Bee Venom Causes Oxidative Stress, Biochemical and Histopathological Changes in the Kidney of Mice.

Accidents with venomous bees are a serious worldwide health concern. Since the kidney has been reported as the main venom-target organ, the present study was undertaken to investigate the in vivo nephrotoxic effect of Algerian bee venom (ABV) (Apis mellifera intermissa) collected in the middle east of Algeria. A preliminary study was performed on ABV to identify the ABV using SDS-PAGE analysis and to determine the in vivo intraperitoneal median lethal dose (LD50) using the Probit analysis test. In vivo nephrotoxic effect was assessed through the determination of physiological and kidney biochemical markers in mice intraperitoneally injected with ABV at doses of 0.76 (D1); 1.14 (D2) and 2.29 mg/kg body weight (bwt) (D3), corresponding respectively to LD50/15, LD50/10, and LD50/5 (i.p. LD50=11.48 mg/kg bwt) for seven consecutive days. Results revealed a marked decrease in body weight gain and food intake, and an increase in absolute and relative kidney weights in ABV D2 and D3 treated mice compared with controls. Furthermore, ABV D2 and D3 resulted in a significant increase in serum creatinine, urea, and uric acid. ABV-induced oxidative stress was evidenced by a significant increase in kidney MDA level, and a significant depletion in kidney GSH level, and catalase activity. Meanwhile, no marked changes in the above-mentioned parameters were noticed in ABV D1. Accordingly, the adverse nephrotoxic effect of ABV was proved by the dose-dependent kidney histological changes. In summary, the results of the present study evidence that ABV at doses of 1.14 (D2) and 2.28 mg/kg body weight (bwt) can cause marked changes in kidney biochemical and major antioxidant markers, and histological architecture.

MicroRNA miR-152 can support ovarian granulosa cell functions and modify apigenin actions.

The study aimed to evaluate the involvement of apigenin, microRNA (miR)-152, and their interrelationships in the control of basic ovarian granulosa cell functions. The effects of apigenin (0, 10, and 100 µg/mL), miR-152 analogues or miR-152 inhibitor, and their combinations with apigenin on porcine granulosa cells were examined. Expression levels of miR-152, viability, proliferation, apoptosis, steroid hormones, IGF-I, oxytocin, and prostaglandin E2 release were analyzed. Apigenin increased the expression of miR-152, cell proliferation, and estradiol release and reduced apoptosis, progesterone, and IGF-I output. MicroRNA-152 analogues promoted cell viability and proliferation, as well as the release of progesterone, IGF-I, oxytocin, and prostaglandin E2; however, it inhibited apoptosis and estradiol output. miR-152 inhibitor had the opposite effect. Moreover, miR-152 analogues suppressed the effect of apigenin on cell apoptosis and estradiol release. These observations 1) confirm the involvement of apigenin in the control of basic ovarian cell functions; 2) are the first demonstration of importance of miR-152 in the control of these functions; 3) show the ability of apigenin to promote miR-152 expression and the ability of miR-152 to modify apigenin effects on ovarian cells.

Three medicinal plants affecting human ovarian cell viability, hormone release, and response to environmental contaminant toluene.

The present study examined the effect of medicinal plants - ginkgo, tribulus (puncture vine), and yucca - on ovarian functions and their response to the toxic influence of toluene. Therefore, we analyzed the effect of toluene with and without these plant extracts on cultured human ovarian granulosa cells. Cell viability and the release of progesterone, insulin-like growth factor I (IGF I), oxytocin, and prostaglandin F (PGF) were analyzed using the trypan blue test, enzyme immunoassay, and enzyme-linked immunosorbent assay, respectively. The ginkgo, tribulus and yucca were able to suppress ovarian cell viability and alter the release of hormones. Toluene suppressed cell viability and the release of PGF, but not of progesterone, IGF-I, or oxytocin. The negative effect of toluene on cell viability was prevented and even reversed by ginkgo and yucca, whereas its effect on PGF was prevented or inverted by all tested plant extracts. These findings (1) demonstrated the direct toxic effect of toluene on ovarian cells, (2) showed the direct effect of some medicinal plants on ovarian cell functions, and (3) demonstrated the ability of these plants to inhibit the effects of toluene and to act as natural protectors against the suppressive effect of toluene on female reproduction.

