Howard Levinson headshot
Principal Investigator
Associate Professor of Surgery
Associate Professor in Pathology
Associate Professor in Dermatology
Core Faculty in Innovation & Entrepreneurship
Contact Information

Office: Duke University Medical Center 316M, Green Zone Duke Clinic, Durham, NC 27710

Phone: 919-684-8661

Fax: 919-684-5928

Emailhoward.levinson@duke.edu

Overview

Microscope slide from lab

This laboratory investigates the mechanisms of fibrosis and tissue remodeling and aims to develop a novel small molecule inhibitor to prevent fibrocontractile disease progression. Approximately 80 million people worldwide are adversely affected by scar contracture. Yet, current treatments are largely unsuccessful, and preventive agents do not exist. There is a large unmet need for an effective pharmaceutical to prevent fibrosis. Fibrocontractile disease is ubiquitous throughout the human body. Scar contracture is putatively caused by fibroblast and myofibroblast contractility during the remodeling phase of repair.

Microscope slide from lab

Current hypotheses suggest that tractional force generation within these cells and subsequent scar contracture formation is primarily caused by myosin II activation and ensuing actin stress fiber formation, focal adhesion development, and cytoskeletal (microtubules and intermediate filaments) reorganization.However, it is unclear which myosins are activated in fibroblasts and myofibroblasts and how these myosins are regulated to increase tractional force generation and promote tissue remodeling. Filling this void is essential to the fulfillment of the long-term goal of developing a drug through small molecule high throughput screening, to prevent fibrocontractile disease.

The current hypothesis is that as fibroblasts become activated and transition into protomyofibroblasts and myofibroblasts, non muscle myosin II (NMMII) activation increases, either through upregulation of protein expression, through phosphorylation and activation of myosin regulatory light chain (MRLC), or through phosphorylation and inactivation of myosin phosphatase (MPYT), to enhance cellular tractional force generation and promote matrix remodeling.

Key Projects Underway

The main projects in the laboratory currently seek to:

  1. Evaluate the clinicopathologic correlation between expression of NMMII (isoforms IIA, IIB, IIC), myosin light chain kinase (MLCK), Rho kinase, MRLC, MYPT, and a-SMA, as they relate to scar contracture progression
  2. Clarify the relationship between NMMII regulation in fibroblasts, protomyofibroblasts, and myofibroblasts and tractional force generation

Approaches include:

  • In vitro techniques
  • Animal models of wound contraction and skin graft contraction
  • Investigation of human tissue

Contact Us

Howard Levinson
howard.levinson@duke.edu

Publications and Funded Projects

View Dr. Levinson's profile to see his publications and funded projects.

Lab Members

Trainees

  • Mark Fisher, MD
  • Ying Zhang, MD
  • Lei Chen, MD
  • Linda Li
  • Andrew Bergeron, BS
  • Regina Fearmonti, MD
  • Ren Licheng, MD
  • Cedric Hunter, BS
  • Jennifer Bond, PhD
  • Junyun Yang
  • Jarey Wang
  • John Zhao
  • Issei Komatsu, MD
  • Joseph Hadeed, MD