Showing papers in "Biology of Reproduction in 1998"

Relative Impact of Oxidative Stress on the Functional Competence and Genomic Integrity of Human Spermatozoa

Abstract: Reactive oxygen metabolites are known to disrupt sperm-oocyte fusion, sperm movement, and DNA integrity; however, the relative sensitivities of these elements to oxidative stress are unknown. In this study these factors were assessed in human spermatozoa exposed to increasing levels of oxidative stress achieved through the stimulation of endogenous oxidant generation with NADPH or direct exposure to hydrogen peroxide. At low levels of oxidative stress, DNA fragmentation was significantly reduced while the rates of sperm-oocyte fusion were significantly enhanced. As the level of oxidative stress increased, the spermatozoa exhibited significantly elevated levels of DNA damage (p < 0.001) and yet continued to express an enhanced capacity for sperm-oocyte fusion. At the highest levels of oxidative stress, extremely high rates of DNA fragmentation were observed but the spermatozoa exhibited a parallel loss in their capacities for movement and oocyte fusion. These studies emphasize how redox mechanisms can either enhance or disrupt the functional and genomic integrity of human spermatozoa depending on the intensity of the oxidative stimulus. Because these qualities are affected at different rates, spermatozoa exhibiting significant DNA damage are still capable of fertilizing the oocyte. These results may have long-term implications for the safety of assisted conception procedures in cases associated with oxidative stress.

Regulation of protein phosphorylation during sperm capacitation

Abstract: After leaving the testis, mammalian spermatozoa from many species are morphologically differentiated but have acquired neither progressive motility nor the ability to fertilize a metaphase II-arrested egg. During epididymal transit, sperm acquire the ability to move progressively; however, they are still fertilization incompetent. Fertilization capacity is gained after residence in the female tract for a finite period of time. The physiological changes that confer on the sperm the ability to fertilize are collectively called ‘‘capacitation.’’ Capacitation was first described and defined independently by Chang [1, 2] and Austin [3, 4]. The definition of this poorly understood phenomenon has been modified and narrowed over the years. Although fertilization still represents the benchmark endpoint of a capacitated sperm, the ability of the sperm to undergo a regulated acrosome reaction (e.g., in response to the zona pellucida) can be taken as an earlier, upstream endpoint of this extratesticular maturational event. It must be stressed at this point that capacitation is also correlated with changes in sperm motility patterns, designated as sperm hyperactivation, in a number of species [5, 6]. There are examples of cases in which capacitation and hyperactivation can be dissociated experimentally [7], but one cannot yet argue that hyperactivation of motility represents an event completely independent of the capacitation process [6]. Therefore, when one attempts to understand the process of capacitation at the molecular level, it is necessary to consider events occurring both in the head (i.e., acrosome reaction) and in the tail (i.e., motility changes). The physiological site of capacitation in vivo is the oviduct or the uterus, depending on the species [5]. However, capacitation in vitro has been accomplished using cauda and/or ejaculated sperm incubated under a variety of conditions in defined media that mimic the electrolyte composition of the oviduct fluid. In most cases, these media contain energy substrates such as pyruvate, lactate, and glucose (depending on the species); a protein source that usually is serum albumin; NaHCO3; and Ca21. The action of these media components to promote capacitation at the molecular level is poorly understood and will be discussed in this review. This review is not intended to provide an ex-

A Vascular Endothelial Growth Factor Antagonist Is Produced by the Human Placenta and Released into the Maternal Circulation

Abstract: Vascular endothelial growth factor (VEGF) is a potent secreted factor that promotes angiogenesis and maintains the integrity of the endothelium. Levels of VEGF are increased in many tumors and are elevated in women with pre-eclampsia, a serious disease of pregnancy. Here we show by in situ hybridization that the trophoblast contains the mRNA encoding a soluble version of the VEGF receptor known as Flt-1 (sFlt-1: initially described by Kendall and Thomas, PNAS 90:10705-10709). Binding assays and Western blotting of villus-conditioned media confirmed the production of sFlt-1. Serum from pregnant women was found to contain a VEGF-binding protein that was not present in serum from men or nonpregnant women. As determined by heparin affinity, column fractionation, and cross-linking, this protein was identical to sFlt-1. Taken together, these results show that the placenta secretes sFlt-1, which would be expected to be a VEGF antagonist. This is the first report of production of the sFlt-1 receptor in vivo, and it reveals a new mechanism for naturally regulating this potent angiogenic agent. The presence of such an antagonist suggests that regulation of VEGF action is essential to successful pregnancy. This has important implications for the activity of VEGF locally and systemically in other conditions.

Cross-talk between peptide growth factor and estrogen receptor signaling pathways.

Abstract: The classical receptor for estradiol is a member of a super-family of nuclear receptors that function as hormone-regulated transcription factors. The ability of the estrogen receptor (ER)-alpha to activate target gene transcription is mediated by two transcriptional activation functions (AF): AF-1 located in the amino-terminal domain and AF-2 found in the carboxyl-terminal portion of the molecule. The ligand binding domain overlaps AF-2, and upon estrogen binding this region undergoes a conformational change that enables it to contribute to the receptor's transcriptional activity. ER activation is accompanied by increased phosphorylation, and in the absence of ligand, activators of protein kinase A or inhibitors of protein phosphatases are able to stimulate ER-dependent gene expression. More importantly, polypeptide growth factors, such as epidermal growth factor (EGF) and insulin-like growth factor-I (IGF-I), also stimulate the ER's transcriptional activity in an estrogen-independent manner. The AF-1 domain appears to be required for activation by EGF and IGF-I, and point mutation of a single phosphorylation site located within this domain inhibits the ability of growth factor to activate the ER. Thus, steroid receptor function may be regulated by estrogenic ligands as well as by pathway "cross-talk" from membrane receptors for growth factors.