Rooibos (Aspalathus linearis) and its constituent quercetin can suppress ovarian cell functions and their response to FSH.

Rooibos (Aspalathus linearis Brum. f) can directly influence female reproduction, but whether rooibos can influence the response of ovarian cells to FSH and whether the rooibos effects are due to the presence of quercetin remain unknown. We compared the influence of rooibos extract and quercetin (both at 10 µg/ml-1) on porcine ovarian granulosa cells cultured with and without FSH (0, 1, 10 or 100 ng/ml-1). The expression of intracellular proliferation (PCNA, cyclin B1) and apoptosis (bax, caspase 3) markers in the cells was detected by immunocytochemistry. The release of progesterone (P), testosterone (T) and estradiol (E) were evaluated with ELISAs. Administration of both rooibos and quercetin reduced the accumulation of proliferation markers and promoted the accumulation of apoptosis markers and the release of T and E. Rooibos stimulated, but quercetin inhibited, P output. Administration of FSH increased the accumulation of proliferation markers, decreased the accumulation of apoptosis markers, promoted the release of P and T, and had a biphasic effect on E output. The addition of both rooibos and quercetin mitigated or prevented the main effects of FSH. The present observations suggest a direct influence of both rooibos and quercetin on basic ovarian functions - proliferation, apoptosis, steroidogenesis and response to FSH. The similarity in the major effects of rooibos and its constituent quercetin indicates that quercetin could be the molecule responsible for the main rooibos effects on the ovary. The potential anti-reproductive effects of rooibos and rooibos constituent quercetin, should be taken into account in animal and human nutrition.

Quercetin can affect porcine ovarian cell functions and to mitigate some of the effects of the environmental contaminant toluene.

The present in vitro experiments aimed to examine the effects of the plant polyphenol quercetin and the environmental contaminant toluene on basic ovarian cell functions, including the ability of quercetin to be a natural protector against the adverse effects of toluene. The influence of toluene, quercetin, and their combination on proliferation (accumulation of PCNA), apoptosis (accumulation of bax) and release of progesterone, testosterone and insulin-like growth factor I (IGFI) by cultured porcine ovarian granulosa cells was investigated. Toluene stimulated cell proliferation and inhibited progesterone, IGF-I and testosterone release but did not affect apoptosis. Quercetin, when administered alone, inhibited cell proliferation, apoptosis, IGF-I and testosterone release and stimulated progesterone output. When administered in combination with toluene, quercetin mitigated toluene's effects on proliferation and on progesterone release and induced toluene to exhibit a pro-apoptotic effect. These observations demonstrate the direct effects of both quercetin and toluene on basic ovarian functions and a protective effect of quercetin against the effects of toluene. Therefore, quercetin-containing plants could be regulators of porcine reproduction and natural protectors against the adverse effects of the environmental contaminant toluene.

Prenatal exposure to acrylamide differently affected the sex ratio, aromatase and apoptosis in female adult offspring of two subsequent generations.

