| Autor: |
Bunt G; Department of Molecular Cell Biology and Centre for Biomembranes and Lipid Enzymology, Institute of Biomembranes, Utrecht University, Padualaan 8, NL-3584 CH, Utrecht, The Netherlands., van Rossum GS, Boonstra J, van Den Bosch H, Verkleij AJ |
| Abstrakt: |
cPLA(2) plays a key role in many signal transduction cascades by hydrolyzing arachidonic acid from membrane phospholipids. Tight control of cPLA(2) activity by a number of regulatory mechanisms is essential to its cellular function. We recently described the localization of cPLA(2) in clusters in fibroblasts and now propose that these clusters reflect a localized inactive pool from which active monomers can be recruited to keep cPLA(2) activity under control on the subcellular level. Using an electron microscopic in vitro approach, we show that cPLA(2) monomers, but not the clusters, bind to membranes in a Ca(2+)-dependent manner. This binding is accompanied by hydrolytic activity. The present data combined with our previous observation of a relative abundance of clusters over monomers in fixed fibroblasts [Bunt, G., de Wit, J., van den Bosch, H., Verkleij, A., and Boonstra, J. (1997) J. Cell Sci. 110, 2449-2459] gives rise to a concept of cPLA(2) regulation in which small amounts of active monomers are recruited to fulfill their function upon stimulation. This is in contrast to processes described for inflammatory cells, where a substantial part of the cytoplasmically localized cPLA(2) translocates to the perinuclear region upon stimulation to become active. Small-scale regulation of cPLA(2) by the proposed cluster-monomer cycle allows local and strictly confined control of cPLA(2) activity, apparently necessary for its cellular role in fibroblasts. |
