ABCMdb

ABCA1 p.Ser1181Phe

Predicted by SNAP2:	A: N (93%), C: N (66%), D: N (87%), E: N (93%), F: D (85%), G: N (87%), H: N (87%), I: D (71%), K: N (87%), L: N (72%), M: N (82%), N: N (97%), P: N (82%), Q: N (87%), R: N (82%), T: N (93%), V: D (63%), W: N (87%), Y: N (57%),
Predicted by PROVEAN:	A: N, C: D, D: N, E: N, F: D, G: N, H: N, I: D, K: N, L: D, M: N, N: N, P: N, Q: N, R: N, T: N, V: D, W: D, Y: D,

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[hide] Increased risk of coronary artery disease in Cauca... Biochim Biophys Acta. 2012 Mar;1821(3):416-24. doi: 10.1016/j.bbalip.2011.08.006. Epub 2011 Aug 19. Tietjen I, Hovingh GK, Singaraja R, Radomski C, McEwen J, Chan E, Mattice M, Legendre A, Kastelein JJ, Hayden MR
Increased risk of coronary artery disease in Caucasians with extremely low HDL cholesterol due to mutations in ABCA1, APOA1, and LCAT.
Biochim Biophys Acta. 2012 Mar;1821(3):416-24. doi: 10.1016/j.bbalip.2011.08.006. Epub 2011 Aug 19., [PMID:21875686]

Abstract [show]
Mutations in ABCA1, APOA1, and LCAT reduce HDL cholesterol (HDLc) in humans. However, the prevalence of these mutations and their relative effects on HDLc reduction and risk of coronary artery disease (CAD) are less clear. Here we searched for ABCA1, APOA1, and LCAT mutations in 178 unrelated probands with HDLc <10th percentile but no other major lipid abnormalities, including 89 with >/=1 first-degree relative with low HDLc (familial probands) and 89 where familial status of low HDLc is uncertain (unknown probands). Mutations were most frequent in LCAT (15.7%), followed by ABCA1 (9.0%) and APOA1 (4.5%), and were found in 42.7% of familial but only 14.6% of unknown probands (p=2.44 *10(-5)). Interestingly, only 16 of 24 (66.7%) mutations assessed in families conferred an average HDLc <10th percentile. Furthermore, only mutation carriers with HDLc <5th percentile had elevated risk of CAD (odds ratio (OR)=2.26 for 34 ABCA1 mutation carriers vs. 149 total first-degree relative controls, p=0.05; OR=2.50 for 26 APOA1 mutation carriers, p=0.04; OR=3.44 for 38 LCAT mutation carriers, p=1.1 *10(-3)). These observations show that mutations in ABCA1, APOA1, and LCAT are sufficient to explain >40% of familial hypoalphalipoproteinemia in this cohort. Moreover, individuals with mutations and large reductions in HDLc have increased risk of CAD. This article is part of a Special Issue entitled Advances in High Density Lipoprotein Formation and Metabolism: A Tribute to John F. Oram (1945-2010).

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No. Sentence Comment
117 COOHA B T929I H2N R587W B A M1091T C1477R K776N N935S S1181F IVS24+1 G>C V2244I R282X D571G M640L S930F M968T R1615WIVS16-5 CA>del ABCA1 Transmembrane domain ATP-binding domain Q597R A) AA 1 AA 267 K130del L202P 74 90 98 112 122 145 167 189 211 215 233 253 APOA1 Negative charge domain Alpha-helix E222K E134DT37M 140 178 206 41127 104 121 165 200 229 360 391 Y135N V246F 127 206 369 401 Catalytic triad R322C L338H V371MV52M Y107X A117T T147I V333M Phe Leu Asp His AA 1 AA 440 R159Q I202T LCAT Alpha helixBeta sheet B) 419I.Tietjenetal./BiochimicaetBiophysicaActa1821(2012)416-424 3.4. Login to comment

[hide] Segregation of LIPG, CETP, and GALNT2 Mutations in... PLoS One. 2012;7(8):e37437. Epub 2012 Aug 27. Tietjen I, Hovingh GK, Singaraja RR, Radomski C, Barhdadi A, McEwen J, Chan E, Mattice M, Legendre A, Franchini PL, Dube MP, Kastelein JJ, Hayden MR
Segregation of LIPG, CETP, and GALNT2 Mutations in Caucasian Families with Extremely High HDL Cholesterol.
PLoS One. 2012;7(8):e37437. Epub 2012 Aug 27., [PMID:22952570]

Abstract [show]
To date, few mutations are described to underlie highly-elevated HDLc levels in families. Here we sequenced the coding regions and adjacent sequence of the LIPG, CETP, and GALNT2 genes in 171 unrelated Dutch Caucasian probands with HDLc>/=90th percentile and analyzed segregation of mutations with lipid phenotypes in family members. In these probands, mutations were most frequent in LIPG (12.9%) followed by GALNT2 (2.3%) and CETP (0.6%). A total of 6 of 10 mutations in these three genes were novel (60.0%), and mutations segregated with elevated HDLc in families. Interestingly, the LIPG mutations N396S and R476W, which usually result in elevated HDLc, were unexpectedly found in 6 probands with low HDLc (i.e., </=10th percentile). However, 5 of these probands also carried mutations in ABCA1, LCAT, or LPL. Finally, no CETP and GALNT2 mutations were found in 136 unrelated probands with low HDLc. Taken together, we show that rare coding and splicing mutations in LIPG, CETP, and GALNT2 are enriched in persons with hyperalphalipoproteinemia and segregate with elevated HDLc in families. Moreover, LIPG mutations do not overcome low HDLc in individuals with ABCA1 and possibly LCAT and LPL mutations, indicating that LIPG affects HDLc levels downstream of these proteins.

