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Differential expression of Lp-PLA2 in obesity and type 2 diabetes and the influence of lipids

AIMS/HYPOTHESIS: Lipoprotein-associated phospholipase A2 (Lp-PLA2) is a circulatory macrophage-derived factor that increases with obesity and leads to a higher risk of cardiovascular disease (CVD). Despite this, its role in adipose tissue and the adipocyte is unknown. Therefore, the aims of this stu...

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Autores principales: Jackisch, Laura, Kumsaiyai, Warunee, Moore, Jonathan D., Al-Daghri, Nasser, Kyrou, Ioannis, Barber, Thomas M., Randeva, Harpal, Kumar, Sudhesh, Tripathi, Gyanendra, McTernan, Philip G.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Springer Berlin Heidelberg 2018
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6449000/
https://www.ncbi.nlm.nih.gov/pubmed/29427237
http://dx.doi.org/10.1007/s00125-018-4558-6
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author Jackisch, Laura
Kumsaiyai, Warunee
Moore, Jonathan D.
Al-Daghri, Nasser
Kyrou, Ioannis
Barber, Thomas M.
Randeva, Harpal
Kumar, Sudhesh
Tripathi, Gyanendra
McTernan, Philip G.
author_facet Jackisch, Laura
Kumsaiyai, Warunee
Moore, Jonathan D.
Al-Daghri, Nasser
Kyrou, Ioannis
Barber, Thomas M.
Randeva, Harpal
Kumar, Sudhesh
Tripathi, Gyanendra
McTernan, Philip G.
author_sort Jackisch, Laura
collection PubMed
description AIMS/HYPOTHESIS: Lipoprotein-associated phospholipase A2 (Lp-PLA2) is a circulatory macrophage-derived factor that increases with obesity and leads to a higher risk of cardiovascular disease (CVD). Despite this, its role in adipose tissue and the adipocyte is unknown. Therefore, the aims of this study were to clarify the expression of Lp-PLA2 in relation to different adipose tissue depots and type 2 diabetes, and ascertain whether markers of obesity and type 2 diabetes correlate with circulating Lp-PLA2. A final aim was to evaluate the effect of cholesterol on cellular Lp-PLA2 in an in vitro adipocyte model. METHODS: Analysis of anthropometric and biochemical variables from a cohort of lean (age 44.4 ± 6.2 years; BMI 22.15 ± 1.8 kg/m(2), n = 23), overweight (age 45.4 ± 12.3 years; BMI 26.99 ± 1.5 kg/m(2), n = 24), obese (age 49.0 ± 9.1 years; BMI 33.74 ± 3.3 kg/m(2), n = 32) and type 2 diabetic women (age 53.0 ± 6.13 years; BMI 35.08 ± 8.6 kg/m(2), n = 35), as part of an ethically approved study. Gene and protein expression of PLA2 and its isoforms were assessed in adipose tissue samples, with serum analysis undertaken to assess circulating Lp-PLA2 and its association with cardiometabolic risk markers. A human adipocyte cell model, Chub-S7, was used to address the intracellular change in Lp-PLA2 in adipocytes. RESULTS: Lp-PLA2 and calcium-independent PLA2 (iPLA2) isoforms were altered by adiposity, as shown by microarray analysis (p < 0.05). Type 2 diabetes status was also observed to significantly alter gene and protein levels of Lp-PLA2 in abdominal subcutaneous (AbdSc) (p < 0.01), but not omental, adipose tissue. Furthermore, multivariate stepwise regression analysis of circulating Lp-PLA2 and metabolic markers revealed that the greatest predictor of Lp-PLA2 in non-diabetic individuals was LDL-cholesterol (p = 0.004). Additionally, in people with type 2 diabetes, oxidised LDL (oxLDL), triacylglycerols and HDL-cholesterol appeared important predictors, accounting for 59.7% of the variance (p < 0.001). Subsequent in vitro studies determined human adipocytes to be a source of Lp-PLA2, as confirmed by mRNA expression, protein levels and immunochemistry. Further in vitro experiments revealed that treatment with LDL-cholesterol or oxLDL resulted in significant upregulation of Lp-PLA2, while inhibition of Lp-PLA2 reduced oxLDL production by 19.8% (p < 0.05). CONCLUSIONS/INTERPRETATION: Our study suggests adipose tissue and adipocytes are active sources of Lp-PLA2, with differential regulation by fat depot and metabolic state. Moreover, levels of circulating Lp-PLA2 appear to be influenced by unfavourable lipid profiles in type 2 diabetes, which may occur in part through regulation of LDL-cholesterol and oxLDL metabolism in adipocytes. ELECTRONIC SUPPLEMENTARY MATERIAL: The online version of this article (10.1007/s00125-018-4558-6) contains peer-reviewed but unedited supplementary material, which is available to authorised users.
