The Molecular Basis of Cardiac Mechanics: Regulation of Motor Unit Recruitment
Abstract
Calcium binding to the regulatory proteins of the contractile filaments allows cross-bridge recruitment and force generation. The study tests the hypothesis that cross-bridge recruitment is regulated by a positive feedback mechanism whereby the number of force generating cross-bridges determines the affinity of the regulatory proteins for calcium. The force response to sarcomere length oscillations was measured at constant free Ca2+ concentration, during steady tetanus contraction of isolated rat trabeculae, obtained from rat right ventricles (n=5). Tetanus was achieved by using cyclopiazonic acid (CPA) and 8Hz stimulation. SL was measured by laser diffraction techniques. The Force was measured by silicon strain gauge. Sarcomere oscillations were imposed with a fast servomotor. The force response lagged the sarcomere length oscillations at frequency smaller than 4Hz (99.3 +/- 39.9 msec at 1Hz). A counter clockwise hysteresis was obtained between the force and the SL. There was no unique force-length relation at constant activation since the force was depended on a short-ten history of contraction. The study establishes the existence of a positive feedback that regulates cross-bridge recruitment, cardiac mechanics and energetics: the steep force-length relation and the adaptive control of energy consumption by the prevailing loading conditions.
Document Details
- Document Type
- Technical Report
- Publication Date
- Oct 25, 2001
- Accession Number
- ADA409580
Entities
People
- A. Landesberg
- C. Levy
Organizations
- Technion – Israel Institute of Technology