Collagen overlays can inhibit leptin and adiponectin secretion but not lipid accumulation in adipocytes

Background White adipose tissue (WAT) is essential for energy storage as well as being an active endocrine organ. The secretion of adipokines by adipocytes can affect whole body metabolism, appetite, and contribute to overall health. WAT is comprised of lipid-laden mature adipocytes, as well as immu...

Full description

Bibliographic Details
Main Authors: Sherri L. Christian, Nikitha K. Pallegar, Robert J. Brown, Alicia M. Viloria-Petit
Format: Article
Language:English
Published: PeerJ Inc. 2018-04-01
Series:PeerJ
Subjects:
Online Access:https://peerj.com/articles/4641.pdf
id doaj-658b30a3f1e1494486234de36855fe4d
record_format Article
spelling doaj-658b30a3f1e1494486234de36855fe4d2020-11-25T01:05:55ZengPeerJ Inc.PeerJ2167-83592018-04-016e464110.7717/peerj.4641Collagen overlays can inhibit leptin and adiponectin secretion but not lipid accumulation in adipocytesSherri L. Christian0Nikitha K. Pallegar1Robert J. Brown2Alicia M. Viloria-Petit3Department of Biochemistry, Memorial University of Newfoundland, St. John’s, Newfoundland and Labrador, CanadaDepartment of Biochemistry, Memorial University of Newfoundland, St. John’s, Newfoundland and Labrador, CanadaDepartment of Biochemistry, Memorial University of Newfoundland, St. John’s, Newfoundland and Labrador, CanadaDepartment of Biomedical Sciences, University of Guelph, Guelph, Ontario, CanadaBackground White adipose tissue (WAT) is essential for energy storage as well as being an active endocrine organ. The secretion of adipokines by adipocytes can affect whole body metabolism, appetite, and contribute to overall health. WAT is comprised of lipid-laden mature adipocytes, as well as immune cells, endothelial cells, pre-adipocytes, and adipose-derived stem cells. In addition, the presence of extracellular matrix (ECM) proteins in WAT can actively influence adipocyte differentiation, growth, and function. Type I collagen is an abundant fibrous ECM protein in WAT that is secreted by developing adipocytes. However, the extent and overall effect of Type I collagen on adipokine secretion in mature adipocytes when added exogenously has not been established. Methods We characterized the effects of Type I collagen overlays prepared using two different buffers on adipocyte physiology and function when added at different times during differentiation. In addition, we compared the effect of collagen overlays when adipocytes were cultured on two different tissue culture plastics that have different adherent capabilities. Triglyceride accumulation was analyzed to measure adipocyte physiology, and leptin and adiponectin secretion was determined to analyze effects on adipokine secretion. Results We found that collagen overlays, particularly when added during the early differentiation stage, impaired adipokine secretion from mature adipocytes. Collagen prepared using PBS had a greater suppression of leptin than adiponectin while collagen prepared using HANKS buffer suppressed the secretion of both adipokines. The use of CellBind plates further suppressed leptin secretion. Triglyceride accumulation was not substantially impacted with any of the collagen overlays. Discussion Adipokine secretion can be selectively altered by collagen overlays. Thus, it is feasible to selectively manipulate the secretion of adipokines by adipocytes in vitro by altering the composition or timing of collagen overlays. The use of this technique could be applied to studies of adipokine function and secretion in vitro as well as having potential therapeutic implications to specifically alter adipocyte functionality in vivo.https://peerj.com/articles/4641.pdfAdipognenesisType I collagenAdiponectinLeptinCell cultureTriglycerides
collection DOAJ
language English
format Article
sources DOAJ
author Sherri L. Christian
Nikitha K. Pallegar
Robert J. Brown
Alicia M. Viloria-Petit
spellingShingle Sherri L. Christian
Nikitha K. Pallegar
Robert J. Brown
Alicia M. Viloria-Petit
Collagen overlays can inhibit leptin and adiponectin secretion but not lipid accumulation in adipocytes
PeerJ
Adipognenesis
Type I collagen
Adiponectin
Leptin
Cell culture
Triglycerides
author_facet Sherri L. Christian
Nikitha K. Pallegar
Robert J. Brown
Alicia M. Viloria-Petit
author_sort Sherri L. Christian
title Collagen overlays can inhibit leptin and adiponectin secretion but not lipid accumulation in adipocytes
title_short Collagen overlays can inhibit leptin and adiponectin secretion but not lipid accumulation in adipocytes
title_full Collagen overlays can inhibit leptin and adiponectin secretion but not lipid accumulation in adipocytes
title_fullStr Collagen overlays can inhibit leptin and adiponectin secretion but not lipid accumulation in adipocytes
title_full_unstemmed Collagen overlays can inhibit leptin and adiponectin secretion but not lipid accumulation in adipocytes
title_sort collagen overlays can inhibit leptin and adiponectin secretion but not lipid accumulation in adipocytes
publisher PeerJ Inc.
series PeerJ
issn 2167-8359
publishDate 2018-04-01
description Background White adipose tissue (WAT) is essential for energy storage as well as being an active endocrine organ. The secretion of adipokines by adipocytes can affect whole body metabolism, appetite, and contribute to overall health. WAT is comprised of lipid-laden mature adipocytes, as well as immune cells, endothelial cells, pre-adipocytes, and adipose-derived stem cells. In addition, the presence of extracellular matrix (ECM) proteins in WAT can actively influence adipocyte differentiation, growth, and function. Type I collagen is an abundant fibrous ECM protein in WAT that is secreted by developing adipocytes. However, the extent and overall effect of Type I collagen on adipokine secretion in mature adipocytes when added exogenously has not been established. Methods We characterized the effects of Type I collagen overlays prepared using two different buffers on adipocyte physiology and function when added at different times during differentiation. In addition, we compared the effect of collagen overlays when adipocytes were cultured on two different tissue culture plastics that have different adherent capabilities. Triglyceride accumulation was analyzed to measure adipocyte physiology, and leptin and adiponectin secretion was determined to analyze effects on adipokine secretion. Results We found that collagen overlays, particularly when added during the early differentiation stage, impaired adipokine secretion from mature adipocytes. Collagen prepared using PBS had a greater suppression of leptin than adiponectin while collagen prepared using HANKS buffer suppressed the secretion of both adipokines. The use of CellBind plates further suppressed leptin secretion. Triglyceride accumulation was not substantially impacted with any of the collagen overlays. Discussion Adipokine secretion can be selectively altered by collagen overlays. Thus, it is feasible to selectively manipulate the secretion of adipokines by adipocytes in vitro by altering the composition or timing of collagen overlays. The use of this technique could be applied to studies of adipokine function and secretion in vitro as well as having potential therapeutic implications to specifically alter adipocyte functionality in vivo.
topic Adipognenesis
Type I collagen
Adiponectin
Leptin
Cell culture
Triglycerides
url https://peerj.com/articles/4641.pdf
work_keys_str_mv AT sherrilchristian collagenoverlayscaninhibitleptinandadiponectinsecretionbutnotlipidaccumulationinadipocytes
AT nikithakpallegar collagenoverlayscaninhibitleptinandadiponectinsecretionbutnotlipidaccumulationinadipocytes
AT robertjbrown collagenoverlayscaninhibitleptinandadiponectinsecretionbutnotlipidaccumulationinadipocytes
AT aliciamviloriapetit collagenoverlayscaninhibitleptinandadiponectinsecretionbutnotlipidaccumulationinadipocytes
_version_ 1725192489492545536