Immunohistochemical localization of proliferating cell nuclear antigen (PCNA) in the pig ovary

The aim of the study was to determine the expression of proliferating cell nuclear antigen protein (PCNA) in the pig ovary. The localization of PCNA was demonstrated in paraffin sections of pig ovarian tissue using primary mouse monoclonal anti-PCNA antibody. In primordial follicles, no remarkable staining for PCNA either in granulosa cells or in the oocytes was observed. In primary to secondary follicles, positive staining in oocytes and in some granulosa cells was detected. The advanced preantral and particularly actively growing small to large antral follicles showed extensive PCNA labeling in the layers of granulosa and theca cells and in the cumulus cells encircling the oocyte. PCNA labeling was expressed in nuclei of oocytes in preantral and small antral follicles. In atretic follicles, the level of PCNA protein expression was dependent on the stage of atresia. Follicles demonstrating advanced atresia showed only limited or no PCNA labeled granulosa and theca cells. The results of the study demonstrate that follicular growth and development in pig ovary may be effectively monitored by determining the granulosa cell expression of PCNA.     

Expression of retinol-binding protein and cellular retinol-binding protein in the bovine ovary

Retinol (vitamin A) is essential for reproduction, and retinoids have been suggested to play a role in ovarian steroidogenesis, oocyte maturation, and early embryonic development. Retinol is transported systemically and intercellularly by retinol-binding protein (RBP). Within the cell, cellular retinol-binding protein (CRBP) functions in retinol accumulation and metabolism. Since the actions of retinoids are mediated, in part, by retinoid-binding proteins, the objective of this study was to investigate cell-specific expression of RBP and CRBP in the bovine ovary. Immunocytochemical analysis (ICC) localized RBP to the thecal and granulosa cell layers of antral and preantral follicles with the most intense staining in the cells of large, healthy follicles. The tunica adventitia of arterial blood vessels also exhibited RBP staining. Immunostaining of CRBP was most intense in the granulosa cells of preantral follicles and present, but diminished, in thecal and granulosa cells of antral follicles. Within the corpus luteum, both proteins were observed in large luteal cells, but only RBP was observed in small luteal cells. Northern blot analysis demonstrated that thecal and granulosa cells from antral follicles and luteal tissue expressed RBP and CRBP mRNA. Synthesis and secretion of RBP by thecal cells, granulosa cells, and luteal cells were demonstrated by immune-complex precipitation of radiolabeled RBP from the medium of cultured cells or explants, followed by SDS-PAGE and fluorography. Follicular fluid was collected from small (<5 mm) and large (8-14 mm) follicles, pooled according to follicular size, and analyzed for retinol, RBP, estradiol-17beta, and progesterone. Concentrations of retinol, RBP, and estradiol were greater in the fluid of large follicles. Results demonstrate retinoid-binding protein expression by bovine ovaries and provide physical evidence that supports the concept that retinoids play a role in ovarian function.     

Apelin and APJ receptor expression in granulosa and theca cells during different stages of follicular development in the bovine ovary: Involvement of apoptosis and hormonal regulation

In the mammalian ovary, the microvasculature in the thecal layer of follicles is associated with follicular development. Apelin and its receptor, APJ, are expressed in the tissues and organs which include the vasculature. The aims of the present study were to examine the mRNA expression of apelin and the APJ receptor in granulosa cells and theca tissue of bovine follicles and the effects of steroid hormone and gonadotrophins on the expression of these genes in cultured granulosa cells and theca cells. The expression of apelin mRNA was not found in the granulosa cells of bovine follicles. The expression of the APJ gene was increased in granulosa cells of estrogen-inactive dominant follicles. The expression of apelin mRNA increased in theca tissues of estrogen-inactive dominant follicles. APJ expression in theca tissues increased with follicle growth. Progesterone stimulated the expression of APJ mRNA in the cultured granulosa cells. FSH stimulated the expression of APJ mRNA in the cultured granulosa cells. LH induced the expression of apelin and APJ receptor mRNAs in cultured theca cells. Taken together, our data indicate that the APJ receptor in granulosa cells and both apelin and the APJ receptor in theca tissues are expressed in bovine ovary, that APJ in granulosa cells may be involved in the appearance of the cell apoptosis, and that LH stimulates the expression of apelin and APJ genes in theca cells.     

