduced levels of mature protein ‡ 20-21 c.2494CϾT R832C IC4 PFIC 2 families (1 het, 1 consanguineous) Moderate differential splicing 31, 32 20-21 c.2576CϾG T859R IC4 PFIC 1 family (het) 31 22 c.2767AϾC T923P IC5 BRIC 1 family (het) 8 22 c.2776GϾC A926P IC5 BRIC 1 family (het) Mild exon skipping 8 23 c.2842CϾT R948C IC5 PFIC 2 families (both het) Immature protein 31 23 c.2935AϾG N979D TM11 PFIC 1 family (consanguineous) 31 23 c.2944GϾA G982R TM11 PFIC 4 families (1 hom, 1 consanguineous, 2 het) Immature protein 7, 29, 31 23 c.3011GϾA G1004D EC6 PFIC 1 family (hom) 28 24 c.3084AϾG A1028A TM12 SNP-PBC 39.86 - 56.3% Severe exon skipping 8, 43, 45 24 c.3148CϾT R1050C C term BRIC 2 familes (1 hom, 1 het) Immature protein 8 25 c.3329CϾA A1110E Adj WA PFIC 2 familes (both het) Mild exon skipping; immature protein 31 25 c.3346GϾC G1116R WA PFIC / BRIC 1 family (consanguineous) Mild exon skipping ‡ 25 c.3382CϾT R1128C NBF2 PFIC 1 family (consanguineous) Mild exon skipping; immature protein 31 25 c.3383GϾA R1128H NBF2 BRIC 1 family (hom) Mild exon skipping; greatly reduced levels of mature protein 8 26 c.3432CϾA S1144R NBF2 PFIC 1 family (het) Severe differential splicing 29 26 c.3457CϾT R1153C NBF2 PFIC 4 families (2 consanguineous, 2 het) Immature protein 7, 31, 36 26 c.3458GϾA R1153H NBF2 PFIC 4 families (2 consanguineous, 2 het) Severe differential splicing; immature protein 31 26 c.3460TϾC S1154P NBF2 PFIC 1 family (het) Severe differential splicing 31 26 c.3556GϾA E1186K NBF2 SNP 1%-10% Mild exon skipping ‡ 26 c.3589_3590 delCTinsGG L1197G NBF2 BRIC 1 family (het) † 27 c.3628AϾC T1210P Adj ABCm PFIC 1 family (hom) Immature protein 31 27 c.3631AϾG N1211D Adj ABCm SNP-PFIC 1 family (het) ‡ 27 c.3669GϾC E1223D ABCm Prolonged NNH 1 family (het) ‡ 27 c.3683CϾT A1228V Adj ABCm/WB SNP-PBC 0.8% 43 27 c.3691CϾT R1231W Adj ABCm/WB PFIC 1 family (het) Severe exon skipping; immature protein 30, 31 27 c.3692GϾA R1231Q Adj ABCm/WB PFIC 2 families (1 consanguineous, 1 het) No splicing; immature protein 31, 34 27 c.3724CϾA L1242I WB PFIC 1 family (het) 31 28 c.3892GϾA R1268Q¶ NBF2 PFIC 1 family (hom) Immature protein 7 *Prevalence or frequency is quoted depending on how data were presented in the original publication(s). Login to comment
140 Variant BSEP forms found in this study to have the same molecular weight and about the same abundance as the wild-type protein are I498T (c.1493TϾC; Fig. 5A), N1211D (c.3631AϾG), L1242I (c.3724CϾA), E709K (c.2125GϾA; Fig. 5C), , T586I (c.1757CϾT; Fig. 5E), as well as the SNP N591S (c.1772AϾG; Fig. 5F). Login to comment

[hide] Polymorphic variants in the human bile salt export... Pharmacogenet Genomics. 2010 Jan;20(1):45-57. Ho RH, Leake BF, Kilkenny DM, Meyer Zu Schwabedissen HE, Glaeser H, Kroetz DL, Kim RB
Polymorphic variants in the human bile salt export pump (BSEP; ABCB11): functional characterization and interindividual variability.
Pharmacogenet Genomics. 2010 Jan;20(1):45-57., [PMID:20010382]

