RESUMO
Non-mammalian vertebrate erythrocytes are flattened nucleated ellipsoids containing marginal bands (MBs) of microtubules that assemble during cellular morphogenesis. Earlier work suggested that pointed erythroid cells containing pointed MBs were intermediate stages in terminal differentiation, rather than aberrant forms, but direct evidence was lacking. Here we report on morphogenesis in individual post-cytokinetic amphibian erythroblasts in culture. Daughter cells remained adjacent in pairs, and developed pointed morphology over 1-2 h in the following sequence: (a) ends opposite the cytokinetic furrow became pointed, producing a spheroidal singly-pointed stage; (b) furrow ends usually became pointed, yielding doubly-pointed cells; (c) furrow-end points disappeared, producing a second singly-pointed stage that was flattening. Over a longer term, the single points sometimes disappeared, yielding a flattened discoid. These observations support the hypothesis that pointed cells are normal intermediates in a biogenetic program in which post-mitotic centrosomes organize MBs while occupying the singly-pointed ends of differentiating erythroblasts.
