Characterisation of the Rac/PAK pathway in Amoeba proteus |
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Authors: | W. Kłopocka,J. Moraczewska,M. J. Rę dowicz |
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Affiliation: | (1) Department of Molecular and Cellular Neurobiology, Nencki Institute of Experimental Biology, Warsaw;(2) Department of Muscle Biochemistry, Nencki Institute of Experimental Biology, Warsaw;(3) Kazimierz Wielki University, Bydgoszcz |
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Abstract: | Summary. Molecular mechanisms underlying the unique locomotion of the highly motile Amoeba proteus still remain poorly understood. Recently, we have shown that blocking the endogenous amoebal Rac-like protein(s) leads to distinct and irreversible changes in the appearance of these large migrating cells as well as to a significant inhibition of their locomotion. To elucidate the mechanism of the Rac pathway in Amoeba proteus, we tested the effects of blocking the endogenous myosin I heavy chain kinase (MIHCK), one of the Rac effectors in Acanthamoeba castellanii and Dictyostelium discoideum, with anti-MIHCK antibodies in migrating amoebae, as well as the effect of inhibiting Rac and MIHCK on the actin polymerisation process. Antibodies against A. castellanii MIHCK detected an A. proteus protein with a molecular mass (ca. 95 kDa) similar to the A. castellanii kinase. The cellular distribution of MIHCK in A. proteus was very similar to those of Rac-like protein in amoebae and MIHCK in A. castellanii. Amoebae microinjected with anti-MIHCK antibodies moved slower and protruded fewer wide pseudopodia (5–6) than the control cells (9–10), resembling to some extent the phenotype of cells microinjected with anti-Rac antibodies. The in vitro studies indicate that the A. proteus Rac-like protein, but not the MIHCK isoform, is engaged in the regulation of the nucleation step of the actin polymerisation process. These observations suggest that MIHCK may be one of the effectors for Rac in these extremely large cells. Correspondence and reprints: Department of Muscle Biochemistry, Nencki Institute of Experimental Biology, 3 Pasteur ulica, 02-093 Warsaw, Poland. |
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Keywords: | : Actin polymerisation Amoeba proteus Cytoskeleton Migration Myosin I heavy chain kinase p21-activated kinase. |
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