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157 Vertebrate conservation Predicted effect Position (hg18) Effect ABCA1 Chr9:106631215 T.A M640L No [47] Completely conserved Possibly damaging (Polyphen-2) Chr9:106619433 C.G IVS24+1G.C No [15] Completely conserved Abolishes splice donor site (Spliceview) Chr9:106618441 G.A S1181F No [48] Completely conserved Probably damaging (Polyphen-2) LCAT Chr16:66534158 G.A T147I No [12] Completely conserved Possibly damaging (Polyphen-2) LPL Chr8:19857809 A.G N318S No [13] Ser tolerated Reduced HDLc (Reymer et al., 1995) doi:10.1371/journal.pone.0037437.t005 result in large increases and reductions in HDLc, respectively [13,29,30], which further support a role for GALNT2 loss-of- function mutations in HDLc elevation. Login to comment
155 Vertebrate conservation Predicted effect Position (hg18) Effect ABCA1 Chr9:106631215 T.A M640L No [47] Completely conserved Possibly damaging (Polyphen-2) Chr9:106619433 C.G IVS24+1G.C No [15] Completely conserved Abolishes splice donor site (Spliceview) Chr9:106618441 G.A S1181F No [48] Completely conserved Probably damaging (Polyphen-2) LCAT Chr16:66534158 G.A T147I No [12] Completely conserved Possibly damaging (Polyphen-2) LPL Chr8:19857809 A.G N318S No [13] Ser tolerated Reduced HDLc (Reymer et al., 1995) doi:10.1371/journal.pone.0037437.t005 result in large increases and reductions in HDLc, respectively [13,29,30], which further support a role for GALNT2 loss-of-function mutations in HDLc elevation. Login to comment

[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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76 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. Login to comment
89 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). Login to comment

[hide] Accurate prediction of the functional significance... PLoS Genet. 2005 Dec;1(6):e83. Epub 2005 Dec 30. Brunham LR, Singaraja RR, Pape TD, Kejariwal A, Thomas PD, Hayden MR
Accurate prediction of the functional significance of single nucleotide polymorphisms and mutations in the ABCA1 gene.
PLoS Genet. 2005 Dec;1(6):e83. Epub 2005 Dec 30., [PMID:16429166]

Abstract [show]
The human genome contains an estimated 100,000 to 300,000 DNA variants that alter an amino acid in an encoded protein. However, our ability to predict which of these variants are functionally significant is limited. We used a bioinformatics approach to define the functional significance of genetic variation in the ABCA1 gene, a cholesterol transporter crucial for the metabolism of high density lipoprotein cholesterol. To predict the functional consequence of each coding single nucleotide polymorphism and mutation in this gene, we calculated a substitution position-specific evolutionary conservation score for each variant, which considers site-specific variation among evolutionarily related proteins. To test the bioinformatics predictions experimentally, we evaluated the biochemical consequence of these sequence variants by examining the ability of cell lines stably transfected with the ABCA1 alleles to elicit cholesterol efflux. Our bioinformatics approach correctly predicted the functional impact of greater than 94% of the naturally occurring variants we assessed. The bioinformatics predictions were significantly correlated with the degree of functional impairment of ABCA1 mutations (r2 = 0.62, p = 0.0008). These results have allowed us to define the impact of genetic variation on ABCA1 function and to suggest that the in silico evolutionary approach we used may be a useful tool in general for predicting the effects of DNA variation on gene function. In addition, our data suggest that considering patterns of positive selection, along with patterns of negative selection such as evolutionary conservation, may improve our ability to predict the functional effects of amino acid variation.

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110 DOI: 10.1371/journal.pgen.0010083.g003 Table 3. subPSEC Scores for ABCA1 Variants Described in a Cohort of Individuals with Low HDL Cholesterol from the General Population Variant subPSEC Score Macrophage Efflux PolyPhen D1706N À6.57 0.38a Possibly damaging C1477F À5.55 0.34a Probably damaging W590S À5.19 - Probably damaging H551D À4.99 0.32a Probably damaging P85L À4.62 0.8 Probably damaging W590L À4.48 0.31a Probably damaging N1800H À4.23 0.27a Possibly damaging R965C À4.22 0.59 Probably damaging S1731C À4.21 0.28a Possibly damaging A1670T À4.2 - Possibly damaging K401Q À4.2 - Benign T459P À4.11 0.28a Possibly damaging R638Q À4.08 - Possibly damaging L1026P À3.86 0.25a Benign T2073A À3.84 0.28a Possibly damaging E815G À3.53 - Probably damaging R1615Q À3.45 - Possibly damaging S1181F À3.44 - Possibly damaging R306H À3.31 - Benign E1386Q À2.44 0.51 Benign S1376G À2.19 - Benign R1341T À2.09 - Possibly damaging D2243E À1.6 - Benign P248A À0.18 - Benign a Efflux value is 2 SDs or more below control levels of 0.52 6 0.07. Login to comment