The mitotic inhibitor, chloral hydrate, induces ciliary loss in the early embryo phase of Lytechinus pictus. It causes a breakdown of cilia at the junction of the cilium and the basal body known as the basal plate. This leaves the plasma membrane temporarily unsealed. The basal apparatus accessory structures, consisting of the basal body, basal foot, basal foot cap, striated side arm, and striated rootlet, are either misaligned or disintegrated by treatment with chloral hydrate. Furthermore, microtubules which are associated with the basal apparatus are disassembled. Mitochondria accumulate at the base of cilia - underneath the plasma membrane - and show alterations in their structural organization. The accumulation of mitochondria is observed in 40% of all electron micrograph sections while 60% show the areas mostly devoid of mitochondria. The microvilli surrounding a cilium and striated rootlet remain intact in the presence of chloral hydrate. These results suggest that deciliation in early sea urchin embryos by chloral hydrate is caused by combined effects on the ciliary membrane and on microtubules in the cilia. Furthermore, it is suggested that chloral hydrate can serve as a tool to explore the cytoskeletal mechanisms that are involved in cilia motility in the developing sea urchin embryo.
Sea urchins have been used for over a century as a remarkable animal model system in which to study cell, molecular, and developmental biology. The studies presented here have used sea urchin eggs and embryos for pioneering experiments to explore the effects of microgravity on the cytoskeleton during a space flight on the space shuttle Endeavor. The culture conditions followed those described previously utilizing the Aquatic Research Facility (ARF) to fertilize and culture eggs and embryos up to the pluteus stage under controlled temperature (12°C) and fixation conditions. To achieve a final fixation with 0.5% glutaraldehyde and 4μM taxol, concentrated fixation fluid was injected at preselected time points to preserve microtubules, centrioles, centrosomes, microfilaments, mitochondria, and cell membranes.The analysis of the results revealed that the centriole-centrosome complex during cell division and cilia formation showed alterations in samples that had been exposed to microgravity while control cells cultured in a centrifuge at lg in space and those cultured on ground appeared normal.
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