Literature DB >> 30333156

Genetic and secondary causes of severe HDL deficiency and cardiovascular disease.

Andrew S Geller1,2, Eliana Y Polisecki1, Margaret R Diffenderfer1, Bela F Asztalos2, Sotirios K Karathanasis3, Robert A Hegele2, Ernst J Schaefer4,2.   

Abstract

We assessed secondary and genetic causes of severe HDL deficiency in 258,252 subjects, of whom 370 men (0.33%) and 144 women (0.099%) had HDL cholesterol levels <20 mg/dl. We excluded 206 subjects (40.1%) with significant elevations of triglycerides, C-reactive protein, glycosylated hemoglobin, myeloperoxidase, or liver enzymes and men receiving testosterone. We sequenced 23 lipid-related genes in 201 (65.3%) of 308 eligible subjects. Mutations (23 novel) and selected variants were found at the following gene loci: 1) ABCA1 (26.9%): 2 homozygotes, 7 compound or double heterozygotes, 30 heterozygotes, and 2 homozygotes and 13 heterozygotes with variants rs9282541/p.R230C or rs111292742/c.-279C>G; 2) LCAT (12.4%): 1 homozygote, 3 compound heterozygotes, 13 heterozygotes, and 8 heterozygotes with variant rs4986970/p.S232T; 3) APOA1 (5.0%): 1 homozygote and 9 heterozygotes; and 4) LPL (4.5%): 1 heterozygote and 8 heterozygotes with variant rs268/p.N318S. In addition, 4.5% had other mutations, and 46.8% had no mutations. Atherosclerotic cardiovascular disease (ASCVD) prevalence rates in the ABCA1, LCAT, APOA1, LPL, and mutation-negative groups were 37.0%, 4.0%, 40.0%, 11.1%, and 6.4%, respectively. Severe HDL deficiency is uncommon, with 40.1% having secondary causes and 48.8% of the subjects sequenced having ABCA1, LCAT, APOA1, or LPL mutations or variants, with the highest ASCVD prevalence rates being observed in the ABCA1 and APOA1 groups.
Copyright © 2018 Geller et al.

Entities:  

Keywords:  ABCA1; apoA-I; dyslipidemia; genes in lipid disorders; high density lipoprotein metabolism; lecithin:cholesterol acyltransferase; lipoprotein lipase; reverse cholesterol metabolism

Mesh:

Substances:

Year:  2018        PMID: 30333156      PMCID: PMC6277167          DOI: 10.1194/jlr.M088203

Source DB:  PubMed          Journal:  J Lipid Res        ISSN: 0022-2275            Impact factor:   5.922


  77 in total

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Journal:  Am J Cardiol       Date:  2011-08-01       Impact factor: 2.778

Review 2.  Homozygous lecithin:cholesterol acyltransferase (LCAT) deficiency due to a new loss of function mutation and review of the literature.

Authors:  Bijan Roshan; Om P Ganda; Ranil Desilva; Rose B Ganim; Edmund Ward; Sarah D Haessler; Eliana Y Polisecki; Bela F Asztalos; Ernst J Schaefer
Journal:  J Clin Lipidol       Date:  2011-08-23       Impact factor: 4.766

3.  Identification of genetic variants of lecithin cholesterol acyltransferase in individuals with high HDL‑C levels.

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Authors:  Carlos A Aguilar-Salinas; Samuel Canizales-Quinteros; Rosalba Rojas-Martínez; Roopa Mehta; Rosario Rodriguez-Guillén; María Luisa Ordoñez-Sanchez; Laura Riba; María Teresa Tusié-Luna
Journal:  Atherosclerosis       Date:  2011-01-22       Impact factor: 5.162

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Journal:  J Lipid Res       Date:  2004-08-01       Impact factor: 5.922

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Journal:  J Lipid Res       Date:  1994-05       Impact factor: 5.922

9.  Familial apolipoprotein A-I and C-III deficiency, variant II.

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Journal:  J Lipid Res       Date:  1985-09       Impact factor: 5.922

10.  LipidSeq: a next-generation clinical resequencing panel for monogenic dyslipidemias.

Authors:  Christopher T Johansen; Joseph B Dubé; Melissa N Loyzer; Austin MacDonald; David E Carter; Adam D McIntyre; Henian Cao; Jian Wang; John F Robinson; Robert A Hegele
Journal:  J Lipid Res       Date:  2014-02-06       Impact factor: 5.922
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Review 1.  [Inborn errors of high-density lipoprotein metabolism].

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Journal:  Internist (Berl)       Date:  2019-12       Impact factor: 0.743

Review 2.  HDL therapy today: from atherosclerosis, to stent compatibility to heart failure.

Authors:  C R Sirtori; M Ruscica; L Calabresi; G Chiesa; R Giovannoni; J J Badimon
Journal:  Ann Med       Date:  2019 Nov - Dec       Impact factor: 4.709

3.  Mendelian randomization and pleiotropy analysis.

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4.  Lack of ApoA-I in ApoEKO Mice Causes Skin Xanthomas, Worsening of Inflammation, and Increased Coronary Atherosclerosis in the Absence of Hyperlipidemia.

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Journal:  Arterioscler Thromb Vasc Biol       Date:  2022-05-19       Impact factor: 10.514

5.  Krüppel-like factor 14 deletion in myeloid cells accelerates atherosclerotic lesion development.

Authors:  Huilun Wang; Yanhong Guo; Haocheng Lu; Yonghong Luo; Wenting Hu; Wenying Liang; Minerva T Garcia-Barrio; Lin Chang; Anna Schwendeman; Jifeng Zhang; Y Eugene Chen
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6.  Serum level of HDL particles are independently associated with long-term prognosis in patients with coronary artery disease: The GENES study.

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7.  Whole-exome sequencing reveals damaging gene variants associated with hypoalphalipoproteinemia.

Authors:  Weilai Dong; Karen H Y Wong; Youbin Liu; Michal Levy-Sakin; Wei-Chien Hung; Mo Li; Boyang Li; Sheng Chih Jin; Jungmin Choi; Francesc Lopez-Giraldez; Dedeepya Vaka; Annie Poon; Catherine Chu; Richard Lao; Melek Balamir; Irina Movsesyan; Mary J Malloy; Hongyu Zhao; Pui-Yan Kwok; John P Kane; Richard P Lifton; Clive R Pullinger
Journal:  J Lipid Res       Date:  2022-04-20       Impact factor: 6.676

8.  Six years' experience with LipidSeq: clinical and research learnings from a hybrid, targeted sequencing panel for dyslipidemias.

Authors:  Jacqueline S Dron; Jian Wang; Adam D McIntyre; Michael A Iacocca; John F Robinson; Matthew R Ban; Henian Cao; Robert A Hegele
Journal:  BMC Med Genomics       Date:  2020-02-10       Impact factor: 3.063

Review 9.  A systematic review of the natural history and biomarkers of primary lecithin:cholesterol acyltransferase deficiency.

Authors:  Cecilia Vitali; Archna Bajaj; Christina Nguyen; Jill Schnall; Jinbo Chen; Kostas Stylianou; Daniel J Rader; Marina Cuchel
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  9 in total

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