ABCC8 p.Asp1471Asn

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PMID: 17466004 [PubMed] Muzyamba M et al: "Complex ABCC8 DNA variations in congenital hyperinsulinism: lessons from functional studies."
No. Sentence Comment
6 In a second family, the patient had histologically focal disease and was heterozygous for two mutations from his father (G228D and D1471N) and one from his mother (V1572I).
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ABCC8 p.Asp1471Asn 17466004:6:131
status: NEW
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7 SUR1 G228D and D1471N singly or in combination led to intracellular retention of the channel complex and loss of function.
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ABCC8 p.Asp1471Asn 17466004:7:15
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30 There is also a notation based on a potential splice variant of 1582 amino acids in length.19 The SUR1 mutations,D1193V and R1436Q (referred to as SUR1D1193V/R1436Q), and G228D and D1471 (referred to as SUR1G228D/D1471N),were made in the same SUR1 cDNA construct to mimic the fact that the patients had mutations on the same chromosome.Mouse Kir6·2 was used and expressed as described previously.41 Mouse Kir6·2-GFP (Kir6·2 fused in frame with the enhanced variant of the green fluorescent protein) and Kir6·2-HA (Kir6·2 engineered to contain an extracellular antigenic haemagglutinin epitope tag between the first transmembrane domain and the H5 segment) were kind gifts of Drs Ribalet and Jan, respectively.
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ABCC8 p.Asp1471Asn 17466004:30:213
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76 4411 g > a, leading to the amino acid change G228D and D1471N.
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ABCC8 p.Asp1471Asn 17466004:76:55
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97 By contrast, SUR1G228D, SUR1D1471N and SUR1G228D/D1471N all failed to translocate Kir6·2-GFP to the plasma membrane.
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ABCC8 p.Asp1471Asn 17466004:97:49
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98 SURV1572I translocated Kir6·2-GFP to the plasma membrane (Fig. 2b).We confirmed that Kir6·2-GFP was located in the ER when expressed with one of the SUR1 mutants (SUR1G228D/D1471N) that could not deliver a complex to the membrane by colocalizing with DsRed2-ER (Fig. 2c).
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ABCC8 p.Asp1471Asn 17466004:98:183
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99 In addition, we performed quantitative colocalization analysis as described previously, measuring the fraction of green pixels (Kir6·2-GFP) that also contain red (DsRed2-ER).45 In some representative images Kir6·2-GFP = 89 ± 5% (n = 7), SUR1 + Kir6·2-GFP = 31 ± 6% (n = 5) and SUR1G228D/D1471N + Kir6·2-GFP = 82 ± 2% (n = 6, P < 0·001 vs. SUR1 + Kir6·2-GFP and not significant vs. Kir6·2-GFP).
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ABCC8 p.Asp1471Asn 17466004:99:312
status: NEW
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105 By contrast, SUR1G228D, SUR1D1471N and SUR1G228D/D1471N all failed to translocate Kir6·2-HA to the surface of the cell (Fig. 3c).
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ABCC8 p.Asp1471Asn 17466004:105:49
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114 SUR1D1193V and SUR1V1572I were functional in Rb86 flux assays whereas SUR1R1436Q, SUR1D1193V/R1436Q,SUR1G228D,SUR1D1471NandSUR1G228D/ D1471N were not (Fig. 4).
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ABCC8 p.Asp1471Asn 17466004:114:134
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120 SUR1D1193V, SUR1V1572I and SUR1D1471N were functional in patch clamp assays whereas SUR1R1436Q, SUR1D1193V/R1436Q, SUR1G228D and SUR1G228D/D1471N were not.In the knowledge of these results we repeated the flux assays and trafficking assays with Kir6·2-GFP with SUR1D1471N.
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ABCC8 p.Asp1471Asn 17466004:120:139
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123 Finally, we mimicked the complex genotype in the patient in the second family by coexpressing SUR1V1572I and SUR1G228D/ D1471N together with Kir6·2-GFP (Fig. 6a) or Kir6·2 (Fig. 6b).
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ABCC8 p.Asp1471Asn 17466004:123:120
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125 In addition, the expression of SUR1V1572I with SUR1G228D/D1471N and Kir6·2 led to a recovery of function as indicated by substantial Rb+ fluxes (Fig. 6b).
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ABCC8 p.Asp1471Asn 17466004:125:57
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137 (c) Representative confocal images of HEK293 cells transiently transfected with Kir6·2-GFP, DsRed2-ER and SUR1G228D/D1471N.
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ABCC8 p.Asp1471Asn 17466004:137:121
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145 In contrast to the first family, mutations expressed singly or in combination (SUR1G228D,SUR1D1471N and SUR1G228D/D1471N) led to a degree of loss of function due to the failure of the channel complex to traffic.
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ABCC8 p.Asp1471Asn 17466004:145:114
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146 The mutations SUR1G228D and SUR1G228D/ D1471N were unambiguous in that in all the assays used, the mutant channel complexes failed to traffic and were nonfunctional.