Distribution of extracellular matrix proteins type I collagen, type IV collagen, fibronectin, and laminin in mouse folliculogenesis

The extracellular matrix (ECM) plays a prominent role in ovarian function by participating in processes such as cell migration, proliferation, growth, and development. Although some of these signaling processes have been characterized in the mouse, the relative quantity and distribution of ECM proteins within developing follicles of the ovary have not been characterized. This study uses immunohistochemistry and real-time PCR to characterize the ECM components type I collagen, type IV collagen, fibronectin, and laminin in the mouse ovary according to follicle stage and cellular compartment. Collagen I was present throughout the ovary, with higher concentrations in the ovarian surface epithelium and follicular compartments. Collagen IV was abundant in the theca cell compartment with low-level expression in the stroma and granulosa cells. The distribution of collagen was consistent throughout follicle maturation. Fibronectin staining in the stroma and theca cell compartment increased throughout follicle development, while staining in the granulosa cell compartment decreased. Heavy staining was also observed in the follicular fluid of antral follicles. Laminin was localized primarily to the theca cell compartment, with a defined ring at the exterior of the follicular granulosa cells marking the basement membrane. Low levels of laminin were also apparent in the stroma and granulosa cell compartment. Taken together, the ECM content of the mouse ovary changes during follicular development and reveals a distinct spatial and temporal pattern. This understanding of ECM composition and distribution can be used in the basic studies of ECM function during follicle development, and could aid in the development of in vitro systems for follicle growth.     

Immunohistochemical localization of epidermal growth factor receptor (EGF-r) and transforming growth factor alpha (TGF-alpha) in developing human ovarian follicles

In this study, we aimed to detect the distribution of epidermal growth factor receptor (EGF-r) and transforming growth factor alpha in ovarian follicles at different stages. Indirect immunohistochemical methods and EGF-r polyclonal and TGF-alpha monoclonal antibodies were used; tissues were examined with light microscope. While dense collection of both growth factors were observed in primordial follicles, there was a strong reaction especially for EGF-r in follicles. Strong reactivity for EGF-r and moderate reactivity for TGF-alpha were observed in the nearby connective tissue. In examinations of primary follicles for EGF-r presence only, dye uptake was moderate in oocytes and dense in apical and basal cytoplasm of follicle cells. Reactivity was moderate in the nearby connective tissue. In the corpus luteum, there was weak reaction for both growth factors. But in stromal cells, reaction was strong. In degenerated follicle cells and in stroma of atretic follicles, reaction was positive for both growth factors; but EGF-r reactivity was more obvious. While strong staining was observed for both factors especially in granulosa cells surrounding the oocyte in Graafian follicle, moderate TGF-alpha reactivity was determined in oocyte cytoplasm. In conclusion, it is possible that EGF-r and TGF-alpha have ortocrine and paracrine effects on development and regression of human ovarian follicles.     

Efficient isolation and long-term viability of bovine small preantral follicles in vitro

