ABCMdb

ABCB11 p.Arg575*

ClinVar:	c.1723C>T , p.Arg575* D , Pathogenic
Reviews:	p.Arg575* D

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[hide] Bile salt export pump gene mutations in two Japane... J Pediatr Gastroenterol Nutr. 2003 May;36(5):647-50. Goto K, Sugiyama K, Sugiura T, Ando T, Mizutani F, Terabe K, Ban K, Togari H
Bile salt export pump gene mutations in two Japanese patients with progressive familial intrahepatic cholestasis.
J Pediatr Gastroenterol Nutr. 2003 May;36(5):647-50., [PMID:12717091]

Abstract [show]
BACKGROUND: In recent years, progressive familial intrahepatic cholestasis has been classified into at least three types by genetic analysis: PFIC1, PFIC2, and MDR3. Liver transplantation is effective for treating patients with this intractable syndrome. Confirming the correct diagnosis is of paramount importance because prognosis after transplantation differs with the genetic type of the disease. METHODS: Synthesis of cDNA was accomplished using RNA extracted from liver tissue of two Japanese patients with progressive familial intrahepatic cholestasis. Polymerase chain reaction was performed using 13 primer sets designed for amplification of the bile salt export pump cDNA. Direct sequencing was undertaken, and identified sequences were compared with the sequence for bile salt export pump gene registered with GenBank. In addition, gene sequences for nonprogressive familial intrahepatic cholestasis patients were analyzed. RESULTS: Genetic analysis of patient 1 revealed that substitutions in bile salt export pump protein sequences, namely R575X and E636G, might be the cause of the disease. In patient 2, V330X and R487H might fulfill the same role. Results of gene analysis in parents and cholestatic controls supported these conclusions. CONCLUSIONS: Absence or presence of bile salt export protein gene mutations was confirmed as representing a useful prognostic marker for clinical course after liver transplantation.

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72 Of the remaining three substitutions, two were also seen in some control subjects, whereas E636G was not seen in any of the control subjects. Results of genetic analyses performed on family members revealed that R575X was paternal in origin, whereas E636G was maternal in origin. None of these mutations were observed in the asymptomatic brother. Login to comment
82 Differences between BSEP mRNA sequence of Case 1 and registered sequence, and results of genetic analyses performed on family members Nucleotide number of reference sequence Nucleotide substitutions from reference sequence Type of nucleotide Amino acid substitutions from reference sequence Familial investigation of nucleotide substitutions Frequency of alleles of non-PFIC cases 1015 G → C G Val → Leu 0/10 homo C (V339L) 10/10 1331 T → C T Val → Ala 2/10 hetero C (V444A) 8/10 1723 C → T C Arg → Stop Patient: CT Father: CT 10/10 hetero T (R575X) Mother: CC Brother: CC 0/10 1907 A → G A Glu → Gly Patient: AG Father: AA 110/110 hetero G (E636G) Mother: AG Brother: AA 0/100 2594 C → T C Ala → Val 106/110 hetero T (A865V) 4/110 3084 A → G A (-) 5/10 homo G 5/10 A, adenine; T, thymine; G, guanine; C, cytosine; Val, V, valine; Leu, L, Leucine; Ala, A, alanine; Arg, R, arginine; Glu, E, glutamate; Gly, G, glycine; homo, homozygote; hetero, heterozygote. Login to comment
86 The R575X mutation seen in patient 1 of the present study is a nonsense mutation in the first nucleotide binding fold of the BSEP protein, whereas the E636G mutation is a missense mutation located between the first nucleotide binding fold and the seventh transmembrane domain. Login to comment

[hide] Update on progressive familial intrahepatic choles... J Pediatr Gastroenterol Nutr. 2008 Mar;46(3):241-52. Alissa FT, Jaffe R, Shneider BL
Update on progressive familial intrahepatic cholestasis.
J Pediatr Gastroenterol Nutr. 2008 Mar;46(3):241-52., [PMID:18376240]

Abstract [show]
Three distinct forms of familial intrahepatic cholestasis are the result of mutations in the ATP8B1, ABCB11, and ABCB4 genes. The pathophysiologies of the latter 2 of these diseases are well characterized and are the result of abnormalities in canalicular excretion of bile acids and phospholipids, respectively. The molecular pathophysiology of the systemic disease associated with mutations in ATP8B1 remains unclear. In all of these diseases, wide variations in clinical phenotypes have been observed. The variability can be ascribed at least in part to predicted genotype:phenotype correlations. Disease- and genotype-specific prognoses and therapeutic approaches may exist, although much more information needs to be ascertained before clinicians can confidently make decisions based on genetic information.