Abstract [show]
OBJECTIVES: Our aims were to identify and functionally characterize coding region nonsynonymous single nucleotide polymorphisms in the hepatic efflux transporter, bile salt export pump (BSEP; ABCB11), and to assess interindividual variability in BSEP expression. METHODS: We identified 24 single nucleotide polymorphisms, including nine nonsynonymous variants, in ABCB11 from genomic DNA of approximately 250 ethnically diverse healthy individuals using denaturing high-performance liquid chromatography analysis and DNA sequencing. Wild type and variant BSEP were generated and functionally characterized for taurocholate transport activity in vitro in HeLa cells using a recombinant vaccinia-based method. BSEP expression was assessed by real-time mRNA analysis, western blot analysis, and immunofluorescence confocal microscopy. RESULTS: For the most part, polymorphisms were rare and ethnic-dependent. In vitro functional studies revealed several rare variants, including 616A>G, 1674G>C, 1772A>G, and 3556G>A, to be associated with significantly impaired taurocholate transport activity while the 890A>G variant trended towards impaired function but was not statistically significant. The 3556G>A variant was associated with reduced cell surface to total protein expression compared with wild-type BSEP. Expression of BSEP by mRNA and protein analysis was determined from a bank of human liver samples. Wide interindividual variability was noted in both mRNA (19-fold) and protein (31-fold) expression levels. The common variant 1331T>C was associated with significantly reduced hepatic BSEP mRNA levels. CONCLUSION: Accordingly, our study indicates there are functionally relevant polymorphisms in ABCB11 which may be of potential relevance in the predisposition to acquired liver disorders such as drug-induced cholestasis.

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144 In addition, several rare BSEP polymorphisms, including 616A > G (Ile206Val), 1674G > C (Gln558His), 1772A > G (Asn591Ser), and 3556G > A (Glu1186Lys) were also associated with significantly impaired taurocholate transport compared with wild-type BSEP, exhibited by retained increased intracellular taurocholate accumulation (P < 0.05). Login to comment
156 Calnexin, an intracellular resident Table 1 Single-nucleotide polymorphisms in ABCB11 Allele frequencies (%) SNP rs number Amino acid change African-American European-American Asian-American Mexican-American Pacific Islanders 108T > C rs3815675 Synonymous 1.5 1.5 25 5.0 21.4 167C > T rs11568361 Ser56Leu 0.5 0 0 0 0 174C > T rs11568362 Synonymous 0.5 0 0 0 0 270T > C rs414877 Synonymous 3.0 3.5 5.0 0 7.1 402C > T rs11568377 Synonymous 3.5 0 0 0 0 585G > C rs11568365 Synonymous 0.5 0 0 0 0 616A > G rs11568357 Ile206Val 2.5 0 0 0 0 696G > T rs11568358 Synonymous 0 0.5 0 0 0 807T > C rs2287616 Synonymous 2.0 0.5 23.3 5.0 21.4 890A > G rs11568372 Glu297Gly 0 0.5 0 0 0 957A > G rs7563233 Synonymous 31.5 0.5 0 15.0 0 1281C > T rs11568360 Synonymous 0.5 0 0 0 0 1331T > C rs2287622 Val444Ala 53.0 57.1 66.7 50.0 92.9 1671C > T rs11568368 Synonymous 0 0.5 0 0 0 1674G > C rs11568369 Gln558His 0 0.5 0 0 0 1772A > G rs11568367 Asn591Ser 0 0.5 0 0 0 1774G > C rs11568370 Glu592Gln 0 0.5 0 0 0 1791G > T rs11568371 Synonymous 0 0.5 0 0 0 2029A > G rs11568364 Met677Val 15.0 5.5 1.7 5.0 0 2412A > G rs11568373 Synonymous 8.0 0 0 5.0 0 3084A > G rs97692 Synonymous 28.6 54.6 63.3 37.5 21.4 3258A > G rs11568359 Synonymous 7.0 0 0 0 0 3435A > G rs11568366 Synonymous 1.0 0 0 0 0 3556G > A rs1521808 Glu1186Lys 2.5 0 0 0 0 Allele frequencies for single-nucleotide polymorphisms (SNPs) in ABCB11 were determined from a DNA panel of ethnically defined healthy individuals - African-Americans (n = 100), European-Americans (n = 100), Asian-Americans (n = 30), Mexican-Americans (n = 10) and Pacific Islanders (n = 7). Login to comment

[hide] ATP8B1 and ABCB11 analysis in 62 children with nor... Hepatology. 2010 May;51(5):1645-55. Davit-Spraul A, Fabre M, Branchereau S, Baussan C, Gonzales E, Stieger B, Bernard O, Jacquemin E
ATP8B1 and ABCB11 analysis in 62 children with normal gamma-glutamyl transferase progressive familial intrahepatic cholestasis (PFIC): phenotypic differences between PFIC1 and PFIC2 and natural history.
Hepatology. 2010 May;51(5):1645-55., [PMID:20232290]