Summary A comparison of isolation techniques for small preantral follicles (30–70 μm) from bovine ovaries using a mechanical method with a grating device or collagenase treatment was performed. The mean number (157.0) of intact follicles per ovary isolated by the mechanical method was significantly greater (P<0.05) than that (26.0) of follicles isolated by the enzymatic method. Isolated morphologically normal follicles (MNF) were cultured for up to 30 d either in control cultures (non-coculture) or in coculture with bovine ovary mesenchymal cells (BOM), fetal bovine skin fibroblasts (FBF), and/or bovine granulosa cells (BGC). In control cultures, most of the follicles degenerated and only a few MNF (1.2%) were present after 30 d in culture. In contrast, the cocultures with BOM, FBF, and BGC resulted in 50.7, 46.6, and 21.4% viable MNF, respectively. Trypan blue and Hoechst 33258 staining were used for a quick and sensitive assessment of oocyte and granulosa cell viability during follicle isolation and culture in vitro. After 30 d, percentages of viable follicles in coculture with BOM (18.6%) and FBF (17.1%) were significantly greater than those of follicles in the control cultures (0%) or in coculture with BGC (10.0%). There was a gradual increase in the average diameter of the MNF during culture. The mean diameter of the follicles increased by 15.4 and 30.0% in coculture with BOM and FBF, respectively, by day 30. In conclusion, small bovine preantral follicles were efficiently isolated using a mechanical method that utilizes a grating device, and could be maintained for up to 30 d in the presence of mesenchymal cell cocultures such as BOM and FBF. This in vitro culture system that supports long-term survival of bovine preantral follicles should be beneficial for studying follicle growth and development.     

Ontogeny and cellular localization of 125I-labeled basic fibroblast growth factor and 125I-labeled epidermal growth factor binding sites in ovaries from bovine fetuses and neonatal calves.

We have recently reported that although specific 125I-FSH receptors are present in granulosa cells from primary and secondary follicles, gonadotropin responsiveness is very low in ovaries from bovine fetuses, which consist mainly of preantral follicles with few early antral follicles. It is well established that a number of polypeptide growth factors show pronounced mitogenic effects on follicular cells. Therefore, we have compared autoradiographically the ontogeny and cellular localization of basic fibroblast growth factor (bFGF) and epidermal growth factor (EGF) binding activities to assess their possible involvement in the regulation of early follicular growth in fetuses and neonatal calves. Follicular growth was initiated around Day 180 of gestation in fetuses. 125I-bFGF binding values were high in granulosa cells from preantral follicles (mean +/- SEM, 7.8 +/- 1.1-9.8 +/- 0.7 grains/cell, 0.05-0.15-mm diam.) but decreased in early antral follicles (0.16-3.0 mm) to a constant level (5.7 +/- 1.2 grains/cell). Specific 125I-EGF binding values were low in preantral follicles but showed a 2.5- and 5.0-fold increase in both granulosa cells and the theca interna from antral I (0.16-0.5 mm) and antral II follicles (0.6-3.0 mm), respectively. In atretic follicles, 125I-bFGF specific binding values were high (10.4 +/- 0.8 grains/cell), whereas 125I-EGF binding levels were significantly reduced or absent. None of the radioligands tested bound significantly to primordial follicles. There was no age-related difference in any ligand binding to follicles of comparable size. These results provide novel evidence that bFGF, a potent mitogen, is involved in the regulation of granulosa cell function as early as the preantral stage in cattle.(ABSTRACT TRUNCATED AT 250 WORDS)     

TrkB receptors are required for follicular growth and oocyte survival in the mammalian ovary

Although it is well established that both follicular assembly and the initiation of follicle growth in the mammalian ovary occur independently of pituitary hormone support, the factors controlling these processes remain poorly understood. We now report that neurotrophins (NTs) signaling via TrkB receptors are required for the growth of newly formed follicles. Both neurotrophin-4/5 (NT-4) and brain-derived neurotrophic factor (BDNF), the preferred TrkB ligands, are expressed in the infantile mouse ovary. Initially, they are present in oocytes, but this site of expression switches to granulosa cells after the newly assembled primordial follicles develop into growing primary follicles. Full-length kinase domain-containing TrkB receptors are expressed at low and seemingly unchanging levels in the oocytes and granulosa cells of both primordial and growing follicles. In contrast, a truncated TrkB isoform lacking the intracellular domain of the receptor is selectively expressed in oocytes, where it is targeted to the cell membrane as primary follicles initiate growth. Using gene-targeted mice lacking all TrkB isoforms, we show that the ovaries of these mice or those lacking both NT-4 and BDNF suffer a stage-selective deficiency in early follicular development that compromises the ability of follicles to grow beyond the primary stage. Proliferation of granulosa cells-required for this transition-and expression of FSH receptors (FSHR), which reflects the degree of biochemical differentiation of growing follicles, are reduced in trkB-null mice. Ovaries from these animals grafted under the kidney capsule of wild-type mice fail to sustain follicular growth and show a striking loss of follicular organization, preceded by massive oocyte death. These results indicate that TrkB receptors are required for the early growth of ovarian follicles and that they exert this function by primarily supporting oocyte development as well as providing granulosa cells with a proliferative signal that requires oocyte-somatic cell bidirectional communication. The predominance of truncated TrkB receptors in oocytes and their developmental pattern of subcellular expression suggest that a significant number of NT-4/BDNF actions in the developing mammalian ovary are mediated by these receptors.     