In the present study, we investigated the effect of acrylamide (ACR) exposure during pregnancy on the ovary of female adult offspring of two subsequent generations. Sixty-day-old Wistar albino female rats were given different doses of ACR (2.5 and 10 mg/kg/day) from day 6 of pregnancy until giving birth. Females from the first generation (AF1) were fed ad libitum, and thereafter, a subgroup was euthanized at 8 weeks of age and ovary samples were obtained. The remaining females were maintained until they reached sexual maturity (50 days old) and then treated in the same way as the previous generation to obtain the second generation of females (AF2). The histopathological examination indicated a high frequency of corpora lutea along with an increased number of antral follicles that reached the selectable stage mainly at a dose of 2.5 mg/kg/day. Interestingly, ACR exposure significantly increased the mRNA levels of CYP19 gene and its corresponding CYP19 protein expression in AF1 females. The TUNEL assay showed a significantly high rate of apoptosis in stromal cells except for dose of 2.5 mg/kg/day. However, in AF2 females, ACR exposure significantly increased the number of degenerating follicles and cysts while the number of growing follicles was reduced. Moreover, in both ACR-treated groups, estradiol-producing enzyme CYP19A gene and its corresponding protein were significantly reduced, and an excessive apoptosis was produced. We concluded that the ovarian condition of AF1 females had considerable similarity to the typical early perimenopausal stage, whereas that of AF2 females was similar to the late perimenopausal stage in women.

Alterations in APC, BECN1, and TP53 gene expression levels in colon cancer cells caused by monosodium glutamate

Abstract Colorectal cancer (CRC) is a disease with high incidence worldwide. As of 2018, it is the second leading cause of cancer deaths in the world. In Saudi Arabia, the incidence of this disease has been increasing in the younger population. Both genetic and lifestyle factors may have contributed to its increased incidence and pathogenesis. Monosodium glutamate (MSG) is a food flavor enhancer that can be found in many commercial foods, and it can sometimes be used as a substitute to table salt. MSG has been investigated for its possible genotoxicity, yielding controversial results. In the present study, the effect of MSG on cell viability and its effect on expression of APC, BECN1, and TP53 genes in SW620 and SW480 colon cancer cell lines were studied. TP53 is a tumor suppressor gene that functions in modifying DNA errors and/or inducing apoptosis of damaged cells, and both APC and BECN1 genes are involved in CRC and are of importance in cellular growth and metastasis. Cancer cell viability was analyzed using MTT assay, and the results showed a significant increase in the number of viable cells after 24 h of treatment with MSG with different concentrations (0.5, 1.0, 10, 50, and 100mM). Moreover, gene expression results showed a significant increase in the expression levels of APC and BECN1 under specified conditions in both cell lines; conversely, TP53 showed a significant decrease in expression in SW620 cells. Thus, it can be concluded that MSG possibly confers a pro-proliferative effect on CRC cells.

Resumo O câncer colorretal (CCR) é uma doença com alta incidência mundial. Desde 2018, é a segunda principal causa de mortes por câncer no mundo. Na Arábia Saudita, a incidência dessa doença vem aumentando na população mais jovem. Tanto fatores genéticos quanto de estilo de vida podem ter contribuído para o aumento da sua incidência e patogênese. O glutamato monossódico (MSG) é um intensificador de sabor de alimentos que pode ser encontrado em muitos alimentos comerciais e às vezes pode ser usado como um substituto do sal de cozinha. O MSG tem sido investigado por sua possível genotoxicidade, produzindo resultados controversos. Neste estudo, foram estudados o efeito do MSG na viabilidade celular e seu efeito na expressão dos genes APC, BECN1 e TP53 em linhas de células de câncer de cólon SW620 e SW480. TP53 é um gene supressor de tumor que atua modificando erros de DNA e/ou induzindo apoptose de células danificadas, estando os genes APC e BECN1 envolvidos no CRC e sendo importantes no crescimento celular e metástase. A viabilidade das células cancerosas foi analisada por meio do ensaio MTT, e os resultados mostraram um aumento significativo no número de células viáveis após 24 h de tratamento com MSG em diferentes concentrações (0,5; 1,0; 10; 50 e 100mM). Além disso, os resultados da expressão gênica mostraram um aumento significativo nos níveis de expressão de APC e BECN1 sob condições especificadas em ambas as linhagens celulares. Por outro lado, TP53 mostrou uma diminuição significativa na expressão em células SW620. Assim, pode-se concluir que, possivelmente, o MSG confere um efeito pró-proliferativo às células CRC.