Abstract [show]
Progressive familial intrahepatic cholestasis (PFIC) types 1 and 2 are characterized by normal serum gamma-glutamyl transferase (GGT) activity and are due to mutations in ATP8B1 (encoding FIC1) and ABCB11 (encoding bile salt export pump [BSEP]), respectively. Our goal was to evaluate the features that may distinguish PFIC1 from PFIC2 and ease their diagnosis. We retrospectively reviewed charts of 62 children with normal-GGT PFIC in whom a search for ATP8B1 and/or ABCB11 mutation, liver BSEP immunostaining, and/or bile analysis were performed. Based on genetic testing, 13 patients were PFIC1 and 39 PFIC2. The PFIC origin remained unknown in 10 cases. PFIC2 patients had a higher tendency to develop neonatal cholestasis. High serum alanine aminotransferase and alphafetoprotein levels, severe lobular lesions with giant hepatocytes, early liver failure, cholelithiasis, hepatocellular carcinoma, very low biliary bile acid concentration, and negative BSEP canalicular staining suggest PFIC2, whereas an absence of these signs and/or presence of extrahepatic manifestations suggest PFIC1. The PFIC1 and PFIC2 phenotypes were not clearly correlated with mutation types, but we found tendencies for a better prognosis and response to ursodeoxycholic acid (UDCA) or biliary diversion (BD) in a few children with missense mutations. Combination of UDCA, BD, and liver transplantation allowed 87% of normal-GGT PFIC patients to be alive at a median age of 10.5 years (1-36), half of them without liver transplantation. CONCLUSION: PFIC1 and PFIC2 differ clinically, biochemically, and histologically at presentation and/or during the disease course. A small proportion of normal-GGT PFIC is likely not due to ATP8B1 or ABCB11 mutations.

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104 14b† p.I420T p.I1061VfsX34 na na PFIC2 no. 15*,‡ p.A167T p.G1058HfsX38 0.5 BSEP À PFIC2 no. 16* p.R1231W p.I528X na na PFIC2 no. 17 p.M62K p.I112T þ p.R698H 0.10 BSEP À PFIC2 no. 18* p.E297G p.H484RfsX5 0.16 BSEP À PFIC2 no. 19* p.E297G p.I610GfsX45 0.23 BSEP À PFIC2 no. Login to comment
107 24† p.R1153C c.3213 14 A>G 0.13 BSEP À PFIC2 no. 25* p.G982R p.Q101DfsX8 0.10 BSEP À PFIC2 no. 26* p.N591S þ p.V597V nf 0.39 BSEP À PFIC2 no. 27* p.G982R p.R1001R na BSEP À PFIC2 no. 28 p.L232CfsX9 nf na BSEP À PFIC2 no. 29 p.W114R nf 0.50 BSEP À PFIC2 no. Login to comment

[hide] The bile salt export pump: clinical and experiment... Semin Liver Dis. 2010 May;30(2):125-33. Epub 2010 Apr 26. Lam P, Soroka CJ, Boyer JL
The bile salt export pump: clinical and experimental aspects of genetic and acquired cholestatic liver disease.
Semin Liver Dis. 2010 May;30(2):125-33. Epub 2010 Apr 26., [PMID:20422495]

Abstract [show]
The primary transporter responsible for bile salt secretion is the bile salt export pump (BSEP, ABCB11), a member of the ATP-binding cassette (ABC) superfamily, which is located at the bile canalicular apical domain of hepatocytes. In humans, BSEP deficiency results in several different genetic forms of cholestasis, which include progressive familial intrahepatic cholestasis type 2 (PFIC2), benign recurrent intrahepatic cholestasis type 2 (BRIC2), as well as other acquired forms of cholestasis such as drug-induced cholestasis (DIC) and intrahepatic cholestasis of pregnancy (ICP). Because bile salts play a pivotal role in a wide range of physiologic and pathophysiologic processes, regulation of BSEP expression has been a subject of intense research. The authors briefly describe the molecular characteristics of BSEP and then summarize what is known about its role in the pathogenesis of genetic and acquired cholestatic disorders, emphasizing experimental observations from animal models and cell culture in vitro systems.

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49 Similar to the results of immunofluorescence studies in liver tissue from PFIC2 patients,47 when PFIC2 human mutations were expressed in model mammalian cell lines (MDCK, HEK293, HepG2), the proteins failed to reach or be maintained at the cell surface.54-57 When BSEP mutations that cause PFIC2 (D482G, E297G), BRIC2 (A590T, R1050C), and ICP (N591S) were compared, the clinical severity of these mutations tended to correlate inversely with the amount of protein expressed on the cell surface. Login to comment

[hide] Genetic determinants of drug-induced cholestasis a... Semin Liver Dis. 2010 May;30(2):147-59. Epub 2010 Apr 26. Pauli-Magnus C, Meier PJ, Stieger B
Genetic determinants of drug-induced cholestasis and intrahepatic cholestasis of pregnancy.
Semin Liver Dis. 2010 May;30(2):147-59. Epub 2010 Apr 26., [PMID:20422497]

