ABCB11 p.Glu1223Asp
| Reviews: |
p.Glu1223Asp
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| Predicted by SNAP2: | A: D (71%), C: D (66%), D: D (75%), F: D (80%), G: D (80%), H: D (75%), I: D (80%), K: D (85%), L: D (80%), M: D (71%), N: D (75%), P: D (91%), Q: N (82%), R: D (85%), S: D (75%), T: D (75%), V: D (75%), W: D (80%), Y: D (75%), |
| Predicted by PROVEAN: | A: D, C: D, D: N, F: D, G: D, H: N, I: D, K: N, L: D, M: D, N: N, P: D, Q: N, R: N, S: N, T: D, V: D, W: D, Y: D, |
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[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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No. Sentence Comment
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).
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ABCB11 p.Glu1223Asp 19101985:68:2849
status: NEW[hide] Analysis of gene mutations in children with choles... J Pediatr Gastroenterol Nutr. 2010 Oct;51(4):488-93. Matte U, Mourya R, Miethke A, Liu C, Kauffmann G, Moyer K, Zhang K, Bezerra JA
Analysis of gene mutations in children with cholestasis of undefined etiology.
J Pediatr Gastroenterol Nutr. 2010 Oct;51(4):488-93., [PMID:20683201]
Abstract [show]
BACKGROUND: The discovery of genetic mutations in children with inherited syndromes of intrahepatic cholestasis allows for diagnostic specificity despite similar clinical phenotypes. Here, we aimed to determine whether mutation screening of target genes could assign a molecular diagnosis in children with idiopathic cholestasis. PATIENTS AND METHODS: DNA samples were obtained from 51 subjects with cholestasis of undefined etiology and surveyed for mutations in the genes SERPINA1, JAG1, ATP8B1, ABCB11, and ABCB4 by a high-throughput gene chip. Then, the sequence readouts for all 5 genes were analyzed for mutations and correlated with clinical phenotypes. Healthy subjects served as controls. RESULTS: Sequence analysis of the genes identified 14 (or 27%) subjects with missense, nonsense, deletion, and splice site variants associated with disease phenotypes based on the type of mutation and/or biallelic involvement in the JAG1, ATP8B1, ABCB11, or ABCB4 genes. These patients had no syndromic features and could not be differentiated by biochemical markers or histopathology. Among the remaining subjects, 10 (or approximately 20%) had sequence variants in ATP8B1 or ABCB11 that involved only 1 allele, 8 had variants not likely to be associated with disease phenotypes, and 19 had no variants that changed amino acid composition. CONCLUSIONS: Gene sequence analysis assigned a molecular diagnosis in 27% of subjects with idiopathic cholestasis based on the presence of variants likely to cause disease phenotypes.
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No. Sentence Comment
95 Gene sequence variants likely to cause disease phenotypes in subjects with CUEÃ Subject Age g-GTP Liver biopsy Gene Variant (allele frequency, if new) References CUE-1 1 mo 458 Not done JAG1 p.C251X New CUE-2 3.5 mo 632 Cholestasis, GCT, small bile ducts JAG1 p.V1086E New CUE-3 1.5 y 400 Pseudoacinar transformation, portal inflammation, moderate fibrosis ABCB4 p.Q945X/p.Y1171C (0%) New/new CUE-4 26 y 47 Cytoplasmic and canalicular cholestasis, portal fibrosis ATP8B1 p.N45T/p.I1050K (0%) (20)/new CUE-5 3.5 y 40 Electron microscopy consistent with Byler disease ATP8B1 c.1819þ1g>a/p.R930X Newy /(27) CUE-6 1.5 y 20 Canalicular cholestasis, portal inflammation ATP8B1 g.92918del565/g.92918del565 (13) CUE-7 1 y 44 GCT, portal inflammation, and fibrosis ABCB11 p.R928X/p.R1090X (13,28) CUE-8 2.5 y 62 Canalicular cholestasis, periportal inflammation, portal fibrosis ABCB11 p.I541T/p.I541T (12) CUE-9 5.5 y 54 Cholestasis, GCT, ductopenia, bridging fibrosis ABCB11 p.E297G/E297G (22) CUE-10 11 y 9 Minimal cholestasis; insufficient representation of portal tracts ABCB11 p.R948C/p.E1223D (0%) (12)/new CUE-11 6 mo 64 Cytoplasmic and canalicular cholestasis, GCT, fibrosis ABCB11 p.C68Y (0%)/p.R832H (0%) New, new CUE-12 2 y 42 Not done ABCB11 c.3770delA/c.3770delA Newy /newy CUE-13 19 y 29 Marked cholestasis, portal fibrosis.
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ABCB11 p.Glu1223Asp 20683201:95:1093
status: NEW