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Literature DB >> 26945091

Disialylated apolipoprotein C-III proteoform is associated with improved lipids in prediabetes and type 2 diabetes.

Juraj Koska¹, Hussein Yassine², Olgica Trenchevska³, Shripad Sinari⁴, Dawn C Schwenke⁵, Frances T Yen⁶, Dean Billheimer⁴, Randall W Nelson³, Dobrin Nedelkov³, Peter D Reaven⁵.

Abstract

The apoC-III proteoform containing two sialic acid residues (apoC-III2) has different in vitro effects on lipid metabolism compared with asialylated (apoC-III0) or the most abundant monosialylated (apoC-III1) proteoforms. Cross-sectional and longitudinal associations between plasma apoC-III proteoforms (by mass spectrometric immunoassay) and plasma lipids were tested in two randomized clinical trials: ACT NOW, a study of pioglitazone in subjects with impaired glucose tolerance (n = 531), and RACED (n = 296), a study of intensive glycemic control and atherosclerosis in type 2 diabetes patients. At baseline, higher relative apoC-III2 and apoC-III2/apoC-III1 ratios were associated with lower triglycerides and total cholesterol in both cohorts, and with lower small dense LDL in the RACED. Longitudinally, changes in apoC-III2/apoC-III1 were inversely associated with changes in triglycerides in both cohorts, and with total and small dense LDL in the RACED. apoC-III2/apoC-III1 was also higher in patients treated with PPAR-γ agonists and was associated with reduced cardiovascular events in the RACED control group. Ex vivo studies of apoC-III complexes with higher apoC-III2/apoC-III1 showed attenuated inhibition of VLDL uptake by HepG2 cells and LPL-mediated lipolysis, providing possible functional explanations for the inverse association between a higher apoC-III2/apoC-III1 and hypertriglyceridemia, proatherogenic plasma lipid profiles, and cardiovascular risk.

Entities: Chemical Disease Gene Species

Keywords: lipoproteins; mass spectrometry; proteomics; triglycerides; very low density lipoprotein

Mesh：

Substances：

Year: 2016 PMID： 26945091 PMCID： PMC4847634 DOI： 10.1194/jlr.P064816

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

55 in total

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Journal: J Lipid Res Date: 1997-07 Impact factor: 5.922

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Journal: J Clin Invest Date: 2007-01 Impact factor: 14.808

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Journal: J Biol Chem Date: 1997-12-12 Impact factor: 5.157

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Journal: J Clin Invest Date: 1998-02-01 Impact factor: 14.808

5. Apolipoprotein CIII induces expression of vascular cell adhesion molecule-1 in vascular endothelial cells and increases adhesion of monocytic cells.

Authors: Akio Kawakami; Masanori Aikawa; Pilar Alcaide; Francis W Luscinskas; Peter Libby; Frank M Sacks
Journal: Circulation Date: 2006-08-07 Impact factor: 29.690

6. Distinct patterns of lipoproteins with apoB defined by presence of apoE or apoC-III in hypercholesterolemia and hypertriglyceridemia.

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Journal: J Lipid Res Date: 2001-08 Impact factor: 5.922

7. Fasting triglyceride and the triglyceride-HDL cholesterol ratio are not markers of insulin resistance in African Americans.

Authors: Anne E Sumner; Karl B Finley; David J Genovese; Michael H Criqui; Raymond C Boston
Journal: Arch Intern Med Date: 2005-06-27

8. Targeted disruption of the apolipoprotein C-III gene in mice results in hypotriglyceridemia and protection from postprandial hypertriglyceridemia.

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Journal: J Biol Chem Date: 1994-09-23 Impact factor: 5.157

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Authors: Jean-François Mauger; Patrick Couture; Nathalie Bergeron; Benoît Lamarche
Journal: J Lipid Res Date: 2006-02-22 Impact factor: 5.922

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Journal: Biochemistry Date: 1995-08-22 Impact factor: 3.162

14 in total

Review 1. Mass spectrometric immunoassays for discovery, screening and quantification of clinically relevant proteoforms.

Authors: Olgica Trenchevska; Randall W Nelson; Dobrin Nedelkov
Journal: Bioanalysis Date: 2016-07-11 Impact factor: 2.681

2. A high-throughput mass spectrometry-based assay for large-scale profiling of circulating human apolipoproteins.

Authors: Valentin Blanchard; Damien Garçon; Catherine Jaunet; Kevin Chemello; Stéphanie Billon-Crossouard; Audrey Aguesse; Aya Garfa; Gilles Famchon; Amada Torres; Cédric Le May; Matthieu Pichelin; Edith Bigot-Corbel; Gilles Lambert; Bertrand Cariou; Samy Hadjadj; Michel Krempf; Kalyane Bach-Ngohou; Mikaël Croyal
Journal: J Lipid Res Date: 2020-05-13 Impact factor: 5.922

3. Changes in low-density lipoprotein size phenotypes associate with changes in apolipoprotein C-III glycoforms after dietary interventions.

Authors: Saulo Mendoza; Olgica Trenchevska; Sarah M King; Randall W Nelson; Dobrin Nedelkov; Ronald M Krauss; Hussein N Yassine
Journal: J Clin Lipidol Date: 2016-12-28 Impact factor: 4.766

4. ApoC-III Glycoforms Are Differentially Cleared by Hepatic TRL (Triglyceride-Rich Lipoprotein) Receptors.

Authors: Natalie C Kegulian; Bastian Ramms; Steven Horton; Olgica Trenchevska; Dobrin Nedelkov; Mark J Graham; Richard G Lee; Jeffrey D Esko; Hussein N Yassine; Philip L S M Gordts
Journal: Arterioscler Thromb Vasc Biol Date: 2019-08-08 Impact factor: 10.514

Review 5. Mass Spectrometric Studies of Apolipoprotein Proteoforms and Their Role in Lipid Metabolism and Type 2 Diabetes.

Authors: Dobrin Nedelkov
Journal: Proteomes Date: 2017-10-15

6. DHA brain uptake and APOE4 status: a PET study with [1-¹¹C]-DHA.

Authors: Hussein N Yassine; Etienne Croteau; Varun Rawat; Joseph R Hibbeln; Stanley I Rapoport; Stephen C Cunnane; John C Umhau
Journal: Alzheimers Res Ther Date: 2017-03-23 Impact factor: 6.982

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Authors: L Renee Ruhaak; Arnoud van der Laarse; Christa M Cobbaert
Journal: Ann Clin Biochem Date: 2019-03-19 Impact factor: 2.057

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Authors: Marja-Riitta Taskinen; Jan Borén
Journal: Curr Atheroscler Rep Date: 2016-10 Impact factor: 5.113

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Authors: Jan Borén; Chris J Packard; Marja-Riitta Taskinen
Journal: Front Endocrinol (Lausanne) Date: 2020-07-28 Impact factor: 5.555

10. Serum Glycoproteomic Alterations in Patients with Diabetic Retinopathy.

Authors: Ashok Sharma; James Cox; Joshua Glass; Tae Jin Lee; Sai Karthik Kodeboyina; Wenbo Zhi; Lane Ulrich; Zachary Lukowski; Shruti Sharma
Journal: Proteomes Date: 2020-09-13