Effects of methoxychlor on IGF-I signaling pathway in rat ovary

Follicular development and other ovarian functions are regulated by growth factors that can be affected by exogenous agents. Methoxychlor (MXC) is an organochloride pesticide that causes female infertility. We investigated how MXC affects the distribution of developing ovarian follicles in adult rats after treatment between embryonic day (E) 18 and postnatal day (PND) 7. We also measured insulin-like growth factor-I (IGF-I) and its receptor, IGF-IR, expressions in ovarian follicles and investigated whether MXC changed the levels of IGF-I and IGF-IR in the ovary. Using immunohistochemical (IHC) staining, we detected IGF-I expression in oocytes and granulosa cells of the follicles, luteal cells, interstitial cells, theca externa and theca interna, and the smooth muscle of ovarian vessels. IGF-IR was co-localized with IGF-I in the ovary except for the theca externa. IGF-I expression was decreased in granulosa cells of preantral and antral follicles after treatment with MXC compared to granulosa cells of preantral and antral follicles of the control group. We also observed that oocytes of secondary follicles and granulosa cells of secondary and preantral follicles of the MXC treated groups showed increased IGF-IR expression compared to oocytes of secondary follicles and granulosa cells of secondary and preantral follicles of the control group. We also detected more secondary and preantral follicles, and fewer primordial and antral follicles after MXC administration compared to controls. Therefore, the IGF signaling pathway may participate in MXC induced ovary dysfunction and female infertility.     

BMPs and BMPRs in chicken ovary and effects of BMP-4 and -7 on granulosa cell proliferation and progesterone production in vitro

Bone morphogenetic proteins (BMPs) and their receptors (BMPRs) are now known to have important roles in mammalian ovarian folliculogenesis. This study determined the expression of the mRNA encoding for BMPs and their receptors in the chicken ovary and explored possible roles for them. The expression of the mRNA for BMP-2, -4, -6, -7, and BMPR-IA, -IB, and -II was determined and quantified by a semiquantitative RT-PCR. The mRNAs for all the BMPs and receptors determined were present in both the granulosa (G) and theca (T) cells of the F1, F2, and F3 follicles. All BMP mRNAs increased in G cells with follicular development, whereas only BMP-7 mRNA had this trend in the T cells. BMP-2, -4, and -6 mRNAs in T were similar between follicles. BMPR-IA mRNA was similar in F2G and F3G but lower in F1G. BMPR-IB mRNA was similar in G of all follicles, and BMPR-II mRNA increased with development. In the T, each receptor subtype showed equal distribution between follicles. mRNA levels for BMPR-IB and -II were higher in G than in T, suggesting that the G is a major target for BMPs. BMP-4 and -7 stimulated basal, IGF-I-, and gonadotropin-stimulated progesterone production by cultured G cells, with differential responses between cells from the F1 and F3/4. This suggests involvement in follicular differentiation. BMP-4 and -7 reversed the inhibitory effects of transforming growth factor (TGF)-alpha on basal and gonadotropin-stimulated G cell progesterone production, with greater effect in the F1 than in the F3/4. This effect suggests an important role for BMPs interacting with TGF-alpha in modulating the effects of gonadotropins and IGF-I on follicular differentiation. Finally, BMP-7 stimulated G cell proliferation, but BMP-4 inhibited TGF-alpha+ IGF-I- and/or FSH-stimulated G cell proliferation, suggesting a role in the control of follicular growth during development. These effects of BMP-4 and -7 on the G cell function showed relationships with the expression levels of the BMPs and the BMPR-II.     