Abstract [show]
Intrahepatic cholestasis of pregnancy and drug-induced cholestasis are two clinically important forms of acquired cholestatic liver disease. The understanding of the underlying mechanisms of acquired cholestasis has recently made considerable progress by the identification of canalicular ATP-binding cassette (ABC) transporters as likely targets for these forms of cholestasis. Cholestasis of pregnancy is linked to estrogen and progesterone metabolites. These metabolites have been shown to impair the bile salt export pump (BSEP) function by an indirect mechanism. In addition, genetic variants (as well as mutants) of the genes coding for the phosphatidylcholine translocator MDR3 and BSEP and for the farnesoid X receptor, which is critical in the transcriptional activation of MDR3 ( ABCB4) and BSEP ( ABCB11) have been associated with intrahepatic cholestasis of pregnancy. The pathogenesis of drug-induced liver injury encompasses a wide spectrum of mechanisms, some of which are still poorly understood. BSEP is now known to be subject to drug inhibition in susceptible patients. Information on genetic factors rendering individuals susceptible to inhibition of BSEP by drugs or their metabolites is still scarce. Besides rare mutations that have been linked to drug-induced cholestasis, the common p.V444A polymorphism of BSEP has been identified as a potential risk factor. In this review, the authors summarize key concepts of physiology of bile formation, diagnostic principles to indentify these forms of acquired cholestasis, as well as pathogenetic mechanisms leading to intrahepatic cholestasis of pregnancy or drug-induced cholestasis. In addition, they review the current knowledge on genetic susceptibility factors for these two forms of cholestasis.

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79 In the same study, heterozygosity for the BSEP mutations p.E297G, p.D482G, and p.N591S formerly associated with benign and progressive forms of familial intrahepatic cholestasis type 2 were found in four, one, and two ICP patients, respectively, allowing the extrapolation that 1% of European ICP cases are caused by these mutations.105 Although the molecular and mechanistic basis for p.V444A and p.N591S were not apparent, in silico structural and functional analysis suggests that p.E297G and p.D482G destabilizes the protein fold of BSEP, leading to decreased taurocholate transport in case of p.E297G.105,106 In addition, decreased hepatic BSEP expression,107,108 and very recently, significantly reduced hepatic mRNA levels109 was reported in healthy human liver tissue carrying the alanine allele in position 444 of BSEP, which could predispose to the development of ICP by way of decreased canalicular availability of BSEP. Login to comment

[hide] The role of the sodium-taurocholate cotransporting... Handb Exp Pharmacol. 2011;(201):205-59. Stieger B
The role of the sodium-taurocholate cotransporting polypeptide (NTCP) and of the bile salt export pump (BSEP) in physiology and pathophysiology of bile formation.
Handb Exp Pharmacol. 2011;(201):205-59., [PMID:21103971]

Abstract [show]
Bile formation is an important function of the liver. Bile salts are a major constituent of bile and are secreted by hepatocytes into bile and delivered into the small intestine, where they assist in fat digestion. In the small intestine, bile salts are almost quantitatively reclaimed and transported back via the portal circulation to the liver. In the liver, hepatocytes take up bile salts and secrete them again into bile for ongoing enterohepatic circulation. Uptake of bile salts into hepatocytes occurs largely in a sodium-dependent manner by the sodium taurocholate cotransporting polypeptide NTCP. The transport properties of NTCP have been extensively characterized. It is an electrogenic member of the solute carrier family of transporters (SLC10A1) and transports predominantly bile salts and sulfated compounds, but is also able to mediate transport of additional substrates, such as thyroid hormones, drugs and toxins. It is highly regulated under physiologic and pathophysiologic conditions. Regulation of NTCP copes with changes of bile salt load to hepatocytes and prevents entry of cytotoxic bile salts during liver disease. Canalicular export of bile salts is mediated by the ATP-binding cassette transporter bile salt export pump BSEP (ABCB11). BSEP constitutes the rate limiting step of hepatocellular bile salt transport and drives enterohepatic circulation of bile salts. It is extensively regulated to keep intracellular bile salt levels low under normal and pathophysiologic situations. Mutations in the BSEP gene lead to severe progressive familial intrahepatic cholestasis. The substrates of BSEP are practically restricted to bile salts and their metabolites. It is, however, subject to inhibition by endogenous metabolites or by drugs. A sustained inhibition will lead to acquired cholestasis, which can end in liver injury.