Germ Cell Genotype Controls Cell Cycle during Spermatogenesis in the Rat

Abstract: Spermatogenesis is one of the most productive self-renewing systems in the body: on the order of 10(7) spermatozoa are produced daily per gram of testis tissue. In each mammalian species, the time required for completion of the process is unique and unalterable. Because the process is supported by somatic Sertoli cells, it has generally been thought that cell-cell interaction between germ and Sertoli cells controls the duration of cell cycles and cellular organization. We have used the newly developed technique of spermatogonial transplantation to examine which cell type(s) determines the rate at which germ cells proceed through spermatogenesis. Rat germ cells were transplanted into a mouse testis, and the mouse was killed 12.9-13 days after administration of a single dose of [3H]thymidine. The most advanced rat cell type labeled was the pachytene spermatocyte at stages VI-VIII of the spermatogenic cycle. In animals given only rat cells, some endogenous spermatogenesis of the mouse recovered. The most advanced labeled mouse cell types in recipients killed 12.9-13 days after administration of a single dose of [3H]thymidine were meiotic cells or young spermatids, which is consistent with a spermatogenic cycle length comparable to the 8.6 days reported for the mouse. The same results were obtained if a mixture of rat and mouse cells were transplanted. There existed two separate timing regimens for germ cell development in the recipient mouse testis; one of rat and one of mouse duration. Rat germ cells that were supported by mouse Sertoli cells always differentiated with cell cycle timing characteristic of the rat and generated the spermatogenic structural pattern of the rat, demonstrating that the cell differentiation process of spermatogenesis is regulated by germ cells alone.

Development of Early Porcine Embryos In Vitro and In Vivo

Abstract: In vitro development of early porcine embryos under different culture conditions was evaluated and compared to in vivo development. First, one- and two-cell embryos were collected and cultured individually in 20- microl drops under 5% CO2 in air for 4 days. Embryos from one oviduct were cultured in NCSU-23, and those from the contralateral oviduct were cultured in KSOM/AA. The embryos developed in NCSU-23 had a higher mean number of inner cell mass (ICM) nuclei compared to those developed in KSOM/AA (p = 0.025). They also had higher trophectoderm (TE) and total nuclear number (p = 0.001), while there was no difference in the average ratio of ICM to TE nuclei (p = 0.731). When the effect of different gas atmospheres was tested, the numbers of TE and total nuclei were higher (p < 0.01 and p < 0.025, respectively) in embryos cultured in an atmosphere with 5% CO2 in air than in those developed under 5% CO2:5% O2:90% N2. Next the development of embryos cultured in NCSU-23 was compared to that of embryos incubated in vivo. By the end of the 4-day incubation, the cultured embryos had higher nuclear numbers and a higher ratio of ICM to TE nuclei than those developed in vivo (p < 0.001). Finally, the embryos that developed in NCSU-23 or in vivo were transferred into recipients. By Day 40 of pregnancy, 37.1 +/- 15.3% of the in vitro- and 53.8 +/- 15.3% of the in vivo-incubated embryos formed conceptuses. These results indicate that despite the lower nuclear numbers caused by in vitro conditions, the cultured embryos were developmentally competent.

Development of parthenogenetic and cloned ovine embryos: effect of activation protocols.

Abstract: Preliminary experiments carried out on ovine oocytes were designed to establish correlations between activation protocols and subsequent rates of embryonic development. The best activation protocols were thereafter used in studies on ovine parthenogenesis and cloning. The first study established that chemical activators induce pronuclear development at a slightly higher rate than physical activation (ionomycin, 96%; ethanol, 95%; electro activation, 80%). Inhibition of second polar body extrusion and one single pronucleus were observed in the majority of the oocytes (approximately 90%) treated for 3 h with 6-dimethylaminopurine (6-DMAP) following either ionomycin or ethanol activation. While over 80% of these oocytes cleaved after transfer to the oviducts of recipients, progression to the blastocyst stage was higher after ionomycin as compared with ethanol activation (58% vs. 19%). The ionomycin plus 6-DMAP activation protocol was used to produce parthenogenetic blastocysts whose subsequent development was monitored both by ultrasonography and by direct fetal examination. Over 70% of parthenogenotes were viable on Day 21 of pregnancy but dead by Day 25. The effects of 6-DMAP on nuclear remodeling and fetal development of cloned embryos was then investigated. Control cloned embryos underwent nuclear envelope breakdown (NEBD), premature chromatin condensation (PCC), and inhibition of DNA synthesis. By contrast, reconstructed embryos treated with 6-DMAP exhibited intact nuclear membranes, interphase chromatin, and no interference on DNA synthesis. Moreover, cloned embryos developed to blastocyst stage in higher percentage after 6-DMAP treatment (83% vs. 25%). We conclude that ionomycin followed by 6-DMAP incubation yields high percentages of diploid parthenogenetic embryos that develop to Day 25 before dying. Cloned embryos activated by the ionomycin-6-DMAP protocol develop readily to term.