Alterations in APC, BECN1, and TP53 gene expression levels in colon cancer cells caused by monosodium glutamate / Alterações nos níveis de expressão gênica APC, BECN1 e TP53 em células de câncer de cólon causadas por glutamato monossódico

Colorectal cancer (CRC) is a disease with high incidence worldwide. As of 2018, it is the second leading cause of cancer deaths in the world. In Saudi Arabia, the incidence of this disease has been increasing in the younger population. Both genetic and lifestyle factors may have contributed to its increased incidence and pathogenesis. Monosodium glutamate (MSG) is a food flavor enhancer that can be found in many commercial foods, and it can sometimes be used as a substitute to table salt. MSG has been investigated for its possible genotoxicity, yielding controversial results. In the present study, the effect of MSG on cell viability and its effect on expression of APC, BECN1, and TP53 genes in SW620 and SW480 colon cancer cell lines were studied. TP53 is a tumor suppressor gene that functions in modifying DNA errors and/or inducing apoptosis of damaged cells, and both APC and BECN1 genes are involved in CRC and are of importance in cellular growth and metastasis. Cancer cell viability was analyzed using MTT assay, and the results showed a significant increase in the number of viable cells after 24h of treatment with MSG with different concentrations (0.5, 1.0, 10, 50, and 100mM). Moreover, gene expression results showed a significant increase in the expression levels of APC and BECN1 under specified conditions in both cell lines; conversely, TP53 showed a significant decrease in expression in SW620 cells. Thus, it can be concluded that MSG possibly confers a pro-proliferative effect on CRC cells.

O câncer colorretal (CCR) é uma doença com alta incidência mundial. Desde 2018, é a segunda principal causa de mortes por câncer no mundo. Na Arábia Saudita, a incidência dessa doença vem aumentando na população mais jovem. Tanto fatores genéticos quanto de estilo de vida podem ter contribuído para o aumento da sua incidência e patogênese. O glutamato monossódico (MSG) é um intensificador de sabor de alimentos que pode ser encontrado em muitos alimentos comerciais e às vezes pode ser usado como um substituto do sal de cozinha. O MSG tem sido investigado por sua possível genotoxicidade, produzindo resultados controversos. Neste estudo, foram estudados o efeito do MSG na viabilidade celular e seu efeito na expressão dos genes APC, BECN1 e TP53 em linhas de células de câncer de cólon SW620 e SW480. TP53 é um gene supressor de tumor que atua modificando erros de DNA e/ou induzindo apoptose de células danificadas, estando os genes APC e BECN1 envolvidos no CRC e sendo importantes no crescimento celular e metástase. A viabilidade das células cancerosas foi analisada por meio do ensaio MTT, e os resultados mostraram um aumento significativo no número de células viáveis após 24 h de tratamento com MSG em diferentes concentrações (0,5; 1,0; 10; 50 e 100mM). Além disso, os resultados da expressão gênica mostraram um aumento significativo nos níveis de expressão de APC e BECN1 sob condições especificadas em ambas as linhagens celulares. Por outro lado, TP53 mostrou uma diminuição significativa na expressão em células SW620. Assim, pode-se concluir que, possivelmente, o MSG confere um efeito pró-proliferativo às células CRC.

Potential protective effect of puncturevine (Tribulus terrestris, L.) against xylene toxicity on bovine ovarian cell functions.