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432 Some patients with cholestasis of pregnancy were found to have a novel mutation in the BSEP gene, leading to a p.N591S variant (Dixon et al. 2009; Pauli-Magnus et al. 2004b). Login to comment

[hide] Combined mutations of canalicular transporter prot... Gastroenterology. 2006 Aug;131(2):624-9. Keitel V, Vogt C, Haussinger D, Kubitz R
Combined mutations of canalicular transporter proteins cause severe intrahepatic cholestasis of pregnancy.
Gastroenterology. 2006 Aug;131(2):624-9., [PMID:16890614]

Abstract [show]
Intrahepatic cholestasis of pregnancy (ICP) is a cholestatic disorder that usually develops in the third trimester of pregnancy and persists until delivery. The cause of ICP remains elusive, but there is evidence that mutations in the canalicular ABC transporter phospholipid flippase (MDR3) and in the bile salt export pump (BSEP) can predispose for the development of ICP. MDR3 and BSEP were investigated by gene sequencing and immunofluorescence microscopy in a patient with severe ICP of early onset. ICP was diagnosed in a patient in the first trimester of pregnancy with severe pruritus, elevated levels of bile salts, and 48-fold elevation of transaminase levels. A liver biopsy specimen showed diminished canalicular expression of the bile salt export pump BSEP, while the expression and localization of the phospholipid flippase MDR3 was normal. Gene sequencing revealed a homozygous MDR3 gene mutation (S320F). The patient was also homozygous for the common BSEP polymorphism V444A. Treatment with ursodeoxycholate normalized transaminase levels but could not prevent further elevation of bile salt levels and preterm delivery. The combined homozygous alterations of the canalicular transporters may explain the early onset and severity of ICP in this patient. The common BSEP polymorphism V444A accounts for the reduced canalicular BSEP expression. Reduced bile salt secretion through BSEP may explain the persistence of elevated bile salt levels and incomplete efficacy of ursodeoxycholate treatment.

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58 Two ICP-specific nonsynonymous SNPs were detected in the MDR3 gene (S320F and G762E).6 In the BSEP gene, one ICP-specific SNP was found (N591S).6 Another nucleotide exchange from T to C at position Figure 2. Login to comment

[hide] Functional hot spots in human ATP-binding cassette... Protein Sci. 2010 Nov;19(11):2110-21. Kelly L, Fukushima H, Karchin R, Gow JM, Chinn LW, Pieper U, Segal MR, Kroetz DL, Sali A
Functional hot spots in human ATP-binding cassette transporter nucleotide binding domains.
Protein Sci. 2010 Nov;19(11):2110-21., [PMID:20799350]

Abstract [show]
The human ATP-binding cassette (ABC) transporter superfamily consists of 48 integral membrane proteins that couple the action of ATP binding and hydrolysis to the transport of diverse substrates across cellular membranes. Defects in 18 transporters have been implicated in human disease. In hundreds of cases, disease phenotypes and defects in function can be traced to nonsynonymous single nucleotide polymorphisms (nsSNPs). The functional impact of the majority of ABC transporter nsSNPs has yet to be experimentally characterized. Here, we combine experimental mutational studies with sequence and structural analysis to describe the impact of nsSNPs in human ABC transporters. First, the disease associations of 39 nsSNPs in 10 transporters were rationalized by identifying two conserved loops and a small alpha-helical region that may be involved in interdomain communication necessary for transport of substrates. Second, an approach to discriminate between disease-associated and neutral nsSNPs was developed and tailored to this superfamily. Finally, the functional impact of 40 unannotated nsSNPs in seven ABC transporters identified in 247 ethnically diverse individuals studied by the Pharmacogenetics of Membrane Transporters consortium was predicted. Three predictions were experimentally tested using human embryonic kidney epithelial (HEK) 293 cells stably transfected with the reference multidrug resistance transporter 4 and its variants to examine functional differences in transport of the antiviral drug, tenofovir. The experimental results confirmed two predictions. Our analysis provides a structural and evolutionary framework for rationalizing and predicting the functional effects of nsSNPs in this clinically important membrane transporter superfamily.

