DETECTION AND CYTOPLASMIC LOCALIZATION OF TWO DIFFERENT MICROTUBULE MOTOR PROTEINS IN BASAL EPITHELIAL CELLS OF FRESHWATER SPONGES

摘要

Epithelial sponge cells (pinacocytes) contain a set of 50 to 60 microtubules radiating from the nuclear region to the cell periphery. Vacuoles of the endocytic pathway (endosomes, lysosomes) and mitochondria move along single microtubules in both directions; moreover, the ring-like arrangement of the Golgi apparatus around the nucleus and the net-like organization of the endoplasmic reticulum in the cytoplasmic matrix are also maintained, in an energy-dependent manner, by the microtubular system. Significant changes in the velocities of retrograde and anterograde transport as well as distinct differences in the sensitivity of organelle dynamics to ATPase inhibitors and ATP analogues indicate the existence of two microtubule-based motor proteins. Ion exchange chromatography of pinacocyte homogenates resulted in the enrichment of a 97 kDa kinesin-like protein (SKLP) with the ability to cross-react with antibodies against the kinesin heavy chain. Two other polypeptides, with molecular mass of 75 and 400 kDa, apparently belonging to a cytoplasmic dynein-like protein (SDLP) could be recognized in immunoblots with antibodies against the intermediate and heavy chains of cytoplasmic dynein. In addition, three MAP-like polypeptides (SMAPLPs), with molecular mass of 280, 250 and 70 kDa, obviously related to the MAP-2 and tau-family, have been identified. Immunocytochemical studies at the light and electron microscopical level localized SKLP, SDLP, and SMAPLPs at endocytic vacuoles and mitochondria, whereas the endoplasmic reticulum has SKLP and SMAPLPs, but the Golgi apparatus only SDLP. [References: 70]