ABCA1 p.Val1858Ala
| Predicted by SNAP2: | A: N (87%), C: N (82%), D: D (71%), E: D (59%), F: N (53%), G: D (63%), H: D (59%), I: N (97%), K: D (66%), L: N (82%), M: N (61%), N: D (63%), P: D (71%), Q: D (53%), R: D (63%), S: N (72%), T: N (78%), W: D (59%), Y: D (66%), |
| Predicted by PROVEAN: | A: N, C: D, D: D, E: D, F: D, G: D, H: D, I: N, K: D, L: N, M: N, N: D, P: D, Q: D, R: D, S: D, T: D, W: D, Y: D, |
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[hide] Identification and characterization of novel loss ... Atherosclerosis. 2010 Dec;213(2):492-8. Epub 2010 Aug 26. Candini C, Schimmel AW, Peter J, Bochem AE, Holleboom AG, Vergeer M, Dullaart RP, Dallinga-Thie GM, Hovingh GK, Khoo KL, Fasano T, Bocchi L, Calandra S, Kuivenhoven JA, Motazacker MM
Identification and characterization of novel loss of function mutations in ATP-binding cassette transporter A1 in patients with low plasma high-density lipoprotein cholesterol.
Atherosclerosis. 2010 Dec;213(2):492-8. Epub 2010 Aug 26., [PMID:20880529]
Abstract [show]
OBJECTIVES: The current literature provides little information on the frequency of mutations in the ATP-binding cassette transporter A1 (ABCA1) in patients with low high-density lipoprotein cholesterol (HDL) levels that are referred to the clinic. In 78 patients with low plasma levels of HDL cholesterol that were referred to our clinic, we routinely screened for ABCA1 gene mutations and studied the functionality of newly identified ABCA1 missense mutations. METHODS: The coding regions and exon-intron boundaries of the ABCA1 gene were sequenced in 78 subjects with HDL cholesterol levels below the 10th percentile for age and gender. Novel mutations were studied by assessing cholesterol efflux capacity (using apolipoprotein A-I as acceptor) after transient expression of ABCA1 variants in BHK cells. RESULTS: Sixteen out of 78 patients (21%) were found to carry 19 different ABCA1 gene variants (1 frameshift, 2 splice-site, 4 nonsense and 12 missense variation) of which 14 variations were novel. Of three patients with homozygous mutations and three patients having compound heterozygous mutations only one patient presented with the clinical characteristics of Tangier Disease (TD) in the presence of nearly complete HDL deficiency. Seven out of eight newly identified ABCA1 missense mutations were found to exhibit a statistically significant loss of cholesterol efflux capacity. CONCLUSION: This study shows that one out of five patients who are referred to our hospital because of low HDL cholesterol levels have a functional ABCA1 gene mutation. It is furthermore demonstrated that in vitro studies are needed to assess functionality of ABCA1 missense mutations.
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No. Sentence Comment
61 Eight novel missense variations [c.299C > G (p.S100C), c.1724A > G (p.D575G), c.1779C > G (p.F593L), c.3167T > C (p.L1056P), c.3757G > A (p.E1253K), c.4535C > T (p.T1512M), c.5573T > C (p.V1858A), c.5821T > C (p.C1941R)] were introduced into this chimeric construct by site-directed mutagenesis using Stratagene QuikChange XL site-directed mutagenesis kit according to manufacturer`s instructions (La Jolla, CA, USA).