Analysis of mouse oocyte activation suggests the involvement of sperm perinuclear material.

Abstract: The mouse oocyte can be activated by injection of a single, intact mouse spermatozoon or its isolated head. Isolated tails are unable to activate the oocyte. Active sperm-borne oocyte-activating factor(s) (SOAF) appears during transformation of the round spermatid into the spermatozoon. The action of SOAF is not highly species-specific: mouse oocytes are activated by injection of spermatozoa from foreign species, such as the hamster, rabbit, pig, human, and even fish. Some SOAF can be extracted by simple freeze-thawing of (hamster) spermatozoa; additional SOAF is obtained by sequential treatment of spermatozoa with Triton X-100 and SDS. Electron microscopic examination of sperm heads during SOAF extraction suggests that the relatively insoluble SOAF is associated with perinuclear material. When microsurgically injected into oocytes, Triton X-100-treated sperm heads (with perinuclear material, but without any membranes) can activate the oocytes, leading to normal embryonic development. Whereas perinuclear components have been believed to play a purely structural role, these data suggest an additional function for them in oocyte activation.

Seminal transforming growth factor beta1 stimulates granulocyte-macrophage colony-stimulating factor production and inflammatory cell recruitment in the murine uterus.

Abstract: Mating in rodents evokes an inflammatory-like reaction within the uterine endometrium, characterized by extensive infiltration and activation of macrophages, dendritic cells, and granulocytes. This response is initiated when seminal vesicle gland-derived factors in the ejaculate stimulate uterine epithelial cells to release proinflammatory cytokines including granulocyte-macrophage colony-stimulating factor (GM-CSF). Experiments in which seminal vesicle secretions were fractionated by Sephacryl S-400 chromatography and assayed in vitro for GM-CSF-stimulating activity revealed that the seminal moiety coeluted with transforming growth factor beta1 (TGFbeta1) in the 150-440-kDa range and was neutralized by anti-TGFbeta1 antibodies. Comparable amounts of recombinant TGFbeta1 stimulated GM-CSF release in cultures of uterine epithelial cells from estrous mice and, when instilled into the uterine lumen, caused an increase in GM-CSF content and an infiltration of leukocytes into the endometrium similar to the postmating response. These results show that seminal vesicular fluid contains TGFbeta1 at levels sufficient to be the primary causative agent in the postmating inflammatory cascade through induction of GM-CSF synthesis by uterine epithelial cells. Seminal TGFbeta1 is thus implicated as a key factor in initiation of the remodeling events and immunological changes that occur in the uterus during the preimplantation period of pregnancy.

Expression and immunolocalization of functional cytochrome P450 aromatase in mature rat testicular cells.

Abstract: Aromatase activity has been measured in Leydig cells and Sertoli cells from both immature and mature rats. Cytochrome P450 aromatase (P450arom) has been immunolocalized in germ cells of the rodent, bear, and rooster. Our purpose was to investigate expression of and to immunolocalize P450arom in adult rat testicular cells. After Western blotting with a specific anti-cytochrome P450arom antibody, we demonstrated the presence of a 55-kDa protein in mature rat seminiferous tubules and crude germ cell preparations. Immunoreactive aromatase was detected both in cultured rat Leydig cells and in testis sections (interstitial tissue and elongated spermatids showed positive immunoreactivity for P450arom). We next used reverse transcription-polymerase chain reaction to localize and quantify the P450arom mRNA in the various testicular cells. In rat Leydig cells, the amount of P450arom mRNA was 15 times higher than in Sertoli cells (34.1+/-3.2 to 2.3 +/-0.2 x 10(-3) amol/10(6) cells, respectively). In pachytene spermatocytes, round spermatids, and testicular spermatozoa the P450arom mRNA levels were 38.7+/-8.1, 20.4+/-3.8, and < 1.3 x 10(-3) amol/10(6) cells, respectively. The aromatase activity was 2.5-4 times higher in testicular spermatozoa (8.48+/-1.98 fmol/10(6) cells per hour) than in other germ cells. These results indicate that in mature rats, not only Leydig cells and Sertoli cells but also germ cells have the capacity to express functional P450arom. According to the germ cell maturation state, there was an inverse relationship between P450arom mRNA content and the biological activity of the protein. The expression of the functional P450arom in mature rat germ cells confirms the existence of an additional source of estrogens within the genital tract of the male.

