To enhance preservation of the extracellular materials, we have fixed hamster and mouse oocyte cumulus complexes (OCC) for transmission electron microscopy in the presence of ruthenium red. Ruthenium red had four effects on the extracellular components of the freshly ovulated hamster OCC. It interacted with the surface of cumulus and corona radiata cells; it stabilized the extracellular matrix (ECM) that was comprised of granules and filaments; it produced moderate electron density and good structural definition in the zona pellucida, and it revealed occasional small granular deposits on the oolemma. The ECM observed between cells of the cumulus and corona radiata layers extended into the outer one third of the zona pellucida. The granule and filament matrix was removed from the cumulus layer, corona radiata, and pores of the zona pellucida by brief treatment with hyaluronidase. The extracellular components of oviducal OCC from hamsters and mice appeared similar to OCC removed from follicles of the hamster shortly before ovulation. However, oviducal OCC did show increased aggregation of granules in the ECM. In most cases where females had been mated and oocytes were fertilized, the extracellular components appeared similar to those seen in fresh OCC. Exceptions were noted in some oocytes that lacked cumulus and corona radiata cells. In these instances, the zona pellucida generally lacked the granule/filament matrix. After fertilization numerous small electrondense granules were noted in the perivitelline space. These were presumed to originate in the cortical granules and formed a new investing layer around the zygote. Our data suggest that the OCC becomes more difficult for a sperm to penetrate as it approaches the oocyte. The significance of these results is discussed with respect to sperm traffic in the OCC and the cortical reaction.
Experiments were conducted to determine if acrosomal enzymes are released simultaneously or in sequence during the normal acrosome reaction. Epididymal guinea pig sperm were incubated in a chemically defined, calcium-containing medium which supports normal acrosome reactions within 4-5 hours at 37 degrees C. The sperm suspensions were monitored for motility, normal acrosome reactions, and false acrosome reactions during in vitro incubation. At specified time intervals, the sperm were separated from the incubation medium by centrifugation, and the distribution of dipeptidyl peptidase (DPP II) and acrosin activity was determined by biochemically assaying the hydrolysis of trialanine and N-benzoyl-L-arginine ethyl ester (BAEE), respectively. When calcium was present, there was a significant increase in DPP II activity in the supernatants by 1 hour of incubation and a slight decline at later time points. This release was not correlated with false or normal acrosome reactions (loss of the acrosomal cap) monitored by phase-contrast microscopy but probably represents a very early stage in the normal acrosome reaction. This early stage is difficult to detect at the light microscope level because sperm are still in rouleaux and because membrane fusion is not directly observable. In contrast, acrosin activity, which was assayed in the same supernatants, increased at later times when sperm were observed to have completed normal acrosome reactions. The ultrastructural distribution of DPP II was determined in sperm pellets collected during in vitro incubation by using the DPP II substrate lysyl-alanyl-4-methoxy-2-naphthyamide. In freshly isolated cauda epidiymal sperm, reaction product is confined to the light-staining area in the dorsal bulge of the acrosome. However, by 1 hour of incubation, the light-staining area of many sperm was partially or completely dispersed, while other regions of the acrosome were unchanged. Our data are consistent with the conclusions that DPP II is a highly soluble component of the guinea pig sperm acrosome and that its release occurs during the initial phase of the acrosome reaction while sperm are still in rouleaux. Structural changes in the acrosome associated with DPP II release were detectable by electron microscopy but not by light microscopy. Acrosin, which is less soluble than DPP II, is released at a later time during the acrosome reaction. Both DPP II and acrosin appear to be partially inhibited following their release from sperm. A complete understanding of the sequential release and extracellular activities of the acrosomal enzymes will be necessary to fully define their functions in fertilization.
Prior experiments have shown that the functioning of hamster oviducts is impaired by in vitro exposure to cigarette smoke. To determine if cigarette smoke affects oviductal functioning in vivo, an inhalation experiment was done in which hamsters were exposed to doses of smoke similar to those received by human smokers. The effects of mainstream smoke (the bolus of smoke inhaled by active smokers) and sidestream smoke (the main component in environmental tobacco smoke) were compared. Transport of preimplantation embryos through the hamster oviduct was retarded in females inhaling doses of mainstream or sidestream smoke that produced serum cotinine levels within the range reported for women who actively or passively smoke during pregnancy. In addition, hamster oviductal muscle contraction rate decreased significantly during a single exposure of animals to either mainstream or sidestream smoke, and contraction rate failed to return to initial control values during a 25-min recovery period. Both preimplantation embryo transport and muscle contraction were more sensitive to sidestream than mainstream smoke. These data demonstrate that inhalation of doses of mainstream and sidestream cigarette similar to those received by active and passive human smokers adversely affects functioning of the oviduct and may explain the increased incidence of ectopic pregnancies reported in women who smoke.
Previous studies have shown that solutions of mainstream and sidestream cigarette smoke decrease both ciliary beat frequency and oocyte cumulus complex pick-up rate of hamster oviducts in vitro. The purpose of this study was to identify the component(s) in smoke that produces these effects. Chemicals reported to be ciliotoxic in other systems were tested on hamster infundibula at various concentrations to determine whether a dose-response inhibition of ciliary beat frequency occurred. In addition, the concentration of each test component was measured in mainstream and sidestream smoke solutions (whole, particulate, and gas phase). All test components (acrolein, formaldehyde, phenol, acetaldehyde, and potassium cyanide [KCN]) inhibited ciliary beat frequency in a dose-dependent manner. Inhibition of ciliary beat frequency was at least partially reversible for all test compounds except acrolein. The concentrations of acrolein, formaldehyde, and phenol that were required to inhibit beat frequency were at least 3-50 times higher than their corresponding concentrations in smoke solutions. In contrast, cyanide was present in all smoke solutions at concentrations sufficient to inhibit ciliary beat frequency. Cilia on the outer surface of the infundibulum function in picking up the oocyte cumulus complex. Oocyte cumulus complex pick-up rate was measured in vitro at KCN concentrations shown to inhibit ciliary beat frequency. Pick-up rate was likewise inhibited by KCN and remained significantly depressed after washout of KCN. These data show that cyanide is a potent inhibitor of both ciliary beat frequency and oocyte cumulus complex pick-up rate and that its concentration in smoke solutions is sufficiently high to explain the previously reported inhibition of these oviductal processes.
Guinea pig sperm contain the exopeptidase dipeptidyl peptidase II (DPP-II). Our purpose was to localize this enzyme in sperm at the ultrastructural level using lysylalanyl-4-methoxy-beta-naphthylamide which is the specific synthetic substrate for DPP-II. In substrate incubated sperm, reaction product was located within the acrosome. It was concentrated over the light staining area which forms the prominent dorsal bulge of the acrosome. Within this area there are spherical zones of moderate electron density which had little or no reaction product. Control sperm did not have reaction product. We conclude that DPP-II is restricted to a compartment within the guinea pig sperm acrosome.
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