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188 Other common mutations include R575X, R1057X, G982R, C336S, R1153C, D482G, K461E, R1153C, R1268Q, R1090X, G238V, S114R, S593R, del 695, and del 3213 (66,67). Login to comment

[hide] Novel ABCB11 mutations in a Thai infant with progr... World J Gastroenterol. 2009 Sep 14;15(34):4339-42. Treepongkaruna S, Gaensan A, Pienvichit P, Luksan O, Knisely AS, Sornmayura P, Jirsa M
Novel ABCB11 mutations in a Thai infant with progressive familial intrahepatic cholestasis.
World J Gastroenterol. 2009 Sep 14;15(34):4339-42., 2009-09-14 [PMID:19750581]

Abstract [show]
Progressive familial intrahepatic cholestasis (PFIC) type 2 is caused by mutations in ABCB11, which encodes bile salt export pump (BSEP). We report a Thai female infant who presented with progressive cholestatic jaundice since 1 mo of age, with normal serum gamma-glutamyltransferase. Immunohistochemical staining of the liver did not demonstrate BSEP along the canaliculi, while multidrug resistance protein 3 was expressed adequately. Novel mutations in ABCB11, a four-nucleotide deletion in exon 3, c.90_93delGAAA, and a single-nucleotide insertion in exon 5, c.249_250insT, were identified, with confirmation in her parents. These mutations were predicted to lead to synthesis of truncated forms of BSEP. Immunostaining and mutation analysis thus established the diagnosis of PFIC type 2.

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89 Goto et al[14] have reported four mutations in ABCB11, predicted to yield V330X, R487H, R575X and E636G, in two Japanese PFIC patients. Login to comment

[hide] Living-related liver transplantation for siblings ... Am J Transplant. 2011 Feb;11(2):394-8. doi: 10.1111/j.1600-6143.2010.03397.x. Epub 2011 Jan 10. Shimizu H, Migita O, Kosaki R, Kasahara M, Fukuda A, Sakamoto S, Shigeta T, Uemoto S, Nakazawa A, Kakiuchi T, Arai K
Living-related liver transplantation for siblings with progressive familial intrahepatic cholestasis 2, with novel genetic findings.
Am J Transplant. 2011 Feb;11(2):394-8. doi: 10.1111/j.1600-6143.2010.03397.x. Epub 2011 Jan 10., [PMID:21219577]

Abstract [show]
Progressive familial intrahepatic cholestasis is a syndrome of severe cholestasis progressing to biliary cirrhosis and liver failure that develops in childhood. This report describes two siblings with PFIC-2 who underwent living-related liver transplantation from their genetically proven heterozygous parents. Both patients had normal gamma-glutamyl transpeptidase levels, but showed severe pruritus with sleep disturbance, cholestasis, jaundice and growth failure. Genetic testing of each patient revealed two missense mutations of the bile salt export pump, S901R and C1083Y, which have not previously been associated with PFIC-2. Usual medical treatment failed to improve their clinical symptoms, and the two siblings underwent living-related liver transplantation from their heterozygous parents. The transplants improved their clinical symptoms significantly, and the patients have since shown age-appropriate growth. Electron microscopic findings of the explanted liver of the younger sister revealed dense and amorphous bile, which is characteristic of PFIC-2. In the cases presented here, living-related liver transplantation from a heterozygous donor was associated with better quality of life and improvement of growth, and thus appears to be a feasible option for PFIC-2 patients. Mutation analysis is a useful tool to help decide the course of treatment of PFIC.

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104 The common mutations include E297G, R575X, R1057X, G982R, C336S, R1153C, D482G, K461E, R1153C, R1268Q, R1090X, G238V, S114R, S593R, del 695 and del 3213 (22). Login to comment

[hide] Morphologic findings in progressive familial intra... Am J Surg Pathol. 2011 May;35(5):687-96. Evason K, Bove KE, Finegold MJ, Knisely AS, Rhee S, Rosenthal P, Miethke AG, Karpen SJ, Ferrell LD, Kim GE
Morphologic findings in progressive familial intrahepatic cholestasis 2 (PFIC2): correlation with genetic and immunohistochemical studies.
Am J Surg Pathol. 2011 May;35(5):687-96., [PMID:21490445]