Major Proteins of Bovine Seminal Plasma and High-Density Lipoprotein Induce Cholesterol Efflux from Epididymal Sperm

Abstract: One of the hypotheses to explain the mechanism of capacitation involves the loss of sperm membrane cholesterol. Here, we studied whether or not the major proteins of bovine seminal plasma designated as BSP-A1, -A2, -A3, and -30-kDa (collectively called BSP proteins), which are implicated in sperm capacitation, induce cholesterol efflux. When epididymal sperm were labeled with [3H]cholesterol and incubated with bovine seminal plasma (0.05-2%) or BSP proteins (20-120 microg/ml) for 8 h, the sperm lost [3H]cholesterol (3.6-fold and 3-fold, respectively). The same results in the presence of BSP-A1/-A2 were obtained (3.5-fold) by direct determination of cholesterol on unlabeled epididymal sperm. Analysis of efflux particles by ultracentrifugation on a sucrose gradient revealed a single symmetrical peak of radioactivity at 1.14 g/ml. Immunoblotting of the fractions obtained from size-exclusion chromatography of the efflux particles showed that a portion of the BSP proteins were associated with [3H]cholesterol. Heparin (12 microg/ml) alone did not stimulate cholesterol efflux. In contrast, high-density lipoprotein (HDL, 100 microg/ml) alone stimulated cholesterol efflux up to 3.1-fold after 8 h. When labeled epididymal sperm were preincubated for 20 min with BSP-A1/-A2 (120 microg/ml), washed, and incubated with HDL (100 microg/ml) for 8 h, the total cholesterol efflux of the sperm suspension was 51.8 +/- 5.0% compared to 39.3 +/- 1.2% when HDL alone was used. These results indicate that BSP proteins and HDL play an important role in the sperm sterol efflux that occurs during capacitation. Furthermore, the heparin-induced sperm capacitation did not involve the efflux of sperm membrane cholesterol.

A Perspective on the Control of Mammalian Fertilization by Egg-Activated Ion Channels in Sperm: A Tale of Two Channels

Abstract: Mammalian sperm contain a single large secretory vesicle, or acrosome. Exocytosis of this vesicle (the acrosome reaction) occurs as an early step in the gamete interaction process and is an essential prerequisite for late events, including sperm-egg fusion [1]. The control of fertilization is, from this perspective, a question of the regulation of a secretory event. It may be useful to compare sperm to other secretory systems. Typical somatic secretory cells such as mast cells, the neuronal presynaptic terminal, and exocrine cells contain large numbers of secretory vesicles whereas sperm possess a single acrosome. Those familiar somatic secretory models tolerate a low level of basal vesicle release that is augmented upon the arrival of an external stimulus. For example, miniature synaptic potentials are due to the stochastic release of individual vesicles, and stimuli, in the form of membrane depolarization, increase the number of released vesicles [2, 3]. In contrast, it can be argued that spontaneous exocytosis must be strictly controlled in sperm and may require a specialized regulatory mechanism. Key elements in this argument include the observations that 1) sperm that complete the acrosome reaction at a distance from eggs have decreased capacity to penetrate through the cumulus oophorus [4] and to adhere to the egg’s extracellular matrix, or zona pellucida [5, 6], and 2) sperm that fail to initiate acrosome reactions cannot penetrate the zona pellucida and hence are denied access to the egg plasma membrane [1]. Sperm consequently face an ‘‘acrosome reaction problem,’’ in which secretion must be coordinated with egg contact and yet spontaneous secretory rates must be suppressed. It is now understood that the initiation of acrosome reactions during egg contact is accomplished by the presence in the zona pellucida of an acrosome reaction-inducing agonist, the glycoprotein ZP3 [7]. However, individual sperm must still prevent spontaneous secretion until the time of sperm-egg contact. One common theme in the regulation of exocytotic processes is the general role of intracellular Ca21 ([Ca]i) as a mediator of stimulus-secretion coupling. In both sperm and somatic cells, elevations of [Ca]i are necessary and

Prostaglandin F2alpha regulates distinct physiological changes in early and mid-cycle bovine corpora lutea.

Abstract: Prostaglandin (PG) F 2α is the primary luteolysin in most species. A single treatment with PGF 2α will cause regression of the mid-cycle but not the early-cycle (Days 1-5 after estrus) bovine corpus luteum (CL) despite the presence of similar concentrations of high-affinity PGF 2α receptors (FP receptors). This study was designed to determine whether PGF 2α activated similar intracellular processes in early- and mid-cycle CL. Cows received saline or 25 mg PGF 2α injection (i.m.; n = 6/group) on Day 4 or 11 after onset of the LH surge (induced by GnRH injection), and CL were collected at 4 h after treatment. As expected, CL volumes and luteal weights were not different at 4 h after PGF 2α treatment. Luteal vitamin C concentration and steady-state concentrations of mRNA for 3β-hydroxysteroid dehydrogenase and for FP receptor were decreased by 4 h in both Day 4 and 11 CL treated with PGF 2α (p < 0.05). These results demonstrate clear actions of PGF 2α in the early CL. In contrast, steady-state concentrations of mRNA encoding PG G/H synthase-2 (PGHS-2) were increased by treatment with PGF 2α in mid-cycle CL but decreased by PGF 2α in early-cycle CL (p < 0.05). In addition, treatment of mid-cycle but not early-cycle cows with PGF 2α decreased luteal and serum progesterone concentrations by 4 h (p < 0.05). In summary, PGF 2α clearly exerts actions in both early-and mid-cycle bovine CL. The lack of PGF 2α -induced luteolysis in the early CL may be due to specific changes in gene expression, especially PGHS-2, that may prevent intraluteal PGF 2α production and possibly other key luteolytic processes.

