Polar cytoplasmic evaginations in dividing spermatocytes of the firebug,Pyrrhocoris apterus (Pyrrhocoridae, Hemiptera)

Abstract

The present fine structure and anti-tubulin immunofluorescence study deals with evaginations from the cell surface in metaphase I spermatocytes of the firebugPyrrhocoris apterus (Pyrrhocoridae, Hemiptera). The surface of spermatogonia and prophase spermatocytes was smooth throughout. Only in metaphase I and anaphase I, cytoplasmic threads projected from polar portions of the spermatocytes. In contrast, equatorial portions of these cells possessed a smooth surface. By mid to late telophase, the evaginations were no longer detectable in spermatocytes. Three ideas are at hand to explain the development of polar cytoplasmic evaginations. First, they could represent a membrane reserve used up during spindle elongation in telophase of meiosis. In order to test this idea, spindle structure was analyzed in meiosis I using simultaneously antibodies to β-tubulin and γ-tubulin. γ-Tubulin represents a tubulin isoform prevalent in centrosomes. The observations showed that spindle elongation was not very prominent in meiosis of the bug. Although it cannot be ruled out, the formation of a polar membrane reserve prior to spindle elongation is not a likely explanation for the evaginations from the cell surface. Second, the development of surface extensions could bring about increased exchange of metabolites during a particularly active stage of meiosis. Third, the polar evaginations could be an inadvertent product of the aster microtubules protruding towards the plasma membrane.