Growth and antrum formation of bovine preantral follicles in long-term culture in vitro

Culture of preantral follicles has important biotechnological implications through its potential to produce large quantities of oocytes for embryo production and transfer. A long-term culture system for bovine preantral follicles is described. Bovine preantral follicles (166 +/- 2.15 micrometer), surrounded by theca cells, were isolated from ovarian cortical slices. Follicles were cultured under conditions known to maintain granulosa cell viability in vitro. The effects of epidermal growth factor (EGF), insulin-like growth factor (IGF)-I, FSH, and coculture with bovine granulosa cells on preantral follicle growth were analyzed. Follicle and oocyte diameter increased significantly (P < 0.05) with time in culture. FSH, IGF-I, and EGF stimulated (P < 0.05) follicle growth rate but had no effect on oocyte growth. Coculture with granulosa cells inhibited FSH/IGF-I-stimulated growth. Most follicles maintained their morphology throughout culture, with the presence of a thecal layer and basement membrane surrounding the granulosa cells. Antrum formation, confirmed by confocal microscopy, occurred between Days 10 and 28 of culture. The probability of follicles reaching antrum development was 0.19 for control follicles. The addition of growth factors or FSH increased (P < 0.05) the probability of antrum development to 0.55. Follicular growth appeared to be halted by slower growth of the basement membrane, as growing follicles occasionally burst the basement membrane, extruding their granulosa cells. In conclusion, a preantral follicle culture system in which follicle morphology can be maintained for up to 28 days has been developed. In this system, FSH, EGF, and IGF-I stimulated follicle growth and enhanced antrum formation. This culture system may provide a valuable approach for studying the regulation of early follicular development and for production of oocytes for nuclear/embryo transfer, but further work is required.     

Effects of estrogen, pituitary gonadotropins and prolactin on immunohistochemical localization of inhibin subunits in the ovary of hypophysectomized female rats.

Effects of estrogen, pituitary gonadotropins and prolactin on immunohistochemical localization of alpha- and beta A-subunits in the ovaries of hypophysectomized female rats were investigated. Hypophysectomy resulted in disappearance of immunoreactive inhibin subunits in the ovary. Administration of DES, FSH and LH to hypophysectomized rats provoked growth of follicles, and resulted in positive immunostaining for inhibin subunits in the granulosa cells. In contrast to follicle-stimulating hormone (FSH) and luteinizing hormone (LH), prolactin administration failed to demonstrate positive staining for inhibin subunits in the ovary. The present in vivo results suggest that several hormones which are known to stimulate granulosa cell growth and maturation, such as estrogen, FSH and LH, enhance inhibin subunit production by the ovary. The morphologic aspect of inhibin subunit production by the ovary in response to several hormones has been demonstrated in the present study.     

Comparative immunohistochemical distribution of connexin 37 and connexin 43 throughout folliculogenesis in the bovine ovary

Among gap junctional proteins previously identified in the mouse ovary, connexins (Cx) Cx37 and Cx43 appeared to be essential for normal follicular growth. The aim of this work was to detect Cx37 expression in the bovine ovary, then to quantify and compare its follicular distribution pattern with that of Cx43 using quantitative analysis of immunofluorescently labeled ovary sections viewed with a confocal laser scanning microscope. Cx37 immunoreactivity was detected in bovine ovarian follicles and was predominantly localized at preantral stages. Unlike follicular Cx43 expression which was restricted to granulosa cells, Cx37 staining was observed in both oocyte and granulosa cell compartments. While no changes were seen during early follicular growth, the level of Cx37 expression decreased significantly at the onset of antral cavity formation (P 相似文献   

