Mechanical stress-strain sensors embedded in cardiac cytoskeleton: Z disk, titin, and associated structures

doi:10.1152/ajpheart.00816.2005

Mechanical stress-strain sensors embedded in cardiac cytoskeleton: Z disk, titin, and associated structures

Masahiko Hoshijima

Department of Medicine, University of California, San Diego, California

Cardiac muscle is equipped with intricate intrinsic mechanismsto regulate adaptive remodeling. Recent and extensive experimentalfindings powered by novel strategies for screening protein-proteininteractions, improved imaging technologies, and versatile transgenicmouse methodologies reveal that Z disks and titin filamentspossess unexpectedly complicated sensory and modulatory mechanismsfor signal reception and transduction. These mechanisms employmolecules such as muscle-enriched LIM domain proteins, PDZ-LIMdomain proteins, myozenin gene family members, titin-associatedankyrin repeat family proteins, and muscle-specific ring fingerproteins, which have been identified as potential molecularsensor components. Moreover, classic transmembrane signalingprocesses, including mitogen-activated kinase, protein kinaseC, and calcium signaling, also involve novel interactions withthe Z disk/titin network. This compartmentalization of signalingcomplexes permits alteration of receptor-dependent transcriptionalregulation by direct sensing of intrinsic stress. Newly identifiedmechanical stress sensors are not limited to Z-disk region andto I-band and M-band regions of titin but are also embeddedin muscle-specific membrane systems such as the costamere, intercalateddisks, and caveolae-like microdomains. This review summarizescurrent knowledge of this rapidly developing area with focuson how the heart adjusts physiological remodeling process tomeet with mechanical demands and how this process fails in cardiacpathologies.

heart; actin cytoskeleton; transmembrane signaling; proteosome

Address for reprint requests and other correspondence: M. Hoshijima, UCSD Medicine, BSB 5032, 9500 Gilman Dr., Dept 0734, La Jolla, CA 92093-0734 (e-mail: mhoshijima{at}ucsd.edu)

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				A. D. Maturana, S. Walchli, M. Iwata, S. Ryser, J. Van Lint, M. Hoshijima, W. Schlegel, Y. Ikeda, K. Tanizawa, and S. Kuroda Enigma homolog 1 scaffolds protein kinase D1 to regulate the activity of the cardiac L-type voltage-gated calcium channel Cardiovasc Res, June 1, 2008; 78(3): 458 - 465. [Abstract] [Full Text] [PDF]

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