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spelling pubmed-64490002019-04-17 Differential expression of Lp-PLA2 in obesity and type 2 diabetes and the influence of lipids Jackisch, Laura Kumsaiyai, Warunee Moore, Jonathan D. Al-Daghri, Nasser Kyrou, Ioannis Barber, Thomas M. Randeva, Harpal Kumar, Sudhesh Tripathi, Gyanendra McTernan, Philip G. Diabetologia Article AIMS/HYPOTHESIS: Lipoprotein-associated phospholipase A2 (Lp-PLA2) is a circulatory macrophage-derived factor that increases with obesity and leads to a higher risk of cardiovascular disease (CVD). Despite this, its role in adipose tissue and the adipocyte is unknown. Therefore, the aims of this study were to clarify the expression of Lp-PLA2 in relation to different adipose tissue depots and type 2 diabetes, and ascertain whether markers of obesity and type 2 diabetes correlate with circulating Lp-PLA2. A final aim was to evaluate the effect of cholesterol on cellular Lp-PLA2 in an in vitro adipocyte model. METHODS: Analysis of anthropometric and biochemical variables from a cohort of lean (age 44.4 ± 6.2 years; BMI 22.15 ± 1.8 kg/m(2), n = 23), overweight (age 45.4 ± 12.3 years; BMI 26.99 ± 1.5 kg/m(2), n = 24), obese (age 49.0 ± 9.1 years; BMI 33.74 ± 3.3 kg/m(2), n = 32) and type 2 diabetic women (age 53.0 ± 6.13 years; BMI 35.08 ± 8.6 kg/m(2), n = 35), as part of an ethically approved study. Gene and protein expression of PLA2 and its isoforms were assessed in adipose tissue samples, with serum analysis undertaken to assess circulating Lp-PLA2 and its association with cardiometabolic risk markers. A human adipocyte cell model, Chub-S7, was used to address the intracellular change in Lp-PLA2 in adipocytes. RESULTS: Lp-PLA2 and calcium-independent PLA2 (iPLA2) isoforms were altered by adiposity, as shown by microarray analysis (p < 0.05). Type 2 diabetes status was also observed to significantly alter gene and protein levels of Lp-PLA2 in abdominal subcutaneous (AbdSc) (p < 0.01), but not omental, adipose tissue. Furthermore, multivariate stepwise regression analysis of circulating Lp-PLA2 and metabolic markers revealed that the greatest predictor of Lp-PLA2 in non-diabetic individuals was LDL-cholesterol (p = 0.004). Additionally, in people with type 2 diabetes, oxidised LDL (oxLDL), triacylglycerols and HDL-cholesterol appeared important predictors, accounting for 59.7% of the variance (p < 0.001). Subsequent in vitro studies determined human adipocytes to be a source of Lp-PLA2, as confirmed by mRNA expression, protein levels and immunochemistry. Further in vitro experiments revealed that treatment with LDL-cholesterol or oxLDL resulted in significant upregulation of Lp-PLA2, while inhibition of Lp-PLA2 reduced oxLDL production by 19.8% (p < 0.05). CONCLUSIONS/INTERPRETATION: Our study suggests adipose tissue and adipocytes are active sources of Lp-PLA2, with differential regulation by fat depot and metabolic state. Moreover, levels of circulating Lp-PLA2 appear to be influenced by unfavourable lipid profiles in type 2 diabetes, which may occur in part through regulation of LDL-cholesterol and oxLDL metabolism in adipocytes. ELECTRONIC SUPPLEMENTARY MATERIAL: The online version of this article (10.1007/s00125-018-4558-6) contains peer-reviewed but unedited supplementary material, which is available to authorised users. Springer Berlin Heidelberg 2018-02-09 2018 /pmc/articles/PMC6449000/ /pubmed/29427237 http://dx.doi.org/10.1007/s00125-018-4558-6 Text en © The Author(s) 2018 Open Access This article is distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made.
spellingShingle Article
Jackisch, Laura
Kumsaiyai, Warunee
Moore, Jonathan D.
Al-Daghri, Nasser
Kyrou, Ioannis
Barber, Thomas M.
Randeva, Harpal
Kumar, Sudhesh
Tripathi, Gyanendra
McTernan, Philip G.
Differential expression of Lp-PLA2 in obesity and type 2 diabetes and the influence of lipids
title Differential expression of Lp-PLA2 in obesity and type 2 diabetes and the influence of lipids
title_full Differential expression of Lp-PLA2 in obesity and type 2 diabetes and the influence of lipids
title_fullStr Differential expression of Lp-PLA2 in obesity and type 2 diabetes and the influence of lipids
title_full_unstemmed Differential expression of Lp-PLA2 in obesity and type 2 diabetes and the influence of lipids
title_short Differential expression of Lp-PLA2 in obesity and type 2 diabetes and the influence of lipids
title_sort differential expression of lp-pla2 in obesity and type 2 diabetes and the influence of lipids
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6449000/
https://www.ncbi.nlm.nih.gov/pubmed/29427237
http://dx.doi.org/10.1007/s00125-018-4558-6
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