Abnormalities in Functional Development of the Sertoli Cells in Rats Treated Neonatally with Diethylstilbestrol: A Possible Role for Estrogens in Sertoli Cell Development

Abstract: Diethylstilbestrol (DES) was administered neonatally (Days 2-12; 10 microg on alternate days) to rats, and developmental changes in Sertoli cell function were evaluated at 18, 25, and 35 days of age and compared to those observed in rats administered a GnRH antagonist (GnRHa; Days 2 and 5; 10 mg/kg) or a vehicle (controls). DES and GnRHa treatments resulted in similar reductions in both Sertoli cell numbers (40% for DES, 48% for GnRHa) and suppression of testicular growth at 18 and 25 days, though by 35 days the suppression was more pronounced (p 60% reduction in testis weight with many Sertoli cell-only tubules and very low daily sperm production. Taken together, these data are interpreted as providing evidence for direct modulation of Sertoli cell (maturational) development by DES.

Caspase-3 in the rat ovary: localization and possible role in follicular atresia and luteal regression.

Abstract: Apoptosis, the cellular mechanism of ovarian follicular atresia and luteal regression, is triggered by the activation of a proteolytic cascade of cysteine aspartate-specific proteases (caspases). The principle downstream effector of cell death is caspase-3, but little is known about the role or regulation of this enzyme in ovarian apoptosis. Two substrates of caspase-3, actin and poly(ADP-ribose) polymerase (PARP), are inhibitors of DNase I, which is the endonuclease responsible for ovarian apoptotic DNA degradation. We therefore investigated the proteolytic cleavage of actin and PARP as well as the localization of caspase-3 during follicular atresia (induced by gonadotropin withdrawal) and luteal regression (induced by prostaglandin F2alpha) in the rat ovary. Apoptotic DNA degradation was evident during both follicular atresia and luteal regression, but cleavage of PARP and actin was observed only during luteal regression. Caspase-3 was localized in luteal cells of healthy corpora lutea (CL) and in theca, but not in granulosa cells of healthy follicles. However, caspase-3 immunostaining was evident in granulosa cells of atretic follicles in a pattern similar to that of the localization of granulosa cell death. There was no difference between healthy and apoptotic CL in the distribution or intensity of caspase-3 staining. These results demonstrate that the cleavage of actin and PARP are not necessary for activation of apoptotic DNA degradation during ovarian apoptosis. In addition, the presence of caspase-3 in granulosa cells of atretic, but not healthy, follicles suggests that the expression of this enzyme is regulated by gonadotropin and may be up-regulated as part of the apoptotic process in granulosa cells.

Maturation in vitro of pig oocytes in protein-free culture media: fertilization and subsequent embryo development in vitro.

Abstract: In the present study, attempts were made to develop a protein-free (PF) in vitro maturation (IVM) system for pig oocytes and to examine subsequent embryo development after in vitro fertilization. In experiment 1, four IVM media were tested: 1) control: North Carolina State University (NCSU) 23+10% porcine follicular fluid; 2) PF-NCSU: NCSU 23+0.1% polyvinyl alcohol (PVA)+1% amino acids; 3) PF-TCM: Tissue culture medium (TCM) 199+PVA; and 4) PF-WM: PF-Waymouth MB 752/1 medium (WM)+PVA. Oocytes were cultured in the respective media containing eCG and hCG (10 lU/ml each) for 20-22 h and then without hormonal supplements for an additional 20-22 h. After culture, the degree of cumulus expansion and frequency of nuclear maturation were determined. Some oocytes were coincubated with frozen-thawed spermatozoa for 5-6 h in modified Tris-buffered medium containing caffeine and BSA. In experiment 2, oocytes were matured in control, PF-TCM, and PF-WM, fertilized in vitro, and cultured for 144 h in NSCU 23+BSA. Fewer (p < 0.01) oocytes reached metaphase II stage in PF-NCSU (45% vs. 80-85%) than in the other media. Oocytes matured in control medium showed the most cumulus expansion, followed by those in PF-TCM and PF-WM; those in PF-NCSU showed very slight expansion. A lower (p < 0.05) penetration rate was obtained for oocytes matured in PF-NCSU than in the control medium (59% vs. 81%). In contrast to those in control (96%) and PF-TCM (93%), oocytes in PF-WM (65%) showed a lower male pronuclear formation. Compared to that in the control, a significantly lower (p < 0.05) cleavage rate was also observed for oocytes matured in PF-WM. Similar proportions of embryos developed to the blastocyst stage when oocytes were matured in control (22%) and PF-TCM (13%). These results indicate that pig oocytes can be successfully matured in a protein-free medium with subsequent development to the blastocyst stage.

Yeast two-hybrid: so many interactions, (in) so little time...

Abstract: Protein-protein interactions are essential to cellular mechanisms at all levels in biologically responsive systems. These interactions occur extracellularly and include ligand-receptor interactions, cell adhesion, antigen recognition, and virus-host recognition. Intracellular protein-protein interactions occur in the formation of multi-protein complexes, during the assembly of cytoskeletal elements, and between receptor-effector, as well as effector-effector, molecules of signal transduction pathways. Finally, assembly of transcriptional machinery involves protein interactions. The yeast two-hybrid method is a powerful technique for analyzing these protein-protein interactions. Since the publication of this technique in the late 1980s, the robust nature and far-reaching utility of yeast two-hybrid systems for functional expression library cloning has led to the identification of many novel proteins in all areas of biological life science research. Additionally, two-hybrid techniques provide a rapid and versatile system for the further characterization of discrete protein-protein interactions. Recent variations on the basic system have enabled application well beyond protein pairs, to investigate multi-protein complexes and protein-nucleotide interactions. Yeast two-hybrid methods necessitate expression and subsequent interaction between a "protein of interest" functional pair within the yeast cell, ultimately driving reporter gene expression and thus effectively linking protein-protein interaction(s) to a change in yeast cell phenotype. Functional protein-protein interactions using the two-hybrid techniques have been demonstrated for all levels of cellular biology; however, until recently, extracellular protein-protein interactions were excluded from investigations using this technique. Investigations from several labs have now demonstrated that extracellular proteins can be studied using two-hybrid methods, thereby enabling intense study of extracellular protein partners using the robust nature and the genetic power of yeast.