The action of the medicinal plant Tribulus terrestris (TT) on bovine ovarian cell functions, as well as the protective potential of TT against xylene (X) action, remain unknown. The aim of the present in vitro study was to elucidate the influence of TT, X and their combination on basic bovine ovarian cell functions. For this purpose, we examined the effect of TT (at doses of 0, 1, 10, and 100 ng/mL), X (at 20 ?g/mL) and the combination of TT + X (at these doses) on proliferation, apoptosis and hormone release by cultured bovine ovarian granulosa cells. Markers of proliferation (accumulation of PCNA), apoptosis (accumulation of Bax) and the release of hormones (progesterone, testosterone and insulin-like growth factor I, IGF-I) were analyzed by quantitative immunocytochemistry and RIA, respectively. TT addition was able to stimulate proliferation and testosterone release and inhibit apoptosis and progesterone output. The addition of X alone stimulated proliferation, apoptosis and IGF-I release and inhibited progesterone and testosterone release by ovarian cells. TT was able to modify X effects: it prevented the antiproliferative effect of X, induced the proapoptotic action of X, and promoted X action on progesterone but not testosterone or IGF-I release. Taken together, our observations represent the first demonstration that TT can be a promoter of ovarian cell functions (a stimulator of proliferation and a suppressor of apoptosis) and a regulator of ovarian steroidogenesis. X can increase ovarian cell proliferation and IGF-I release and inhibit ovarian steroidogenesis. These effects could explain its anti-reproductive and cancer actions. The ability of TT to modify X action on proliferation and apoptosis indicates that TT might be a natural protector against some ovarian cell disorders associated with X action on proliferation and apoptosis, but it can also promote its adverse effects on progesterone release.

Alterations in APC, BECN1, and TP53 gene expression levels in colon cancer cells caused by monosodium glutamate.

Colorectal cancer (CRC) is a disease with high incidence worldwide. As of 2018, it is the second leading cause of cancer deaths in the world. In Saudi Arabia, the incidence of this disease has been increasing in the younger population. Both genetic and lifestyle factors may have contributed to its increased incidence and pathogenesis. Monosodium glutamate (MSG) is a food flavor enhancer that can be found in many commercial foods, and it can sometimes be used as a substitute to table salt. MSG has been investigated for its possible genotoxicity, yielding controversial results. In the present study, the effect of MSG on cell viability and its effect on expression of APC, BECN1, and TP53 genes in SW620 and SW480 colon cancer cell lines were studied. TP53 is a tumor suppressor gene that functions in modifying DNA errors and/or inducing apoptosis of damaged cells, and both APC and BECN1 genes are involved in CRC and are of importance in cellular growth and metastasis. Cancer cell viability was analyzed using MTT assay, and the results showed a significant increase in the number of viable cells after 24 h of treatment with MSG with different concentrations (0.5, 1.0, 10, 50, and 100mM). Moreover, gene expression results showed a significant increase in the expression levels of APC and BECN1 under specified conditions in both cell lines; conversely, TP53 showed a significant decrease in expression in SW620 cells. Thus, it can be concluded that MSG possibly confers a pro-proliferative effect on CRC cells.

Fennel affects ovarian cell proliferation, apoptosis, and response to ghrelin.

The objective of this study was to examine the direct effects of the medicinal plant fennel (Foeniculumvulgare Mill.) on basic functions of ovarian cells, including proliferation, apoptosis, and response to the physiological hormonal stimulator, ghrelin. In the first series of experiments, porcine ovarian granulosa cells were cultured with (1, 10, 100 µg/ml) or without fennel extract. In the second series of experiments, cells were cultured with (1, 10, 100 ng/ml) or without ghrelin, alone or in combination with fennel extract (10 µg/ml). Expression of the proliferation marker, PCNA, and the apoptosis marker, bax, were analyzed via quantitative immunocytochemical methods. Fennel stimulated the accumulation of the proliferation marker, and suppressed the expression of the apoptosis marker. Ghrelin alone promoted proliferation and apoptosis of ovarian cells. The presence of fennel inhibited these ghrelin effects. These observations provide the first demonstration of (1) effects of fennel on farm animal reproduction, (2) direct effects of fennel on ovarian cells, (3) the ability of fennel to promote ovarian cell proliferation, to inhibit ovarian cell apoptosis, and to enhance the ovarian cell proliferation:apoptosis ratio. Furthermore, our results (4) confirm the involvement of ghrelin in the control of ovarian cell apoptosis and proliferation, and (5) demonstrate the ability of fennel to affect not only ovarian cell proliferation and apoptosis, but also to suppress the responses of ovarian cells to the upstream hormonal regulator ghrelin. Our results indicate the potential applicability of fennel as a bio-stimulator of farm animal reproduction.

