The inherent electrical resistance of the rat vaginal wall rises markedly near the beginning of estrus and then falls again to low levels for the remainder of the ovarian cycle. Accordingly, special instruments have been developed to measure such resistances (within seconds) on simply inserting a small probe fitted with a pair of recording electrodes into the vagina (i.e., the MK-10A impedance checker and the EC40 estrus cycle monitor). As described herein, these two instruments are far more convenient for monitoring individual cycles than more laborious methods in which vaginal smears are inspected for changes in numbers of cornified (C), nucleated (N), and leukocytic (L) cells. However, they are also expensive and their use has essentially remained uncited in the literature. Thus we sought to determine whether a simple, inexpensive electrical meter (with resistance-measuring capacity), as commonly used by professional electricians, would serve the same purpose. We chose a standard multifunctional meter (model 22-178, RadioShack) and attached leads to it fabricated from the internal wiring of a shielded audio cable (model 42-2387A, RadioShack), one male terminal of which was used as a vaginal probe. In rats from which vagina smears revealed cell numbers in the order of C > N > L (typical of early estrus) electrical resistances were high, 488 +/- 130 k Omega (18 rats). In rats from which vagina smears revealed all other possible cell distributions, electrical resistances (combined) were much lower (P < 0.05), 124 +/- 23 k Omega (32 rats). Thus readily accessible, inexpensive electrical meters may be useful in assessing the status of estrus in female rats, either to improve reproductive efficiencies and/or for other purposes involving experiments in which such information is desirable.
The importance of juvenile hormone regulating insect oogenesis suggests looking for genes whose expression is regulated by this hormone. SPARC is a calcium-binding glycoprotein that forms part of the extracellular membranes, which in vertebrates participates in bones mineralization or regulating cell proliferation in some cancer types. This large number of functions described for SPARC in different species might be related to the significant differences in its structure observed when comparing different species-groups. Indeed, these structural differences allow characterizing the different clades. In the cockroach Blattella germanica, a SPARC homolog emerged from ovarian transcriptomes that were constructed to find genes responding to juvenile hormone. In insects, SPARC functions have been studied in oogenesis and in embryo development of Drosophila melanogaster. In the present work, using RNAi approaches, novel functions for SPARC in the B. germanica panoistic ovaries are described. We found that depletion of SPARC does not allow to the follicular cells to complete mitosis, resulting in giant follicular cells nuclei and in a great alteration of the ovarian follicle cytoskeleton. The SPARC contribution to B. germanica oogenesis occurs stabilizing the follicular cell program and helping to maintain the nuclear divisions. Moreover, SPARC is necessary to maintain the cytoskeleton of the follicular cells. Any modification of these key processes disables females for oviposition.
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