Nature Publishing Group, publisher of Nature, and other science journals and reference works NATURE.COM NATURE NEWS NATUREJOBS NATUREEVENTS ABOUT NPG
Help Nature.com site index  
International Journal of Obesity
SEARCH     advanced search my account e-alerts subscribe register
Journal home
Advance online publication
Current issue
Archive
Press releases
For authors
For referees
Contact editorial office
About the journal
For librarians
Subscribe
Advertising
naturereprints
Contact NPG
Customer services
Site features
NPG Subject areas
Access material from all our publications in your subject area:
Biotechnology Biotechnology
Cancer Cancer
Chemistry Chemistry
Dentistry Dentistry
Development Development
Drug Discovery Drug Discovery
Earth Sciences Earth Sciences
Evolution & Ecology Evolution & Ecology
Genetics Genetics
Immunology Immunology
Materials Materials Science
Medical Research Medical Research
Microbiology Microbiology
Molecular Cell Biology Molecular Cell Biology
Neuroscience Neuroscience
Pharmacology Pharmacology
Physics Physics
Browse all publications
 
November 2000, Volume 24, Supplement 4, Pages S28-S32
Table of contents    Previous  Abstract  Next   PDF
Session 2: Endocrine functions of adipose tissue
Lipotoxic diseases of nonadipose tissues in obesity
R H Unger1 and L Orci2

1Gifford Laboratories, Touchstone Center for Diabetes Research, Department of Internal Medicine, University of Texas Southwestern Medical Center, Dallas, Texas, USA

2Department of Morphology, University of Geneva Medical School, Geneva, Switzerland

Correspondence to: R H Unger, Center for Diabetes Research, University of Texas Southwestern Medical Center, 5323 Harry Hines Blvd, Dallas, TX 75235-8854, USA.Runger@mednet.Swmed.edu

Abstract

It is proposed that an important function of leptin is to confine the storage of triglycerides (TG) to the adipocytes, while limiting TG storage in nonadipocytes. Excess TG deposition in nonadipocytes leads to impairment of functions, increased ceramide formation, which triggers nitric oxide-mediated lipotoxicity and lipoapoptosis. The fact that TG content in nonadipocytes normally remains within a very narrow range irrespective of excess caloric intake, while TG content of adipocytes rises, is consistent with a system of fatty acid (FA) homeostasis in nonadipose tissues. When leptin is deficient or leptin receptors are dysfunctional, TG content in nonadipose tissues such as pancreatic islets, heart and skeletal muscle, can increase 10-50-fold, suggesting that leptin controls the putative homeostatic system for intracellular TG. The fact that function and viability of nonadipocytes is compromised when their TG content rises above normal implies that normal homeostasis of their intracellular FA is critical for prevention of complications of obesity. FA overload of skeletal muscle, myocardium and pancreatic islets cause, respectively, insulin resistance, lipotoxic heart disease and adipogenic type 2 diabetes. All can be completely prevented by treatment with antisteatotic agents such as troglitazone. In diet-induced obesity, leptin signaling is normal initially and lipotoxic changes are at first prevented; later, however, post-receptor leptin resistance appears, leading to dysfunction and lipoapoptosis in nonadipose tissues, the familiar complications of obesity.

International Journal of Obesity (2000) 24, Suppl 4, S28-S32

Keywords

lipotoxicity; lipoapoptosis; nonadipose tissues; obesity

November 2000, Volume 24, Supplement 4, Pages S28-S32
Table of contents    Previous  Abstract  Next   PDF
Privacy Policy © 2000 Nature Publishing Group