Effects of ferroelectric oxides of barium strontium titanate (Ba0.85Sr0.15TiO3) nanoparticles on Ruditapes decussatus assessed through chemical, physiological, and biochemical methods.

Here, the effects of a newly designed ferroelectric oxide synthesized by solid reaction, barium strontium titanate [BST (85/15)] (Ba0.85Sr0.15TiO3), on the carpet shell clam Ruditapes decussatus were investigated. These clams were exposed to four concentrations of BST (85/15) nanoparticles (0.001, 0.01, 0.1, and 1 mg.L-1), and BST (85/15) was absorbed by R. decussatus in an exposure intensity-dependent manner. Measurements of clearance rate and biomarkers confirmed that the nanoparticles significantly affected the health of clams in an organ-dependent manner. Interestingly, BST (85/15) nanoparticles stimulated acetylcholinesterase (AChE) activity in the clams, suggesting their usefulness as antagonists of AChE inhibiting pollutants. These findings demonstrate the suitability of R. decussatus as a test organism to provide a framework for understanding the toxicological effects of these newly designed ferroelectrics. Moreover, concentrations of BST (85/15) < 0.1 mg.L-1 could be good alternatives to lead-based ferroelectric oxides and could be sustainable tools for use in electronic applications.

The Action of Benzene, Resveratrol and Their Combination on Ovarian Cell Hormone Release.

The aim of our study was to examine the direct influence of plant polyphenol resveratrol and oil-related environmental contaminant benzene on ovarian hormone release, as well as the ability of resveratrol to prevent the effect of benzene. Porcine ovarian granulosa cells were cultured with and without resveratrol (0, 1,10 or 100 ug/ml) alone or in combination with 0.1% benzene. The release of progesterone, oxytocin and prostaglandin F was measured by enzyme immunoassay (EIA). Benzene promoted the release of progesterone, oxytocin and prostaglandin F. Resveratrol, when given alone, stimulated both progesterone and prostaglandin F, but not the oxytocin output. Moreover, resveratrol prevented and even inverted the stimulatory action of benzene on all analysed hormones. These observations demonstrate the direct influence of both benzene and resveratrol on porcine ovarian hormone release, as well as the ability of resveratrol to prevent the benzene action on the ovary.

FSH, oxytocin and IGF-I regulate the expression of sirtuin 1 in porcine ovarian granulosa cells.

The involvement of the mTOR system/enzyme sirtuin 1 (SIRT1) intracellular signaling system in the control of ovarian functions and its role in mediating hormonal action on the ovary has been proposed, but this hypothesis should be supported by a demonstrated influence of hormones on mTOR/SIRT1. Therefore, the aim of our in vitro experiments was to examine the effect of the known hormonal regulators of ovarian functions, such as follicle-stimulating hormone (FSH), oxytocin (OT) and insulin-like growth factor I (IGF-I), on mTOR/SIRT1. The accumulation of SIRT1 in porcine ovarian granulosa cells cultured with and without these hormones (at doses of 1, 10 or 100 ng.ml-1) was evaluated using immunocytochemistry. It was observed that the addition of FSH (at 10 ng.ml-1 but not at 1 or 100 ng/ml) and OT (at all tested doses) increased the expression of SIRT1 in ovarian cells. In addition, 100 ng.ml-1, but not at 1 or 10 ng.ml-1, of IGF-I decreased SIRT1 accumulation. Our observations are the first demonstration that hormones can directly regulate the ovarian mTOR/SIRT1 system and that this system could mediate the action of hormonal regulators on the ovary.

The inhibitory influence of toluene on mare ovarian granulosa cells can be prevented by fennel.