Effect of Calf Isolation on Follicular Wave Dynamics, Gonadotropin and Metabolic Hormone Changes, and Interval to First Ovulation in Beef Cows Fed Either of Two Energy Levels Postpartum

Abstract: The effects of postpartum energy intake, restricted suckling, and cow-calf isolation on concentrations of LH, FSH, growth hormone, and insulin-like growth factor-I (IGF-I) and on postpartum anestrous interval were determined by randomly allocating beef cows with a mean body condition score of 2.3 +/- 0.1 to receive either 80 MJ metabolizable energy (low-energy diet [L]; n = 51) or 120 MJ metabolizable energy (high-energy diet [H]; n = 52) per cow per day from calving. At 30 days postpartum, cows within diet were randomized to 1) have continued full access to their calves from birth to weaning (ad libitum suckling: ADLIB), 2) be suckled once-daily with their calves penned adjacent (restricted suckling, adjacent: RESADJ), 3) be isolated from all calves except for a once-daily suckling period (restricted suckling, isolated: RESISO). The mean postpartum interval was similar (p > 0.10) for L and H cows (62 and 63 days, respectively). RESADJ cows had a shorter (p 0.10) of diet. FSH secretion pattern was not affected by diet, suckling treatment, sequential follicle wave number, or follicle wave retrospectively realigned to emergence of first ovulatory wave. Within 5 days of suckling restriction and calf isolation, the number of LH pulses increased from 0.18 to 0.48 pulses per hour (p < 0.05). Both mean LH and the mean number of LH pulses increased linearly (p < 0.01) during the six follicle waves up to the first ovulatory wave. From 80 days before, until the time of, first ovulation, growth hormone decreased (p < 0.05) while IGF-I increased (p < 0.05), irrespective of treatment. The results indicate that the "suckling effect" in beef cows is the major factor affecting the duration of the postpartum interval and suggests that the maternal bond is more important than suckling in regulating LH pulse frequency, the key endocrine factor determining whether or not a dominant follicles ovulates. Removal of the suckling effect resulted in a rapid increase in LH pulse frequency, which was not dependent on level of postpartum nutrition, at least within the nutritional limits of this study. Mean concentrations of FSH, unlike LH, did not vary with follicle wave number, suggesting that lack of FSH is not a major factor delaying the resumption of ovulation in postpartum beef cows.

Mutual and Intercompartmental Regulation of Estrogen Receptor and Progesterone Receptor Expression in the Mouse Uterus

Abstract: The epithelial and stromal compartments of the uterus undergo significant estrogen- and progesterone (P4)-induced changes during the estrous cycle. While in the adult mouse, epithelial proliferation and stromal inflammation are induced by estrogen, P4 is antiproliferative in the epithelium and both proliferative and anti-inflammatory in the stroma. In light of these compartmentally varying roles, we have immunohistochemically examined estrogen and P4 regulation of the expression of their receptors (ER and PR) and their epithelial target gene lactoferrin (LF) in wild-type and PR null mutant mice. We demonstrate that estrogen exerts compartment-specific effects on the expression of ER, resulting in decreased levels of stromal and glandular epithelial (GE) ER and increased luminal epithelial (LE) and myometrial ER. Estrogen also has dual effects on PR expression, decreasing levels in the LE while at the same time increasing levels in the stroma and myometrium. Estrogen and P4 together mediate their effects in part through the ability of P4 to selectively inhibit myometrial ER expression while preserving GE expression. We also demonstrate a general negative feedback by P4 on PR expression that is most prominent in the GE. Finally, we demonstrate using the estrogen- and P4-responsive epithelial target gene LF that the differential regulation of PR in the glandular and luminal epithelium results in different functional responses of these compartments to P4. Together, our data indicate that the pleiotropic effects of estrogen and P4 in the adult mouse uterus are mediated by complex hormonal interregulation of ER and PR in specific uterine compartments.

Effect of cryopreservation of bovine sperm organelle function and viability as determined by flow cytometry.

Abstract: Flow cytometry was used to compare the functional status of fluorescently stained sperm organelles from 12 Holstein bulls after storage for 24 h at 5 degrees C and after cryopreservation. The organelle-specific stains, SYBR-14 and LysoTracker Green DND-26, identified spermatozoa with intact plasmalemma and those with intact acrosomes, respectively. The mitochondria-specific stain, 5,5',6,6'-tetrachloro-1,1',3,3'-tetraethylbenzimidazolyl-carbocyan ine iodide (JC-1), identified two populations of spermatozoa. One population stained red-orange because the JC-1 accumulated in the mitochondria as aggregates (characteristic of cells exhibiting a high membrane potential); a second population stained green because of JC-1 monomers within the mitochondria (characteristic of cells exhibiting a lower membrane potential). Analysis of variance revealed that within bulls, the properties of sperm viability, intact acrosomes, and mitochondrial status differed in spermatozoa stored for 24 h (p 0.11). Linear regression analyses resulted in significant models in which the proportions of stained spermatozoa stored for 24 h were indicative of those proportions observed in the cryopreserved fractions. These findings suggest that the plasmalemma, the acrosome, and the mitochondria of unfrozen spermatozoa varied as to their functional status. The cryopreservation process, however, resulted in a more uniform status of sperm organelles.