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72 Predictions of the Functional Effects of 40 nsSNPs in ABC Transporters Comon name HUGO name Mutation NBD Prediction BSEP ABCB11 E592Q NBD1 Neutral BSEP ABCB11 N591S NBD1 Neutral BSEP ABCB11 Q558H NBD1 Neutral BSEP ABCB11 V444A NBD1 Neutral BSEP ABCB11 E1186K NBD2 Disease MDR1 ABCB1 P1051A NBD2 Neutral MDR1 ABCB1 S1141T NBD2 Neutral MDR1 ABCB1 T1256K NBD2 Disease MDR1 ABCB1 V1251I NBD2 Neutral MDR1 ABCB1 W1108R NBD2 Disease MRP2 ABCC2 I670T NBD1 Disease MRP2 ABCC2 L849R NBD1 Disease MRP2 ABCC2 C1515Y NBD2 Disease MRP3 ABCC3 D770N NBD1 Neutral MRP3 ABCC3 K718M NBD1 Neutral MRP3 ABCC3 T809M NBD1 Disease MRP3 ABCC3 V765L NBD1 Disease MRP3 ABCC3 Q1365R NBD2 Disease MRP3 ABCC3 R1297H NBD2 Disease MRP3 ABCC3 R1348C NBD2 Disease MRP3 ABCC3 R1381S NBD2 Disease MRP4 ABCC4 G487E NBD1 Disease MRP4 ABCC4 K498E NBD1 Neutral MRP4 ABCC4 R1220Q NBD2 Neutral MRP4 ABCC4 T1142M NBD2 Neutral MRP4 ABCC4 V1071I NBD2 Neutral MRP6 ABCC6 I1330L NBD1 Neutral MRP6 ABCC6 I742V NBD1 Neutral MRP6 ABCC6 P664S NBD1 Neutral MRP6 ABCC6 R724K NBD1 Neutral MRP6 ABCC6 R769K NBD1 Neutral MRP6 ABCC6 A1291T NBD2 Neutral MRP6 ABCC6 E1369K NBD2 Neutral MRP6 ABCC6 G1327E NBD2 Disease MRP6 ABCC6 L1416R NBD2 Disease MRP6 ABCC6 R1268Q NBD2 Disease MRP6 ABCC6 R1461H NBD2 Disease MXR ABCG2 I206L NBD1 Neutral MXR ABCG2 P269S NBD1 Disease MXR ABCG2 Q141K NBD1 Neutral nsSNPs. Login to comment

[hide] Bile acid-CoA ligase deficiency--a new inborn erro... J Inherit Metab Dis. 2012 May;35(3):521-30. Epub 2011 Nov 17. Chong CP, Mills PB, McClean P, Gissen P, Bruce C, Stahlschmidt J, Knisely AS, Clayton PT
Bile acid-CoA ligase deficiency--a new inborn error of bile acid metabolism.
J Inherit Metab Dis. 2012 May;35(3):521-30. Epub 2011 Nov 17., [PMID:22089923]

Abstract [show]
Born at 27 weeks gestation, a child of consanguineous parents of Pakistani origin required prolonged parenteral nutrition. She developed jaundice, with extensive fibrosis and architectural distortion at liver biopsy; jaundice resolved with supportive care. Serum gamma-glutamyl transpeptidase values were within normal ranges. The bile acids in her plasma and urine were >85% unconjugated (non-amidated). Two genes encoding bile-acid amidation enzymes were sequenced. No mutations were found in BAAT, encoding bile acid-CoA : aminoacid N-acyl transferase. The patient was homozygous for the missense mutation c.1012C > T in SLC27A5, predicted to alter a highly conserved amino-acid residue (p.H338Y) in bile acid-CoA ligase (BACL). She also was homozygous for the missense mutation c.1772A > G in ABCB11, predicted to alter a highly conserved amino-acid residue (p.N591S) in bile salt export pump (BSEP). BACL is essential for reconjugation of bile acids deconjugated by gut bacteria, and BSEP is essential for hepatocyte-canaliculus export of conjugated bile acids. A female sibling born at term had the same bile-acid phenotype and SLC27A5 genotype, without clinical liver disease. She was heterozygous for the c.1772A > G ABCB11 mutation. This is the first report of a mutation in SLC27A5. The amidation defect may have contributed to cholestatic liver disease in the setting of prematurity, parenteral nutrition, and homozygosity for an ABCB11 mutation.

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8 She also was homozygous for the missense mutation c.1772A>G in ABCB11, predicted to alter a highly conserved amino-acid residue (p.N591S) in bile salt export pump (BSEP). Login to comment
103 She was, however, homozygous for the sequence change c.1772A>G (p.N591S) in ABCB11. This has been described in the heterozygous state in one patient with intrahepatic cholestasis of pregnancy and is assessed as probably pathogenic (Pauli-Magnus et al. 2004). Login to comment
107 The sister proved homozygous for the c.1012>T (p.H338Y) mutation in SLC27A5 and heterozygous for the c.1772A>G (p.N591S) sequence change in ABCB11. Login to comment