The influence of environmental contaminant toluene and of plant fennel (Foeniculum vulgare Mill.) on reproduction are reported, but the mechanisms of their action and the protective effect of fennel on contaminant influence remain to be elucidated. In this study, we hypothesized that toluene and fennel directly affects basic ovarian cell functions, and that fennel can be used as an appropriate natural protective agent against the potential adverse effects of toluene. This study aimed to examine the action of toluene (20 µg/mL) and fennel extract (0, 1, 10, 100 µg/mL), and assess their combination on viability, proliferation, apoptosis, and hormone release by cultured healthy mare ovarian granulosa cells. Viability, proliferation (percentage of PCNA-positive cells), apoptosis and release of progesterone, oxytocin and prostaglandin F were evaluated by using Trypan blue exclusion tests, immunocytochemistry and enzyme immunoassays, respectively. Toluene, when given alone, inhibited viability, proliferation, apoptosis, progesterone, prostaglandin F and IGF-I. However, it did not affect oxytocin release. Moreover, Fennel, when given alone, inhibited viability, progesterone, and prostaglandin F release, as well as stimulating proliferation and oxytocin release. In addition, Fennel did not affect apoptosis. When given in combination with toluene, fennel was able to suppress, and even invert, the effects of toluene on viability, proliferation, apoptosis, prostaglandin F, and IGF-I. However, it did not alter its effect on progesterone release. Moreover, fennel induced the inhibitory effect of toluene on oxytocin output. The findings of our study suggest direct adverse effects of toluene on the basic ovarian functions of mares. Lastly, we also observed the direct influence of fennel on these functions, as well as its ability to be a natural protector against the action of toluene on the ovarian functions of mares.

The phytoestrogen, diosgenin, directly stimulates ovarian cell functions in two farm animal species.

The present in vitro study was conducted to examine the direct action of the plant steroidal sapogenin, diosgenin, on basic farm animal ovarian cell functions. As models, we used cultured porcine ovarian granulosa cells, porcine whole follicles, and rabbit ovarian fragments. The effects of diosgenin (0, 1, 10, or 100 µg/mL medium) on the markers of proliferation, cytoplasmic apoptosis, steroid (progesterone: P4, testosterone: T, and estradiol: E2) release, and peptide hormone (insulin-like growth factor I: IGF-I) release were analyzed by quantitative immunocytochemistry and radioimmunoassay. Diosgenin promoted proliferation, apoptosis, and T and E2 release and inhibited P4 output in cultured porcine granulosa cells. Similarly, cultured porcine ovarian follicles showed diosgenin-induced inhibition of P4 and stimulation of T release. In cultured rabbit ovarian fragments, diosgenin stimulated P4 and IGF-I release. This is the first study showing that diosgenin can promote basic ovarian cell functions such as proliferation, apoptosis, and steroid and peptide hormone release. The similar effects of diosgenin on porcine granulosa cells and ovarian follicles suggest that granulosa cells are the primary ovarian target of diosgenin. The contrasting effects of diosgenin on porcine and rabbit ovarian P4 output suggest that diosgenin functions in a species-specific manner. These observations indicate that diosgenin has potential applications for improving female reproduction.

Cow body condition affects the hormonal release of ovarian cells and their responses to gonadotropic and metabolic hormones.

