Science Links Japan | Regulatory role of mechanical stress response in cellular function: Development of new drugs and tissue engineering.

Regulatory role of mechanical stress response in cellular function: Development of new drugs and tissue engineering.

Accession number;03A0151151

Title;Regulatory role of mechanical stress response in cellular function: Development of new drugs and tissue engineering.

Author; MOMOSE KAZUTAKA (Showa Univ., School of Pharm. Sci., JPN) MATSUDA TAKEHISA (Kyusyu Univ., School of Medical Sci., JPN) OIKE MASAHIRO (Kyusyu Univ., School of Medical Sci., JPN) OBARA KAZUO (Univ. Shizuoka, School of Pharmaceutical Sci., JPN) LAHER I (Univ. Of British Columbia, B.c., Can) SUGIURA SEIRYO (Univ. of Tokyo, Fac. of Med.) OHATA HISAYUKI (Showa Univ., School of Pharm. Sci., JPN) NAKAYAMA KOICHI (Univ. Shizuoka, School of Pharmaceutical Sci., JPN)

Journal Title;Folia Pharmacologica Japonica

Journal Code:G0740A

ISSN:0015-5691

VOL.121;NO.2;PAGE.103-111(2003)

Figure&Table&Reference;FIG.3, REF.19

Pub. Country;Japan

Language;Japanese

Abstract;The investigation of mechanotransduction in the cardiovascular system is essentially important for elucidating the cellular and molecular mechanisms involved in not only the maintenance of hemodynamic homeostasis but also etiology of cardiovascular diseases including arteriosclerosis. The present review summarizes the latest research performed by six academic groups, and presented at the 75th Annual Meeting of the Japanese Pharmacological Society. Technology of cellular biomechanics is also required for research and clinical application of a vascular hybrid tissue responding to pulsatile stress. 1) Vascular tissue engineering: Design of pulsatile stress-responsive scaffold and in vivo vascular wall reconstruction (T. Matsuda); 2) Cellular mechanisms of mechanosensitive calcium transients in vascular endothelium (M. Oike et al.); 3) Cross-talk of stimulation with fluid flow and lysophosphatidic acid in vascular endothelial cells (K. Momose et al.); 4) Mechanotransduction of vascular smooth muscles: Rate-dependent stretch-induced protein phosphorylations and contractile activation (K. Obara et al.); 5) Lipid mediators in vascular myogenic tone (I. Laher et al.); and 6) Caldiomyocyte regulates its mechanical output in response to mechanical load (S. Sugiura et al.). (author abst.)

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