Abstract [show]
Progressive familial intrahepatic cholestasis, type 2 (PFIC2), characterized by cholestasis in infancy that may progress to cirrhosis, is caused by mutation in ABCB11, which encodes bile salt export pump (BSEP). We correlated histopathologic, immunohistochemical, and ultrastructural features in PFIC2 with specific mutations and clinical course. Twelve patients with clinical PFIC2 and ABCB11 mutations were identified, and 22 liver biopsy and explant specimens were assessed. All had hepatocellular cholestasis; most had canalicular bile plugs. At least 1 specimen from every patient had centrizonal/sinusoidal fibrosis, often with periportal fibrosis. Neonatal hepatitis-like features (inflammation, giant cells, necrosis) varied. In 2 of the 5 patients with paired specimens obtained >6 months apart, lobular and portal fibrosis worsened. Transmission electron microscopy (EM) in all 9 patients studied showed canalicular dilatation, microvilli loss, abnormal mitochondrial internal structure, and varying intracanalicular accumulation of finely granular bile. Canalicular staining for BSEP was absent in 10 patients and present in 2 patients, 1 of whom had intermittent symptoms. ABCB11 sequencing of all patients identified 6 novel and 10 previously described mutations, with nonsense, missense, and/or noncoding mutations in the 10 patients without immunohistochemically demonstrable BSEP. Missense and/or noncoding mutations were identified in the 2 patients with demonstrable BSEP, whose clinical course was more indolent. Mutations ending ABCB11 transcription appear linked, through hepatocellular necrosis and fibrosis, to worse outcome. In conclusion, light microscopy and electron microscopy findings in clinical PFIC2 can support diagnosis, but are variable and nonspecific. Therefore, no correlation between specific mutations and histopathology is yet possible.

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143 Immunohistochemical Findings and Genetic Abnormalities Patient BSEP Mutation Type of Mutation(s) 1 Absent c.890A>G (p.E297G)* Missense5,7,10,13,16,19,20 2 Absent c.1723C>T (p.R575X) Nonsense7,19,20 c.2178+1G>T Noncoding region20 3 Present c.1708G>A (p.A570T) Missense20 c.3634G>T (p.V1212F) Missense, predicted deleterious 4 Absent c.3164T>C (p.L1055P)* Missense, predicted deleterious 5 Absent c.3692G>A (p.R1231Q) Missense20 c.2296G>A (p.G766R) Missense20 6 Absent c.2782C>T (p.R928X) Nonsense13 c.3268C>T (p.R1090X) Nonsense5,7,13 7 Present c.3347G>A (p.G1116E) Missense, predicted deleterious IVS 23-8 G-A Noncoding region 8 Absent IVS 16-8 T>Gw Noncoding region10 9 Absent c.2944G>A (p.G982R) Missense5,7,19,20 c.2296G>A (p.G766R) Missense20 10 Absent c.2944G>A (p.G982R) Missense5,7,19,20 c.2296G>A (p.G766R) Missense20 11 Absent c.319T>C (p.C107R) Missense, predicted deleterious c.611+4A>G Noncoding region 12 Absent c.1723C>T (p.R575X) Nonsense7,19,20 c.2178+1G>T Noncoding region20 *Homozygous. Login to comment

[hide] A gene encoding a liver-specific ABC transporter i... Nat Genet. 1998 Nov;20(3):233-8. Strautnieks SS, Bull LN, Knisely AS, Kocoshis SA, Dahl N, Arnell H, Sokal E, Dahan K, Childs S, Ling V, Tanner MS, Kagalwalla AF, Nemeth A, Pawlowska J, Baker A, Mieli-Vergani G, Freimer NB, Gardiner RM, Thompson RJ
A gene encoding a liver-specific ABC transporter is mutated in progressive familial intrahepatic cholestasis.
Nat Genet. 1998 Nov;20(3):233-8., [PMID:9806540]

Abstract [show]
The progressive familial intrahepatic cholestases (PFIC) are a group of inherited disorders with severe cholestatic liver disease from early infancy. A subgroup characterized by normal serum cholesterol and gamma-glutamyltranspeptidase (gammaGT) levels is genetically heterogeneous with loci on chromosomes 2q (PFIC2) and 18q. The phenotype of the PFIC2-linked group is consistent with defective bile acid transport at the hepatocyte canalicular membrane. The PFIC2 gene has now been identified by mutations in a positional candidate, BSEP, which encodes a liver-specific ATP-binding cassette (ABC) transporter, sister of p-glycoprotein (SPGP). The product of the orthologous rat gene has been shown to be an effective bile acid transporter in vitro. These data provide evidence that SPGP is the human bile salt export pump (BSEP).