Adipose obese gene product, leptin, inhibits bovine ovarian thecal cell steroidogenesis.

Abstract: Leptin, a recently-discovered hormonal product of the obese (ob) gene, circulates in the blood at levels paralleling those of fat reserves and regulates satiety. Although noninsulin-dependent diabetics are insulin-resistant and have greater levels of leptin than normal subjects, little evidence existed previously to support the notion that leptin can influence insulin action, particularly in the ovary. Therefore, we tested the hypothesis that leptin signals metabolic information to the reproductive system by directly affecting insulin-induced thecal cell function. Thecal cells from bovine ovarian follicles were cultured for 2 days in the presence of 10% fetal calf serum, and then cultured for an additional 2 days in serum-free medium with added hormones. Doses of 10 to 300 ng/ml of leptin increased (p 0.10) on thecal cell viability. Specific high-affinity, low-capacity binding of 125I-leptin was also demonstrable in thecal cells. Furthermore, leptin did not compete for [125I]insulin binding to thecal cells, whereas unlabeled insulin did. In conclusion, leptin can directly attenuate insulin-induced steroidogenesis of thecal cells while stimulating proliferation of the same cell type. This inhibitory effect of leptin on steroidogenesis does not appear to be mediated through inhibiting binding of insulin to its receptor but rather appears to be mediated through leptin binding to its own receptor. These results provide evidence for a role of leptin as a metabolic signal to the reproductive system via direct action in the ovary.

Autonomous cell death of mouse male germ cells during fetal and postnatal period

Abstract: Germ cell degeneration is common in mammalian testes during the developmental as well as the adult period. To investigate the extent and mechanisms of male germ cell death during fetal and neonatal life, the testes of mice at various fetal and postnatal ages extending from 13 days of gestation to 7 wk after birth were examined by electron microscopy and/or terminal deoxynucleotidyl transferase-mediated dUTP nick end-labeling (TUNEL). Electron microscopy revealed that the number of cells with typical features of spermatogenic cell apoptosis was highest at 13 days of gestation, coinciding with the time of immigration of primordial germ cells into gonads. A second peak was observed around 10-13 days after birth when the first wave of spermatogenesis had started and active spermatogonial proliferation was present. Surprisingly, we found a significant number of dying cells around birth, which exhibited morphological features of necrotic death. In agreement with the results of electron microscopy, TUNEL staining revealed that the dying germ cells present around birth were TUNEL negative, while positive nuclei were abundant in the lumen of seminiferous tubules of testes of 10- to 13-day-old mice. To investigate the mechanisms of induction of germ cell death, we examined the expression of Fas antigen immunohistochemically using rabbit antiserum raised against synthetic peptides for part of mouse Fas antigen. We found that among various developmental stages investigated, positive immunostaining for Fas antigen was present between 17 days of gestation and 1 day after birth, with the most intensive staining occurring on 17 days of gestation. Therefore, Fas-induced pathways may be implicated in embryonic male germ cell death, not prepubertal spermatogenic cell death.

Identification of a fertility-associated protein in bull seminal plasma as lipocalin-type prostaglandin D synthase.

Abstract: The objective of this study was to characterize a 26-kDa seminal plasma protein previously shown to be prevalent in bulls of high fertility Spots of this protein, excised and electroeluted from two-dimensional SDS-PAGE gels, were used for N-terminal amino acid sequencing and for preparation of antiserum in rabbits The N-terminal amino acid sequence (ALQPNFEEDKFLGRWFTSGL) was 75% identical and 100% homologous to lipocalin-type prostaglandin (PG) D synthase isolated from human cerebrospinal fluid (CSF) Western blots of purified 26-kDa protein cross-reacted with polyclonal antibodies against lipocalin-type PGD synthase isolated from rat brain and human CSF Immunoreactive bands at 26 kDa appeared in Western blots of seminal plasma and cauda epididymal fluid (CEF) A 29-kDa band appeared in blots of rete testis fluid (RTF) PGD synthase activity was detected in seminal plasma, CEF, and RTF The cDNA for bovine lipocalin-type PGD synthase, isolated by reverse transcription-polymerase chain reaction, contained a coding region of 573 base pairs corresponding to 191 amino acids The amino acid sequence was 63-80% identical to that of the enzyme of other mammals These results establish that the 26-kDa fertility-associated protein in bull seminal plasma is lipocalin-type PGD synthase Although we do not yet know the role of lipocalin-type PGD synthase in the male genital tract, we speculate that this protein may play an important role in both the development and the maturation of sperm

Insulin and Insulin-like Growth Factor-I Promote Rabbit Blastocyst Development and Prevent Apoptosis