Immunocytochemical analysis of the expression of gap junction protein connexin 43 in the rat ovary

The present immunocytochemical study examines in the rat ovary the pattern of expression of connexin 43 (Cx43), a subunit of gap junctions. Using a well-characterized specific antiserum against rat Cx43, immunoreactivity was not detected in the fetal ovary, i.e., prior to follicular formation. However, in the ovary of 20-day-old, 35-day-old, and adult rats, strong Cx43-immunore-activity was associated with the cell borders of the follicular epithelium/granulosa cells of all developmental stages (primordial follicles, preantral and antral secondary follicles). In general, immunoreactivity of the granulosa cells of large antral follicles appeared more intense than the one of smaller follicles. Staining was also seen in oocytes (cytoplasmic staining). Theca cells of large antral follicles, but not of small follicles were immunoreactive. Immunoreactive interstitial cells were not seen in ovaries of 20- and 35-day-old animals, but staining in these cells was present in adult rats. In large follicles with signs of atresia, granulosa cells lacked Cx43-immunoreactivity, whereas Cx43-immunoreactivity in their theca interna strikingly increased. Corpora lutea in the cyclic adult rats were heterogeneously stained, with either no detectable immunoreactivity, staining of cell borders of most luteal cells, or with conspicuous staining of only a few cells. In the pregnant animals on gestation days (GD) 12, 14, and 17, all luteal cells stained strongly for Cx43 at the cell surface. Shortly before delivery (GD 21), however, the staining pattern vanished and only few, presumably luteal cells remained immunoreactive. In Western blots (using homogenates of whole ovaries), the Cx43 antiserum recognized a major band of approximate Mr 43 × 10³, together with minor bands, which may reflect the presence of several differently phosphorylated Cx43 forms. This is indicated by treatment with alkaline phosphatase, which reduced the banding pattern to one single band. In summary, the gap junction molecule Cx43 is abundantly expressed in all endocrine compartments of the rat ovary. The staining pattern obtained in the present study indicates that Cx43 and presumably gap-junctional communication are associated with follicular development, atresia, and the development of the interstitial gland, as well as with the development and regression of the corpus luteum. The heterogeneous staining within the ovary furthermore hints to a contribution of the local intraovarian factors in the regulation of Cx43 expression. © 1995 Wiley-Liss, Inc.     

Distribution of ganglioside GM3 in the rat ovary after gonadotropin stimulation.

Gangliosides are ubiquitous membrane components in mammalian cells and are suggested to play important roles in various cell functions, such as cell-cell recognition, differentiation and transmembrane signalling. Ovaries have been shown to contain GM3 as a major ganglioside. To study GM3 distribution during gonadotropin stimulation in the hypophysectomized rat ovary, ovarian sections and cultured granulosa cells were stained with specific monoclonal antibody against GM3. Interstitial cells of follicles of immature hypophysectomized rat ovary expressed ganglioside GM3. Theca cells of early antral follicles but not primary follicles expressed GM3. No granulosa cells of these follicles expressed GM3. When a surge dose of FSH/LH was injected, Graafian follicles were formed and GM3 expression was detected in granulosa cells of these follicles. After ovulation, cumulus cells kept expressing GM3 in the ampulla region of ovulated oviduct. The follicles did not show GM3 expression in their granulosa cells after an ovulatory dose of FSH/LH. At 48 h after in vitro culture with FSH/LH of granulosa cells from preantral follicles, GM3 was expressed to a detectable extent on the outer part of the granulosa layer. Finally, at 72 h after culture, all granulosa cells became positive to anti-GM3 antibody. These data suggest that the expression of ganglioside GM3 in the hypophysectomized rat ovary is spatiotemporally regulated by FSH/LH during follicular development and ovulation.