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100 A Belgian (B2) family and a Latin American (Q) family carry the 1723 C→T (R575X) mutation. Login to comment
142 The ABC transporter family of proteins is the largest so far iden- Table 1• BSEP mutations found in PFIC patients Nucleotide mutation Amino acid number/ Protein consequence Families mutation 1723 C→T R575X Termination codon in first B2 heterozygous nucleotide binding fold Q homozygous 3169 C→T R1057X Termination codon in second B5 heterozygous nucleotide binding fold 908 del G 303 17 novel amino acids then truncation Family 57 heterozygous 3767-3768 ins C 1256 39 novel amino acids then truncation Family 99 homozygous 890 A→G E297G Glutamate to glycine in the intracellular loop S1, S3, S4B, S5, S6, S7, 38 homozygous between transmembrane spans 4 and 5 S4A, B5, B6, B7, 53, L heterozygous 1381 A→G K461E Lysine to glutamate in first Walker A motif Family 55 homozygous 1445 A→G D482G Aspartate to glycine in first P and 52 homozygous nucleotide binding fold 2944 G→A G982R Glycine to arginine in transmembrane span 11 Family 18 homozygous 3457 C→T R1153C Arginine to cysteine in second C and D homozygous nucleotide binding fold 3803 G→A R1268Q Arginine to glutamine in second J homozygous nucleotide binding fold In each case the nucleotide position in the human coding sequence is given along with details of the predicted protein consequence. Login to comment
159 The mutation R575X is the result of a C→T transition in a CpG dinucleotide (1723 C→T). Login to comment

[hide] Severe bile salt export pump deficiency: 82 differ... Gastroenterology. 2008 Apr;134(4):1203-14. doi: 10.1053/j.gastro.2008.01.038. Epub 2008 Jan 18. Strautnieks SS, Byrne JA, Pawlikowska L, Cebecauerova D, Rayner A, Dutton L, Meier Y, Antoniou A, Stieger B, Arnell H, Ozcay F, Al-Hussaini HF, Bassas AF, Verkade HJ, Fischler B, Nemeth A, Kotalova R, Shneider BL, Cielecka-Kuszyk J, McClean P, Whitington PF, Sokal E, Jirsa M, Wali SH, Jankowska I, Pawlowska J, Mieli-Vergani G, Knisely AS, Bull LN, Thompson RJ
Severe bile salt export pump deficiency: 82 different ABCB11 mutations in 109 families.
Gastroenterology. 2008 Apr;134(4):1203-14. doi: 10.1053/j.gastro.2008.01.038. Epub 2008 Jan 18., [PMID:18395098]

Abstract [show]
BACKGROUND & AIMS: Patients with severe bile salt export pump (BSEP) deficiency present as infants with progressive cholestatic liver disease. We characterized mutations of ABCB11 (encoding BSEP) in such patients and correlated genotypes with residual protein detection and risk of malignancy. METHODS: Patients with intrahepatic cholestasis suggestive of BSEP deficiency were investigated by single-strand conformation polymorphism analysis and sequencing of ABCB11. Genotypes sorted by likely phenotypic severity were correlated with data on BSEP immunohistochemistry and clinical outcome. RESULTS: Eighty-two different mutations (52 novel) were identified in 109 families (9 nonsense mutations, 10 small insertions and deletions, 15 splice-site changes, 3 whole-gene deletions, 45 missense changes). In 7 families, only a single heterozygous mutation was identified despite complete sequence analysis. Thirty-two percent of mutations occurred in >1 family, with E297G and/or D482G present in 58% of European families (52/89). On immunohistochemical analysis (88 patients), 93% had abnormal or absent BSEP staining. Expression varied most for E297G and D482G, with some BSEP detected in 45% of patients (19/42) with these mutations. Hepatocellular carcinoma or cholangiocarcinoma developed in 15% of patients (19/128). Two protein-truncating mutations conferred particular risk; 38% (8/21) of such patients developed malignancy versus 10% (11/107) with potentially less severe genotypes (relative risk, 3.7 [confidence limits, 1.7-8.1; P = .003]). CONCLUSIONS: With this study, >100 ABCB11 mutations are now identified. Immunohistochemically detectable BSEP is typically absent, or much reduced, in severe disease. BSEP deficiency confers risk of hepatobiliary malignancy. Close surveillance of BSEP-deficient patients retaining their native liver, particularly those carrying 2 null mutations, is essential.

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77 The common mutations E297G, D482G, R575X, R1153C, and R1153H abolish HphI, FokI, FokI, BsrBI, and BsrBI sites, respectively, while G982R creates an AlwNI site. Login to comment
207 Ten mutations occurred in multiple families: R470Q, R832C,33 R948C, A1110E, and R1231Q53 have now been reported in 2 families; R1090X2 in 3 families; G982R,1,2 R1153C,1,47 and R1153H in 4 families; and R575X in 6 families.1,2,32,45 Six common missense and nonsense changes occurred at non-CpG sites: R520X and A588V33 in 2 European families and E1302X and I541L33,54 in 3 European families each. 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