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ABCC8 p.Asp1471Asn 17466004:146:39
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158 The disease in patient 2 arose because of paternal inheritance of SUR1G228D/D1471N and a focal somatic event,and in contrast to patient 1,both mutations singly or in combination are deficient in trafficking and function.
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ABCC8 p.Asp1471Asn 17466004:158:76
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PMID: 18988933 [PubMed] Brunetti-Pierri N et al: "Case report: pathological features of aberrant pancreatic development in congenital hyperinsulinism due to ABCC8 mutations."
No. Sentence Comment
2 Molecular analysis showed that the patient was a compound heterozygote for two mutations of the ABCC8 gene: a previously unreported nonsense mutation (R841X) and a missense mutation (D1471N) that has been previously described.
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ABCC8 p.Asp1471Asn 18988933:2:183
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54 Complete sequence information was obtained for all 38 amplicons and revealed a C>T change at nucleotide position 2521 leading to a premature stop codon at position 841 Annals of Clinical & Laboratory Science, vol. 38, no. 4, 2008388 (R841X) and a G>A change at nucleotide position 4411 resulting in the substitution of aspartate with asparagine at codon 1471 (D1471N).
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ABCC8 p.Asp1471Asn 18988933:54:320
status: NEW
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ABCC8 p.Asp1471Asn 18988933:54:361
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57 Discussion In our patient, molecular analysis of the ABCC8 gene confirmed the clinical and pathological diagnosis of the diffuse form of congenital hyperinsulinism and revealed the presence of two distinct mutations: a novel nonsense mutation (R841X) and a missense mutation (D1471N) that was previously reported by Sharma et al [6]).
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ABCC8 p.Asp1471Asn 18988933:57:276
status: NEW
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52 Complete sequence information was obtained for all 38 amplicons and revealed a C>T change at nucleotide position 2521 leading to a premature stop codon at position 841 Annals of Clinical & Laboratory Science, vol. 38, no. 4, 2008 (R841X) and a G>A change at nucleotide position 4411 resulting in the substitution of aspartate with asparagine at codon 1471 (D1471N).
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ABCC8 p.Asp1471Asn 18988933:52:318
status: NEW
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ABCC8 p.Asp1471Asn 18988933:52:359
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55 Discussion In our patient, molecular analysis of the ABCC8 gene confirmed the clinical and pathological diagnosis of the diffuse form of congenital hyperinsulinism and revealed the presence of two distinct mutations: a novel nonsense mutation (R841X) and a missense mutation (D1471N) that was previously reported by Sharma et al [6]).
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ABCC8 p.Asp1471Asn 18988933:55:276
status: NEW
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PMID: 20799350 [PubMed] Kelly L et al: "Functional hot spots in human ATP-binding cassette transporter nucleotide binding domains."
No. Sentence Comment
50 Disease-associated nsSNPs at Three Structural Hotspots in Human ABC Transporter NBDs Gene Disease Position ARA motif ABCB11 BRIC2 A570T ABCD1 X-ALD A616V CFTR CF A559T ABCC6 PXE R765Q ABCC8 HHF1 R841G ABCC8 HHF1 R1493Q ABCC8 HHF1 R1493W ABCD1 X-ALD R617C ABCD1 X-ALD R617G ABCD1 X-ALD R617H CFTR CF R560K CFTR CF R560S CFTR CF R560T ABCA1 HDLD1 A1046D ABCB4 ICP A546D C-loop 1 motif ABCC8 HHF1 D1471H ABCC8 HHF1 D1471N CFTR CBAVD G544V ABCC8 HHF1 G1478R C-loop2 motif ABCA4 STGD1 H2128R ABCC8 HHF1 K889T ABCD1 X-ALD R660P ABCD1 X-ALD R660W ABCA1 HDLD2 M1091T ABCA4 STGD1 E2131K ABCA12 LI2 E1539K ABCA4 STGD1 and CORD3 E1122K CFTR CF L610S ABCC8 HHF1 L1543P ABCA1 Colorectal cancer sample; somatic mutation A2109T ABCC9 CMD1O A1513T ABCD1 X-ALD H667D CFTR CF A613T ABCA1 HDLD2 D1099Y ABCD1 X-ALD T668I CFTR CF D614G ABCA4 STGD1 R2139W ABCA4 STGD1 R1129C ABCA4 ARMD2, STGD1, and FFM R1129L Disease abbreviations are as follows: BRIC2, benign recurrent intrahepatic cholestasis type 2; X-ALD, X-linked adrenoleukodystrophy; CF, cystic fibrosis; PXE, Pseudoxanthoma elasticum; HHF1, familial hyperinsulinemic hypoglycemia-1; HDLD1, high density lipoprotein deficiency type 1; ICP, intrahepatic cholestasis of pregnancy; CBAVD, congenital bilateral absence of the vas deferens; STGD1, Stargardt disease type 1; HDLD2, high density lipoprotein deficiency type 2; LI2, ichthyosis lamellar type 2; CORD3, cone-rod dystrophy type 3; CMD1O, cardiomyopathy dilated type 1O; ARMD2, age-related macular degeneration type 2; FFM, fundus flavimaculatus.
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ABCC8 p.Asp1471Asn 20799350:50:412
status: NEW
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