[hide] The bile salt export pump (BSEP) in health and dis... Clin Res Hepatol Gastroenterol. 2012 Dec;36(6):536-53. doi: 10.1016/j.clinre.2012.06.006. Epub 2012 Jul 12. Kubitz R, Droge C, Stindt J, Weissenberger K, Haussinger D
The bile salt export pump (BSEP) in health and disease.
Clin Res Hepatol Gastroenterol. 2012 Dec;36(6):536-53. doi: 10.1016/j.clinre.2012.06.006. Epub 2012 Jul 12., [PMID:22795478]

Abstract [show]
The bile salt export pump (BSEP) is the major transporter for the secretion of bile acids from hepatocytes into bile in humans. Mutations of BSEP are associated with cholestatic liver diseases of varying severity including progressive familial intrahepatic cholestasis type 2 (PFIC-2), benign recurrent intrahepatic cholestasis type 2 (BRIC-2) and genetic polymorphisms are linked to intrahepatic cholestasis of pregnancy (ICP) and drug-induced liver injury (DILI). Detailed analysis of these diseases has considerably increased our knowledge about physiology and pathophysiology of bile secretion in humans. This review focuses on expression, localization, and function, short- and long-term regulation of BSEP as well as diseases association and treatment options for BSEP-associated diseases.

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185 PFIC BRIC/NFC ICP Other liver diseases Genetic variants without disease association Missense mutations M1V C336S D549V L1055P E135K E137K T87R V43I S701P G19R W342G G556R C1083Y E137K L198P M123T S56L L712L L50S A382G G562D A1110E E186G E297G S194P Q121K A865D M62K R387H A570T S1114R L198P R415Q L198P R128H A865G C68Y A390P L581F G1116E E297G V444A G260D I206V S874P C107R G410D A588V G1116F G374S D482G E297K V284A I939M I112T L413W S593R G1116R A390P N591S V444A G295C R958Q W114R I420T I627T S1120N R432T T655I T510T G295R F959C Y157C D440E E636G R1128C V444A T655I G295S F959V A167T G455E R698C S1144R I498T D676Y R299K T965S A167V K461E S699P R1153C A570T P710P R303K F971L I182K T463I E709K R1153H T586I L827I L339V F971Y M183T Q466K G758R S1154P G648V G855R H423R L1006F M183V R470Q G766R N1173D T655I E1186K V444A N1009H G188W Y472C Y818F T1210P T923P V444D K1145N M217R V481E R832C N1211D A926P V444G I1183T R223C D482G R832H V1212F R948C A459V S226L R487H T859R R1231Q G1004D I468I G238V R487P A865V R1231W R1050C R487L T242I N490D Q869P L1242I G1116R Q546K A257G I498T G877R D1243G R1128H Q558H V284L G499E S901R R1268Q L1197G E592Q E297G I512T R948C A1283V R1231Q V597M R303G N515T N979D G1292V R616G R303K R517H G982R G1298R T619A Q312H F540L G1004D M677L R313S I541L T1029K M677V G327E I541T G1032R R696Q W330R F548Y A1044P R698H Nonsense mutations (premature stop-codons) S25X Y472X Y772X R1090X E96X W493X Q791X V1147X W330X R520X R928X Q1215X Y354X I528X Y1041X R1235X R415X R575X R1057X E1302X R470X Q702X Q1058X Table 1 (Continued) PFIC BRIC/NFC ICP Other liver diseases Genetic variants without disease association Splice site mutations 76 + 3G > T 908 + 1delG 2178 + 1G > T 3057-2A > G Q159Q 77-1G > C 908 + 1G > T 2179-2A > G 3213 + 1delG Q361Q 99-1G > T 908 + 1G > A 2343 + 1G > T 3213 + 4A > G 150 + 3A > C 1435-13 -8del 2343 + 2T > C 3213 + 5G > A 390-1G > A 2012-8T > G 2611-2A > T 611 + 1G > A 2178 + 1G > A R1001R Deletions/insertions/frame shifts Q101Dfs8X L380Wfs18X G648Vfs5X Q1058Hfs38X F959Hfs1X T127Hfs6X A382 A388del K700Sfs12X I1061Vfs34X F959Gfs48X N199Ifs14X P456Pfs24X T919del L1165del L232Cfs9X H484Rfs5X K930Efs92X A1192Efs50X R303Sfs17X I528Sfs21X K930Efs79X T1256Tfs40X V368Rfs27X I610Qfs45X K969 K972del Synonymous variants without disease association R33R F90F L232L I416I G557G I876I A1028A K1145K D36D I134I Y269Y G418G V597V G937G K1070K R52R S136S Q312Q F427F A804A Y981Y T1086T D58D V195V G319G E395E A535A G817G G1004G A1110A The overview shows ࣈ 290 known variants of BSEP on the protein level, except splice site mutations, which are shown on cDNA level. Login to comment
208 A few ''common`` BSEP mutations (including p.E297G, p.D482G and p.N591S) have been detected in ICP-patients in heterozygous form and account for about 1.4% (7/491) of ICP-patients [150]. Login to comment
209 Canalicular expression of BSEP with the ''typical`` ICP mutation p.N591S was higher than that of the BRIC-2 (p.A570 T, p.R1050 C) or PFIC-2 mutations (p.D482G, p.E297G) [144]. Login to comment
210 Recently, a neonate has been described with homozygousity for p.N591S and, in addition, a homozygous mutation (p.H338Y) in the SLC27A5 gene. Login to comment
212 This child presented with liver fibrosis within the first year of life, while a sibling was free of symptoms although it had the same homozygous SLC27A5 mutation, while it was heterozygous for p.N591S [151], demonstrating a ''dose effect`` of N591S. Login to comment