Abstract: Insulin as well as insulin-like growth factor-I (IGF-I) promote early embryo development, and IGF-I binds to the coats of preimplantation rabbit embryos. As the IGF-I receptor is expressed from the morula stage onwards, the embryos are capable of responding to insulin and IGF-I, which is present in the oviductal and uterine secretions that surround them. The embryonic coats were removed to exclude any influence by IGF-I bound to the coats. The in vitro development of such embryos under classical conditions appears to be retarded. Addition of IGF-I (68 pM-6.8 nM) or insulin (68 nM-6.8 microM), however, promotes blastocyst formation. Embryo development under such conditions is not significantly different from that of embryos cultured with intact coats. In contrast, coat-free embryos cultured without IGF-I or insulin supplementation show apoptosis. Because IGF-I stimulates cell proliferation and prevents apoptosis, we investigated whether insulin or IGF-I may act as "survival factors" in preimplantation development. Therefore, apoptosis was induced by slight UV irradiation (254 nm wave length; 11.8 W/m2). Compared to the untreated controls, embryos displaying retarded development or degeneration were increased by 22% and 14%, respectively. Addition of IGF-I or insulin to the culture medium of UV-irradiated embryos improved [3H]thymidine incorporation and blastocyst formation significantly. By immunohistochemistry we could show that addition of insulin (0.68-68 nM) decreased apoptosis and increased cell proliferation in a dose-dependent manner, supporting blastocyst development significantly.

Cryopreservation and orthotopic transplantation of mouse ovaries: new approach in gamete banking.

Abstract: Mouse half ovaries were cryopreserved and orthotopically transplanted into ovariectomized recipients genetically identical to ovary donors except for the coat color gene. Fertility was reestablished in 57% of the female recipients, which became pregnant in an average of 40 days after transplantation of frozen-thawed half ovaries. These experiments demonstrate that ovary cryopreservation can be a very useful option for banking mouse germplasm, or managing subfertile animal colonies, when embryo or sperm freezing cannot be used or is not cost effective.

Mammalian Male and Female Germ Cells Express a Germ Cell-Specific Y-Box Protein, MSY2

Abstract: Here we report the isolation and characterization of mouse testicular cDNAs encoding the mammalian homologue of the Xenopus germ cell-specific nucleic acid-binding protein FRGY2 (mRNP3+4), hereafter designated MSY2. MSY2 is a member of the Y box multigene family of proteins; it contains the cold shock domain that is highly conserved among all Y box proteins and four basic/aromatic islands that are closely related to the other known germline Y box proteins from Xenopus, FRGY2, and goldfish, GFYP2. Msy2 undergoes alternative splicing to yield alternate N-terminal regions upstream of the cold shock domain. Although MSY2 is a member of a large family of nucleic acid-binding proteins, Southern blotting detects only a limited number of genomic DNA fragments, suggesting that Msy2 is a single copy gene. By Northern blotting and immunoblotting, MSY2 appears to be a germ cell-specific protein in the testis. Analysis of Msy2 mRNA expression in prepubertal and adult mouse testes, and in isolated populations of germ cells, reveals maximal expression in postmeiotic round spermatids, a cell type with abundant amounts of stored messenger ribonucleoproteins. In the ovary, MSY2 is present exclusively in diplotene-stage and mature oocytes. MSY2 is maternally inherited in the one-cell-stage embryo but is not detected in the late two-cell-stage embryo. This loss of MSY2 is coincident with the bulk degradation of maternal mRNAs in the two-cell embryo.

Factors Affecting the Developmental Competence of Mouse Oocytes Grown In Vitro: Follicle-Stimulating Hormone and Insulin

Abstract: This study was undertaken to test the hypothesis that FSH treatment of cultured oocyte-granulosa cell complexes promotes acquisition of competence to complete preimplantation embryo development. Oocyte-granulosa cell complexes were isolated from the preantral follicles of 12-day-old mice and cultured for 10 days in serum-free medium, supplemented with insulin (5 microgram/ml), transferrin (5 microgram/ml), and selenium (5 ng/ml) and containing a highly potent preparation of FSH (0-5 ng/ml). Oocytes were matured and fertilized in vitro and embryos cultured to determine the frequency of development to the blastocyst stage. There was no effect of FSH on oocyte size, general morphology, or competence to resume meiosis. However, addition of FSH to medium containing insulin had a deleterious effect on the percentage of mature oocytes competent to develop to the blastocyst stage. Deletion of insulin from the medium for culture of oocyte-granulosa cell complexes prevented the deleterious effect of FSH, but FSH still did not promote acquisition of competence to complete preimplantation development. Culture of oocyte-granulosa cell complexes with FSH resulted in elevated expression of LH receptor (LHR) mRNA by granulosa cells and stimulated the production of functional LHRs, whether or not insulin was present. However, FSH-induced expression of LHR mRNA reached a maximum steady-state level by 4 days of culture in the presence of insulin, but this level was not reached until 10 days of culture without insulin. Granulosa cells encompassing growing mouse oocytes in vivo do not express LHR mRNA. Thus, expression of LHR mRNA by granulosa cells closely associated with growing oocytes in vitro indicates inappropriate or ambiguous development. In conclusion, conditions occurring during oocyte growth can have profound detrimental effects on oocyte developmental competence to complete preimplantation development, even when oocyte growth, general morphology, and competence to resume meiosis appear unaffected.