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ABCA1 p.Val1858Ala 20880529:61:188
status: NEW76 Patients (gender, age) Amino acida (nucleotidea ) change TC TG LDL-c HDL-c Clinical manifestations of TD CVD Other relevant clinical data Homozygotes Patient 1 (female, 42) p.L1056P (c.3167T > C) 2.4 0.9 1.99 <0.10 Absent CAD Thrombocytopenia Patient 2 (male, 40) p.Wl747X (c.5240G > A) 1.76 1.93 0.52 0.1-0.3 Neuropathy, splenomegaly, thrombocytopenia Mild stenosis (20-30%) of coronary arteries None Patient 3 (male, 55) p.F593L (c.1779C > G) 4.4 1.4 3.6 <0.10 Absent CAD None p.E1253K (c.3757G > A) Compound heterozygotes Patient 4 (female, 63) p.Q1038X (c.3112C > T) 6.68 2.72 5.4 <0.10 Absent None None p.N1800H (c.5398A > C) [32] Patient 5 (female, 28) p.T1512M (c.4535C > T) 4.42 1.83 3.46 0.1 Absent None None p.N1800H (c.5398A > C) [32] p.C978fsX988 (c.2934delT) Patient 6 (female, 17) p.D575G (c.1724A > G) 4.96 2.84 4.35 <0.10 Absent None DM1 p.C1941R(c.5821T > C) Heterozygotes Patient 7 (male, 42) p.S100C (c.299C > G) 8.5 8.7 4.3 0.3 N.A. None None Patient 8 (male, 58) p.E1172D (c.3516G > C) [33] 6.4 2.7 4.1 0.9 N.A. None None Patient 9 (male, 35) p.S1181F (c.3542C > T) [17] 2.9 0.31 1.88 0.88 N.A. None None Patient 10 (male, 48) p.C1477R (c.4429T > C) [13] 2.01 1.4 0.92 0.46 N.A. CAD None Patient 11 (male, 68) p.V1858A (c.5573T > C) 4.9 3.78 2.41 0.75 N.A. CAD None Patient 12 (female, 36) p.N1800H (c.5398A > C) [32] 4.6 1.2 4 <0.10 N.A. None DM2, obesity Patient 13 (male, 67) p.R282X (c.844C > T) [34] 3.2 1.21 2.14 0.51 N.A. None DM2 Patient 14 (female, 42) p.W424X (c.1272G > A) 2.07 1.04 1.39 0.21 N.A. None None Patient 15 (female, 52) N.A. - (IVS11 - 1G > A) 5.51 3.51 3.28 0.56 N.A. None Hypothyroidism, hypertension Patient 16 (female, 54) N.A. - (IVS48 + 2T > C) 3.29 1.92 1.94 0.49 N.A. None DM2, hypertension a Nomenclature based on guidelines of Human Genome Variation Society.
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ABCA1 p.Val1858Ala 20880529:76:1233
status: NEW89 In ABCA1, we identified 14 novel and 5 known genetic variations in 16 subjects including one frameshift (p.C978fsX988), 2 splice-site (IVS11-1G > C and IVS48 + 2T > C), 4 nonsense (p.R282X, p.W424X, p.Q1038X, p.Wl747X) and 12 missense variations (p.S100C, p.D575G, p.F593L, p.L1056P, p.E1172D, p.S1181F, p.E1253K, p.C1477R, p.T1512M, p.N1800H, p.V1858A, p.C1941R).
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ABCA1 p.Val1858Ala 20880529:89:346
status: NEW94 From eight novel missense variations identified in our cohort, one is localized in the first transmembrane domain (p.S100C), two in the first large extracellular loop (p.D575G and p.F593L), two in the first Nuclear Binding Domain (p.L1056P and p.E1253K), one in the second large extracellular loop (p.T1512M), one in the extracellular region, close to the plasma membrane (p.V1858A) and one is localized in the C-terminal domain (p.C1941R).
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ABCA1 p.Val1858Ala 20880529:94:375
status: NEW98 Four out of eight mutations were predicted to be probably damaging (p.S100C, p.D575G, p.T1512M, p.C1941R), two as possibly damaging (p.F593L and p.L1056P) and two were described as benign (p.E1253K and p.V1858A) by PolyPhen.
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ABCA1 p.Val1858Ala 20880529:98:204
status: NEW99 Using SIFT, seven novel variations were predicted to affect protein function, while one (p.V1858A) was predicted to be tolerated.
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ABCA1 p.Val1858Ala 20880529:99:91
status: NEW111 The ABCA1-p.V1858A, however, had a normal potential to efflux cholesterol to apo A-I which is in line with the prediction that the mutation is benign (both PolyPhen and SIFT) suggesting that the low HDL cholesterol in this individual is likely the result of other, yet unknown molecular defect.
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ABCA1 p.Val1858Ala 20880529:111:12
status: NEW114 While WT-ABCA1 and ABCA1-V1858A variant show normal localization on plasma membrane, ABCA1- L1056 protein shows a complete intracellular retention.
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ABCA1 p.Val1858Ala 20880529:114:25
status: NEW138 In contrast to PolyPhen, SIFT predictions for the assessment of the novel variations studied here were more compatible to the outcome of our in vitro experiments, i.e. all variants with significant reduction in cholesterol efflux to apo A-I in our in vitro assay were proposed to be deleterious while ABCA1-p.V1858A was predicted to be tolerated.
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ABCA1 p.Val1858Ala 20880529:138:309
status: NEW157 The ABCA1-p.V1858A variant was the only missense variation that was found to have no significant effect on cholesterol efflux and cellular localization.
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ABCA1 p.Val1858Ala 20880529:157:12
status: NEW