Direct effects of leptin on size and extracellular matrix components of human pediatric ventricular myocytes

doi:10.1016/j.cardiores.2005.11.022

Cardiovascular Research 2006 69(3):716-725; doi:10.1016/j.cardiores.2005.11.022

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Direct effects of leptin on size and extracellular matrix components of human pediatric ventricular myocytes

Siham Madani^a, Sabrina De Girolamo^a, Diana Marcela Muñoz^a, Ren-Ke Li^b and Gary Sweeney^a^,*

^aDepartment of Biology, York University, Toronto, Canada M3J 1P3
^bToronto General Research Institute, Toronto General Hospital, Canada

^* Corresponding author. Tel.: +1 416 736 2100x66635; fax: +1 416 736 5698. Email address: gsweeney{at}yorku.ca

Objective: There is a well-documented association between obesityand heart failure although the mechanistic basis for this correlationis unclear. Both extracellular matrix remodeling and left ventricularhypertrophy are well-defined components of remodeling in heartfailure, and here we further investigate the role of leptin,the obese gene product, on these parameters.

Methods: We used primary human pediatric ventricular cardiomyocytescombined with gelatin zymography, quantitative PCR analysis,proline and leucine incorporation assays, and investigationof kinase activation by Western blotting.

Results: We show using gelatin zymography that leptin dose-dependently(0–60 nM) increased proteolytic activity at ~72 kDa. Accordingly,upon quantitative PCR analysis we found that leptin increasedexpression of matrix metalloproteinase-2 (MMP-2). Leptin alsocaused an increase in collagen type III and IV mRNA expressionand a decrease in collagen type I mRNA expression. This wasreflected in no significant change in total collagen synthesis,measured by [³H]proline incorporation, in response to leptin.A statistically significant increase in cell size, [³H]leucineincorporation, and expression of well-characterized markersof cardiac hypertrophy, namely cardiac ${alpha}$ -actin and myosin lightchain, were observed in response to leptin. We demonstrate activationof Janus-activated kinase and mitogen-activated protein kinasepathways by leptin, and using pharmacological inhibitors weshow that these signaling pathways play a role in mediatingthe effects of leptin.

Conclusions: Our findings show that leptin regulates cell size,stimulates MMP-2 expression, and alters the profile, but notthe total content, of collagen in human cardiomyocytes. Thisindicates the potential for altered leptin sensitivity to directlyregulate cardiac remodeling in obesity.

KEYWORDS Leptin; obesity; heart failure; extracellular matrix; hypertrophy

Time for primary review 19 days

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