The body condition score (BCS) of cows affects their reproductive efficiency, but the underlying mechanism is unclear. We examined the effect of BCS on the basic ovarian cell functions and their responses to gonadotropic and metabolic hormones. We isolated ovarian cells from cows with a tendency toward emaciation (BCS2) and those with an average body condition (BCS3), and we compared their hormonal release and responses to FSH, leptin, ghrelin, and neuropeptide Y (NPY) added at doses of 0, 1, 10, or 100 ng/mL. Progesterone, testosterone, estradiol, and insulin-like growth factor I (IGF-I) release were evaluated by RIA. No differences were found in progesterone or testosterone release between BCS2 and BCS3 cells; however, ovarian cells from BCS2 cows released more estradiol and IGF-I than cells from BCS3 cows. FSH, ghrelin, and NPY promoted progesterone release in BCS2 cells but had no stimulatory or inhibitory effect on BCS3 cells. In contrast, leptin promoted progesterone release in BCS3 cells and inhibited progesterone release in BCS2 cells. FSH also promoted testosterone release in both BCS2 and BCS3 cells but inhibited progesterone at a low dose in BCS3 cells. Leptin inhibited testosterone release in BCS3 cells but not in BCS2 cells. Estradiol release was promoted by leptin and ghrelin in BCS3 cells; however, it was unaffected by leptin and inhibited by ghrelin in BCS2 cells. IGF-I production was promoted by FSH and inhibited by leptin in both groups. Ghrelin suppressed IGF-I release in BCS2 cells and increased IGF-I release in BCS3 cells. NPY promoted IGF-I release in BCS2 cells but not in BCS3 cells. Our results demonstrate the effects of BCS on ovarian cell estradiol and IGF-I (but not progesterone or testosterone) release, as well as on the responses of ovarian cells to FSH, leptin, ghrelin, and NPY.

cAMP response element-binding protein 1 controls porcine ovarian cell proliferation, apoptosis, and FSH and insulin-like growth factor 1 response.

The aim of the present study was to examine the role of cAMP response element-binding protein (CREB) and its phosphorylation in the regulation of ovarian cell proliferation and apoptosis, and of the response of proliferation and apoptosis to the upstream hormonal stimulators FSH and insulin-like growth factor (IGF) 1. In the first series of experiments, porcine ovarian granulosa cells, transfected or not with a gene construct encoding wild-type CREB1 (CREB1WT), were cultured with and without FSH (0, 1, 10 or 100ngmL-1). In the second series of experiments, these cells were transfected or not with CREB1WT or non-phosphorylatable mutant CREB1 (CREB1M1) and cultured with and without FSH (0, 1, 10 or 100ngmL-1) or IGF1 (0, 1, 10 and 100ngmL-1). Levels of total and phosphorylated (p-) CREB1, proliferating cell nuclear antigen (PCNA), a marker of proliferation, and BAX, a marker of apoptosis, were evaluated by western immunoblotting and immunocytochemical analysis. Transfection of cells with CREB1WT promoted accumulation of total CREB1 within cells, but p-CREB1 was not detected in any cell group. Both CREB1WT and CREB1M1 reduced cell proliferation and apoptosis. Addition of 10 and 100ngmL-1 FSH to non-transfected cells promoted CREB1 accumulation and apoptosis, whereas cell proliferation was promoted by all concentrations of FSH tested. FSH activity was not modified in cells transfected with either CREB1WT or CREB1M1. IGF1 at 100ngmL-1 promoted cell proliferation, whereas all concentrations of IGF1 tested reduced apoptosis. Transfection with either CREB1WT or CREB1M1 did not modify the effects of either FSH or IGF1, although CREB1M1 reversed the effect of IGF1 on apoptosis from inhibitory to stimulatory. These observations suggest that CREB1 is involved in the downregulation of porcine ovarian cell proliferation and apoptosis. The absence of visible CREB1 phosphorylation and the similarity between the effects of CREB1WT and CREB1M1 transfection indicate that phosphorylation is not necessary for CREB1 action on these processes. Furthermore, the observations suggest that FSH promotes both ovarian cell proliferation and apoptosis, whereas IGF1 has proliferation-promoting and antiapoptotic properties. The effect of FSH on CREB1 accumulation and the ability of CREB1M1 to reverse the effects of IGF1 on apoptosis indicate that CREB1 is a mediator of hormonal activity, but the inability of either CREB1WT or CREBM1transfection to modify the primary effects of FSH and IGF1 suggest that CREB1 and its phosphorylation do not mediate the action of these hormones on ovarian cell proliferation and apoptosis.