Antiserum prepared against gelsolin, a major Ca'-dependent regulatory protein of actin gel-sol transformation in rabbit lung macrophages, was used to detect the presence of proteins immunologically related to gelsolin in a variety of cells and tissues. Cell extracts were electrophoresed on polyacrylamide gels, and replicas of the gels on cellulose nitrate paper were stained by an indirect immunohistochemical technique. A single band of crossreactive material which comigrates with macrophage gelsolin is found in at least nine different kinds of cells and tissues derived from rabbits and humans and in four lines of cultured cells from humans and rats . Gelsolin was also identified in human serum and plasma, raising the possibility that it may contribute to the clearance of actin from the circulatory system .Using this antiserum, we demonstrated, by indirect immunofluorescent staining of acetone-fixed macrophages and polymorphonuclear leukocytes, that gelsolin resides in the cortical cytoplasm and that during phagocytosis it is concentrated in pseudopodia engulfing particles to be ingested, an area of the cytoplasm actively engaged in movement . In longitudinal cryostat sections of contracted rabbit skeletal muscle, antigelsolin staining was associated with the
Earlier, we proposed that the interaction of gizzard calponin with F-actin, promoting the inhibition of the actomyosin ATPase activity, involves the NH2-terminal portion of the calponin segment Ala145-Tyr182 (Mezgueldi, M., Fattoum, A., Derancourt, J., and Kassab, R. (1992) J. Biol. Chem. 267, 15943-15951). In this work, we have directly probed this region for actin binding sites using five peptide analogs covering different stretches of the sequence Thr133-Ile163. Co-sedimentation with F-actin, actomyosin ATPase measurements, and zero-length cross-linking reactions demonstrated that the 19-residue sequence Ala145-Ile163 is essential for actin interaction and ATPase inhibition. Furthermore, each peptide was tested for binding to the Ca(2+)-dependent proteins, caltropin and calmodulin, in both an actomyosin ATPase assay and an affinity chromatographic assay. The results revealed the 11-residue segment Gln153-Ile163, representing the COOH-terminal moiety of the F-actin binding sequence, as a crucial region for the high affinity binding of these regulatory proteins with concomitant removal of the ATPase inhibition. The 153-163 stretch contained also interactive sites for tropomyosin as assessed by affinity chromatography and spectrofluorometry. Collectively, the data support our initial results and highlight the ability of the multifunctional 145-163 region to serve as a potent regulatory domain of the smooth muscle calponin.
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