[hide] Genetic variations of bile salt transporters. Drug Discov Today Technol. 2014 Jun;12:e55-67. doi: 10.1016/j.ddtec.2014.03.006. Kubitz R, Droge C, Kluge S, Stindt J, Haussinger D
Genetic variations of bile salt transporters.
Drug Discov Today Technol. 2014 Jun;12:e55-67. doi: 10.1016/j.ddtec.2014.03.006., [PMID:25027376]

Abstract [show]
Bile salt transporters directly or indirectly influence biological processes through physicochemical or signalling properties of bile salts. The coordinated action of uptake and efflux transporters in polarized epithelial cells of the liver, biliary tree, small intestine and kidney determine bile salt concentrations in different compartments of the body. Genetic variations of bile salt transporters lead to clinical relevant phenotypes of varying severity ranging from a predisposition for drug-induced liver injury to rapidly progressing end-stage liver disease. This review focuses on the impact of genetic variations of bile salt transporters including BSEP, NTCP, ASBT and OSTalpha/beta and discusses approaches for transporter analysis.

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89 Among these p.E297G, p.D482G and p.N591S belong to the more frequent mutations. Login to comment
100 For example, the two 'BRIC-2 mutations` p.A570T and p.R1050C had lower expression levels than the 'ICP mutation` p.N591S, but higher expression levels as compared to the PFIC-2 mutations p.D482G and p.E297G [59]. Login to comment
138 b Some variants (such as E297G or N591S of BSEP) may affect transport handling on different levels. Login to comment

[hide] Successful pregnancy after ileal exclusion in prog... Ann Hepatol. 2015 Jul-Aug;14(4):550-2. Czubkowski P, Jankowska I, Pawlowska J
Successful pregnancy after ileal exclusion in progressive familial intrahepatic cholestasis type 2.
Ann Hepatol. 2015 Jul-Aug;14(4):550-2., [PMID:26019043]

Abstract [show]
Progressive familial intrahepatic cholestasis type 2 (PFIC 2) results from mutations in ABCB11 gene coding bile salt export pump (BSEP). Medical treatment is usually unsuccessful and surgery intervention is necessary. Partial external biliary diversion (PEBD) is regarded as the first choice of surgical treatment. Ileal exclusion (IE) is an alternative operation if external stoma is not tolerated; however, a favorable outcome is uncertain. In chronic liver diseases pregnancy brings additional risk of deterioration of liver function and generally is not recommended. We present the first case report of successful pregnancy in a genetically confirmed PFIC 2 patient after surgical conversion from PEBD to IE.

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59 Several estrogens and progesterone metabolites are able to induce trans-inhibition of BSEP and the subsequent toxicity induced by the accumulation of bile acids, which may also play a role in the etiopathogenesis of intrahepatic cholestasis of pregnancy (ICP).10,11 Mutations in MDR3 (ABCB4) gene coding transporter for phospholipids across the canalicular membrane may account for 15% of cases of ICP.12 Interestingly, a Czubkowski P, et al. , 2015; 14 (4): 550-552 few "common" BSEP mutations (including p.E297G, p.D482G, and p.N591S) have been detected in ICP-patients in heterozygous form, and common BSEP polymorphism (p.V444A) has been linked to ICP as well.13 The reoccurrence of BSEP cholestasis and development of ICP may be clinically indistinguishable, since both usually present with pruritus, elevated bile acids and aminotransferases, and normal hepatic imaging.11,12 Moreover, in ICP, mutations or polymorphisms of some hepatobiliary transport proteins may contribute to disease pathogenesis or severity, but on the other hand consideration must be given to the possibility of other rare underlying hepatic disorders that may be unmasked during pregnancy with cholestasis as its first manifestation.14 Thus, the diagnosis of ICP should be given after exclusion of preexisting liver disease.15 Pruritus remains the most important clinical symptom of PFIC-2. Login to comment