Literature DB >> 21112277

Hypertrophy-driven adipocyte death overwhelms recruitment under prolonged weight gain.

Junghyo Jo1, Juen Guo, Teresa Liu, Shawn Mullen, Kevin D Hall, Samuel W Cushman, Vipul Periwal.   

Abstract

Fat pads dynamically regulate energy storage capacity under energy excess and deficit. This remodeling process is not completely understood, with controversies regarding differences between fat depots and plasticity of adipose cell number. We examined changes of mouse adipose cell-size distributions in epididymal, inguinal, retroperitoneal, and mesenteric fat under both weight gain and loss. With mathematical modeling, we specifically analyzed the recruitment, growth/shrinkage, and loss of adipose cells, including the size dependence of these processes. We found a qualitatively universal adipose tissue remodeling process in all four fat depots: 1), There is continuous recruitment of new cells under weight gain; 2), the growth and shrinkage of larger cells (diameter >50 μm) is proportional to cell surface area; and 3), cell loss occurs under prolonged weight gain, with larger cells more susceptible. The mathematical model gives a predictive integrative picture of adipose tissue remodeling in obesity.
Copyright © 2010 Biophysical Society. Published by Elsevier Inc. All rights reserved.

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Year:  2010        PMID: 21112277      PMCID: PMC2998621          DOI: 10.1016/j.bpj.2010.10.009

Source DB:  PubMed          Journal:  Biophys J        ISSN: 0006-3495            Impact factor:   4.033


  34 in total

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Review 2.  Subcutaneous and visceral adipose tissue: structural and functional differences.

Authors:  M Mohsen Ibrahim
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3.  Gene expression patterns in visceral and subcutaneous adipose depots in rats are linked to their morphologic features.

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Journal:  Cell Physiol Biochem       Date:  2009-11-04

4.  Adipose depots possess unique developmental gene signatures.

Authors:  Yuji Yamamoto; Stephane Gesta; Kevin Y Lee; Thien T Tran; Parshin Saadatirad; C Ronald Kahn
Journal:  Obesity (Silver Spring)       Date:  2010-01-28       Impact factor: 5.002

5.  The fate of lipid-depleted fat cells. An ultrastructural study of the effects of prolonged caloric deprivation on fat cells and other tissues of the rat.

Authors:  T L Simon; J R Williamson
Journal:  Arch Pathol       Date:  1967-02

6.  Obesity is associated with macrophage accumulation in adipose tissue.

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Journal:  J Clin Invest       Date:  2003-12       Impact factor: 14.808

7.  Cellularity of rat adipose tissue: effects of growth, starvation, and obesity.

Authors:  J Hirsch; P W Han
Journal:  J Lipid Res       Date:  1969-01       Impact factor: 5.922

8.  Cell growth and size homeostasis in proliferating animal cells.

Authors:  Amit Tzur; Ran Kafri; Valerie S LeBleu; Galit Lahav; Marc W Kirschner
Journal:  Science       Date:  2009-07-10       Impact factor: 47.728

9.  Site differences in fat cells of New Zealand obese mice--a transplantation study.

Authors:  C J Meade; M Ashwell
Journal:  Metabolism       Date:  1980-09       Impact factor: 8.694

10.  Estimating the continuous-time dynamics of energy and fat metabolism in mice.

Authors:  Juen Guo; Kevin D Hall
Journal:  PLoS Comput Biol       Date:  2009-09-18       Impact factor: 4.475
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  19 in total

Review 1.  Mathematical models of pancreatic islet size distributions.

Authors:  Junghyo Jo; Manami Hara; Ulf Ahlgren; Robert Sorenson; Vipul Periwal
Journal:  Islets       Date:  2012-01-01       Impact factor: 2.694

2.  Macro fat and micro fat: insulin sensitivity and gender dependent response of adipose tissue to isocaloric diet change.

Authors:  Yanjun Li; Jonathan R Gaillard; Tracey McLaughlin; Thorkild Ia Sørensen; Vipul Periwal
Journal:  Adipocyte       Date:  2015-04-21       Impact factor: 4.534

3.  Amelioration of insulin resistance by rosiglitazone is associated with increased adipose cell size in obese type 2 diabetic patients.

Authors:  Bjorn Eliasson; Ulf Smith; Shawn Mullen; Samuel W Cushman; Arthur S Sherman; Jian Yang
Journal:  Adipocyte       Date:  2014-12-10       Impact factor: 4.534

4.  Effect of lipopolysaccharides on adipogenic potential and premature senescence of adipocyte progenitors.

Authors:  Ming Zhao; Xiaoli Chen
Journal:  Am J Physiol Endocrinol Metab       Date:  2015-06-23       Impact factor: 4.310

5.  The size of large adipose cells is a predictor of insulin resistance in first-degree relatives of type 2 diabetic patients.

Authors:  Jian Yang; Bjorn Eliasson; Ulf Smith; Samuel W Cushman; Arthur S Sherman
Journal:  Obesity (Silver Spring)       Date:  2012-01-12       Impact factor: 5.002

6.  Evidence for the regulatory role of lipocalin 2 in high-fat diet-induced adipose tissue remodeling in male mice.

Authors:  Hong Guo; Merlijn Bazuine; Daozhong Jin; Merry M Huang; Samuel W Cushman; Xiaoli Chen
Journal:  Endocrinology       Date:  2013-07-24       Impact factor: 4.736

7.  Loss of white adipose hyperplastic potential is associated with enhanced susceptibility to insulin resistance.

Authors:  Soo M Kim; Mingyue Lun; Mei Wang; Samuel E Senyo; Christelle Guillermier; Parth Patwari; Matthew L Steinhauser
Journal:  Cell Metab       Date:  2014-11-20       Impact factor: 27.287

8.  Control of adipose tissue expandability in response to high fat diet by the insulin-like growth factor-binding protein-4.

Authors:  Olga Gealekman; Kunal Gurav; My Chouinard; Juerg Straubhaar; Michael Thompson; Samir Malkani; Celia Hartigan; Silvia Corvera
Journal:  J Biol Chem       Date:  2014-04-28       Impact factor: 5.157

9.  Dwarfism and increased adiposity in the gh1 mutant zebrafish vizzini.

Authors:  Sarah K McMenamin; James E N Minchin; Tiffany N Gordon; John F Rawls; David M Parichy
Journal:  Endocrinology       Date:  2013-03-01       Impact factor: 4.736

10.  Adipose cell hypertrophy precedes the appearance of small adipocytes by 3 days in C57BL/6 mouse upon changing to a high fat diet.

Authors:  Yanjun Li; Vipul Periwal; Samuel W Cushman; Karin G Stenkula
Journal:  Adipocyte       Date:  2015-12-08       Impact factor: 4.534
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