Wayne E. Carver, Ph.D.

Wayne E. Carver, Ph.D.

Professor of Cell Biology & Anatomy
Department Chair
University of South Carolina School of Medicine

Contact:
Office:  803-216-3803
Lab:     803-216-3832
Fax:     803-216-3846
Email: wayne.carver@uscmed.sc.edu

Pubmed
1979-83 University of South Carolina, Aiken – Bachelors of Science – Biology
1983-85 University of South Carolina – Masters of Science – Biology
1986-88 University of South Carolina – Ph.D. – Biology

Research Focus:

The ventricular wall of the heart is composed of contractile muscle cells and non-muscle cell types including fibroblasts, endothelial cells and others. These cells are inter-connected and supported by an elaborate extracellular matrix. Changes in the density and organization of the extracellular matrix are known to affect cardiovascular performance and have been correlated with heart disease. For instance, excessive accumulation of extracellular matrix or fibrosis is commonly associated with hypertension and myocardial infarction. The extracellular matrix in the heart is produced largely by cardiac fibroblasts. A number of factors including hormones, growth factors, cytokines and mechanical forces are known to regulate gene expression in fibroblasts; however, many questions remain regarding the integration of these various signals. The research in Dr. Carver’s lab is focused on understanding how fibroblast behavior and gene expression are regulated in the heart. Cell culture and animal models are being used to examine the regulation of fibroblasts in cardiovascular disease.

Recent Publications

  • Carver W, Goldsmith EC (2013) Regulation of tissue fibrosis by the biomechanical environment. Biomed Res Int 2013:101979.
  • Law BA, Carver WE (2013) Activation of cardiac fibroblasts by ethanol is blocked by TGF-beta inhibition. Alcohol Clin Exp Res 37:1286-1294
  • Fowlkes V, Clark J, Fix C, Law BA, Morales MO, Qiao X, Ako-Asare K, Goldsmith JG, Carver W, Murray DB, Goldsmith EC (2013) Type II diabetes promotes a myofibroblast phenotype in cardiac fibroblasts. Life Sci 92:669-676.
  • Fowlkes V, Wilson CG, Carver W, Goldsmith EC (2013) Mechanical loading promotes mast cell degranulation via RGD-integrin dependent pathways. J Biomech 46:788-795.
  • Law BA, Levick SP, Carver WE (2012) Alterations in cardiac structure and function in a murine model of chronic alcohol consumption. Microsc Microanal 18:453-461.
Click for older publications