Independent regulation of microtubule spacing and microtubule stability following redundancy of nutritive tubes in telotrophic ovaries in hemiptera (insecta)

Abstract

The nutritive tubes that act as conduits between the nutritive cells and the developing oocytes within the ovaries of hemipteran insects, contain vast aggregates of aligned microtubules. During the previtellogenic stages of oogenesis, components synthesised in the nutritive cells pass within the nutritive tubes and accumulate in the oocytes. Using polarised light and electron microscopy, we have monitored the changes in both the spacing and stability of the microtubules which occur when, at the onset of vitellogenesis, translocation within the nutritive tube ceases and the tube becomes redundant. Having investigated nutritive tube redundancy in the ovaries of 4 species of hemipterans, we have discovered the outcome to be similar in each case, with the microtubules losing their characteristic spacing and becoming closely packed prior to their depolymerisation. The feature that differs is the timing of these changes because, in certain species, microtubule depolymerisation closely follows the microtubule rearrangement, while in other species, depolymerisation of the microtubules occurs some considerable time after their change in pattern. This evidence demonstrates that microtubule spacing and stability are regulated independently following redundancy of nutritive tubes, and we speculate upon how this regulation might be achieved within the insect ovaries.