Specific integrin subunits in bovine oocytes, including novel sequences for alpha 6 and beta 3 subunits.

Integrins facilitate attachment of cells to the extra-cellular matrix, often binding the arginine-glycine-aspartic acid tri-peptide motif, thus facilitating cell migration, mediating cell-cell adhesion, linking the extracellular matrix (ECM) with cytoskeletal elements, and acting as signaling molecules. Adhesion activates signaling mechanisms that regulate integrin function, cytoskeletal assembly, cell behavior, and protein synthesis. Immunofluorescence was used to determine the presence of integrin alpha and beta subunits on the surface of bovine oocytes using a panel of monoclonal antibodies (mAbs) specific for alphaL, alphaM, alphaX, alphaV, alpha2, alpha4, alpha6, beta1, beta2, and beta3 antigens, with multiple antibodies for each subunit. Confocal microscopy indicated the presence of alphaV, alpha6, alpha4, alpha2, ss1, and ss3 integrin subunits on the plasma membrane of bovine oocytes. The presence of these subunits was verified by RT-PCR analysis using primers designed based on known gene sequences of bovine integrin subunits, or by using sequence information using bovine expressed sequence tags (EST) compared with known human and murine integrin subunit gene sequence information. Previously unpublished sequence information for bovine alpha6 and beta3 integrins was determined. The presence of these integrin subunits on the bovine oocyte vitelline membrane supports the hypothesis that sperm-oocyte interactions in the bovine are mediated by integrins.

Noninvasive bioluminescence imaging of normal and spontaneously transformed prostate tissue in mice.

Several transgenic mouse models of prostate cancer have been developed recently that are able to recapitulate many key biological features of the human condition. It would, therefore, be desirable to employ these models to test the efficacy of new therapeutics before clinical trial; however, the variable onset and non-visible nature of prostate tumor development limit their use for such applications. We now report the generation of a transgenic reporter mouse that should obviate these limitations by enabling noninvasive in vivo bioluminescence imaging of normal and spontaneously transformed prostate tissue in the mouse. We used an 11-kb fragment of the human prostate-specific antigen (PSA) promoter to achieve specific and robust expression of firefly luciferase in the prostate glands of transgenic mice. Ex vivo bioluminescence imaging and in situ hybridization analysis confirmed that luciferase expression was restricted to the epithelium in all four lobes of the prostate. We also show that PSA-Luc mice exhibit decreased but readily detectable levels of in vivo bioluminescence over extended time periods following androgen ablation. These results suggest that this reporter should enable in vivo imaging of both androgen-dependent and androgen-independent prostate tumor models. As proof-of-principle, we show that we could noninvasively image SV40 T antigen-induced prostate tumorigenesis in mice with PSA-Luc. Furthermore, we show that our noninvasive imaging strategy can be successfully used to image tumor response to androgen ablation in transgenic mice and, as a result, that we can rapidly identify individual animals capable of sustaining tumor growth in the absence of androgen.

Dynamic changes to the inositol 1,4,5-trisphosphate and ryanodine receptors during maturation of bovine oocytes.

The inositol 1,4,5-trisphosphate (IP3) receptor (IP3R) and ryanodine receptor (RyR) have been identified as two ligand-gated calcium channels which play a critical role in mediating calcium release in many different types of cells and tissues. The physiological significance of the two receptors in regulation of intracellular calcium during meiotic maturation and fertilization in the bovine oocyte was evaluated. Metabolic labeling of bovine oocytes by Met-Cys 35S during early and late maturation was followed by immunoprecipitation of both RyR and IP3R using specific antibodies against these two receptors. Results indicate that IP3R is translated throughout the maturation period; in contrast, RyR is only translated during the late maturation period of bovine oocytes. In addition, the experiments reported here investigate the temporal and spatial relationships between these calcium channels and the endoplasmic reticulum (ER) and cortical granules (CG). Immunocytochemistry, fluorescence staining and confocal microscopy were applied at four oocyte developmental stages: the germinal vesicleintact (GV-intact), metaphase I (MI) and metaphase II (MII) stages of maturation and the fertilized egg at 6 h post insemination (hpi). Although oocytes demonstrated some differences in staining patterns and localization, both receptor types showed apparent dynamic changes during meiotic maturation and dramatic decreases in signals after insemination. These results indicate the changes in the number and distribution of IP3R and RyR may account for the increased intracellular calcium responsiveness at fertilization. The IP3R appears to associate with the ER at the sub-vitelline membrane cortex in bovine oocytes. In addition, RyR appears to associate with the CG. In conclusion, although these two receptors may have different functional roles in regulation of calcium release during meiotic maturation and fertilization, it appears that both IP3R and RyR contribute to the significant increase of intracellular calcium during fertilization and activation in the bovine oocyte.