Penetration of zona-free hamster ova by Siberian tiger sperm

Ejaculate-hormonal traits in the leopard cat (Felis bengalensis) and sperm function as measured by in vitro penetration of zona-free hamster ova and zona-intact domestic cat oocytes

Electroejaculate traits and circulating follicle-stimulating hormone (FSH), luteinizing hormone (LH), and testosterone concentrations were analyzed in adult leopard cats (Felis bengalensis), a rare felid species indigenous to east Asia. The ability of leopard cat sperm to bind and penetrate zona-free hamster ova and zona-intact domestic cat oocytes in vitro was examined as a means of testing sperm function. The influence of culture media [Biggers, Whitten, Whittingham (BWW) vs. modified Krebs Ringer bicarbonate (mKRB)], seminal plasma removal, and swim-up separation on sperm motility, sperm morphology, and oocyte penetration also were assessed. Sperm treatments included dilution of raw semen (DR), ejaculate centrifugation, and either resuspension (NS) or swim-up processing (SU). The percentage of oocytes penetrated (penetration rate) and the number of penetrated sperm/oocyte (penetration index) were determined. Ejaculates from each male consisted of at least a 50% sperm motility rating, and hormone concentrations in individual males were unrelated to any ejaculate trait measured concurrently on the same day. The SU technique improved (P less than 0.05) percent sperm motility and the proportion of structurally normal sperm compared to DR and NS treatments. Leopard cat spermatozoa were capable of binding to and penetrating hamster ova and domestic cat oocytes; however, penetration was influenced by culture medium and seminal processing. In the hamster assay, a higher (P less than 0.05) penetration rate and penetration index were achieved when mKRB was used for gamete incubation instead of BWW. NS processing also increased (P less than 0.05) overall penetration compared to DR and SU. In the cat oocyte assay, zona penetration rate was similar (P greater than 0.05) in the DR, NS, and SU aliquots; however, the zona penetration index was increased (P less than 0.05) by the NS compared to the DR and SU treatments. This study 1) provides baseline ejaculate and endocrine norms for the leopard cat, 2) demonstrates that leopard cat sperm undergo nuclear decondensation in hamster ova and penetrate zona-intact domestic cat oocytes, 3) indicates that seminal plasma removal enhances leopard cat sperm fertilizing ability and ovum penetration, and 4) suggests that heterologous oocyte penetration is effective for assessing factors influencing fertilization and sperm function in this nondomestic felid.

Ultrastructure of the domestic tom cat () and tiger () spermatozoa

The ultrastructure of spermatozoa from the domestic tom cat and the Siberian tiger was studied. Semen was collected from anesthetized tom cats and Siberian tigers by electroejaculation. Spermatozoa were fixed and processed for examination by transmission electron microscopy. The principle differences between the spermatozoa from the two species were the head shape, mitochondrial organization in the neck area and structure of the fibrous sheath. Tom cat spermatozoa had an elongated oval-shaped head, while tiger spermatozoa had a more rounded head shape. Circularly oriented mitochondria in the neck area, near the proximal centriole, were frequently observed in tiger cells but rarely observed in tom cat cells. The semicircular ribs of tom cat spermatozoa were larger than the ribs of tiger spermatozoa. Also, the dense fibers (Numbers 3 and 8) of the corresponding microtubule doublets were fused or connected to the longitudinal columns in tiger spermatozoa but showed only occasional attachment in tom cat spermatozoa. These differences could influence results when the tom cat is used as a model for studying tiger semen.