Identification and partial characterization of Rhizopus nigricans Gβ proteins and their expression in the presence of progesterone

The mammalian steroid hormone progesterone actuates a signalling pathway in the zygomycete Rhizopus nigricans which includes heterotrimeric G proteins. To investigate the possibility that the Gβ subunit of these proteins is involved in the signalling, a cDNA library from R. nigricans exposed to progesterone was prepared and a sequence coding for a Gβ subunit was searched for. Using degenerate primers, two sequences, RnGPB1 and RnGPB2, were identified that exhibited a high degree of identity with those for Gβ from other filamentous fungi, but not from yeast. The presence of more than one Gβ subunit is very rare among the fungi, and it has been to date reported only for Rhizopus oryzae. We have shown that progesterone increases the expression of RnGPB1, but has no influence on the expression of RnGPB2. Therefore, our studies imply the involvement of Gβ subunit 1 in the response of R. nigricans to progesterone. Moreover, the Gβ subunit is subjected to endogenous ADP-ribosylation in the presence of NAD, which could be important in some, as yet unknown, cell process. Article from a special issue on steroids and microorganisms.     

Characterization and ligand identification of a membrane progesterone receptor in fungi: existence of a novel PAQR in Sporothrix schenckii

ABSTRACT: BACKGROUND: Adaptive responses in fungi result from the interaction of membrane receptors and extracellular ligands. Many different classes of receptors have been described in eukaryotic cells. Recently a new family of receptors classified as belonging to the progesterone-adiponectin receptor (PAQR) family has been identified. These receptors have the seven transmembrane domains characteristic of G-protein coupled receptors, but their activity has not been associated directly to G proteins. They share sequence similarity to the eubacterial hemolysin III proteins. RESULTS: A new receptor, SsPAQR1 (Sporothrix schenckii progesterone-adiponectinQ receptor1), was identified as interacting with Sporothrix schenckii G protein alpha subunit SSG-2 in a yeast two-hybrid assay. The receptor was identified as a member of the PAQR family. The cDNA sequence revealed a predicted ORF of 1542 bp encoding a 514 amino acids protein with a calculated molecular weight of 57.8 kDa. Protein domain analysis of SsPAQR1 showed the 7 transmembrane domains (TM) characteristic of G protein coupled receptors and the presence of the distinctive motifs that characterize PAQRs. A yeast-based assay specific for PAQRs identified progesterone as the agonist. S. schenckii yeast cells exposed to progesterone (0.50 mM) showed an increase in intracellular levels of 3[PRIME], 5[PRIME] cyclic adenosine monophosphate (cAMP) within the first min of incubation with the hormone. Different progesterone concentrations were tested for their effect on the growth of the fungus. Cultures incubated at 35[DEGREE SIGN]C did not grow at concentrations of progesterone of 0.05 mM or higher. Cultures incubated at 25[DEGREE SIGN]C grew at all concentrations tested (0.01 mM-0.50 mM) with growth decreasing gradually with the increase in progesterone concentration. CONCLUSION: This work describes a receptor associated with a G protein alpha subunit in S. schenckii belonging to the PAQR family. Progesterone was identified as the ligand. Exposure to progesterone increased the levels of cAMP in fungal yeast cells within the first min of incubation suggesting the connection of this receptor to the cAMP signalling pathway. Progesterone inhibited the growth of both the yeast and mycelium forms of the fungus, with the yeast form being the most affected by the hormone.     

Cyclic nucleotides and protein phosphorylation in mouse mammary glands: effects of estrogen and progesterone administered in vivo

Ovariectomized mice were injected daily for 20 days with saline, 17 beta-estradiol (1 microgram/day), progesterone (1 mg/day), or estrogen + progesterone. Mammary glands were removed, homogenized, and analyzed for DNA, cAMP, cGMP, cAMP-dependent protein kinase (kinase A), cGMP-dependent protein kinase (kinase G), tyrosyl kinase (kinase T), and epidermal growth factor-stimulated tyrosyl kinase (EGF-T). Estrogen and progesterone, administered singly, increased DNA, cAMP, kinase A, kinase T, and EGF-T. In addition, progesterone, administered alone or with estrogen, decreased kinase G activity. cGMP concentrations were not altered by estrogen or progesterone. No evidence of a synergism between estrogen and progesterone on the levels of the cyclic nucleotides and the activities of kinase enzyme was observed, although an additive effect of these steroids was seen. These data indicate that ovarian steroid-induced growth of mouse mammary glands is accompanied by significant changes in protein phosphorylation, i.e., increased cAMP-dependent protein phosphorylation and tyrosyl phosphorylation and decreased cGMP-dependent protein phosphorylation.     

Control of growth and differentiation by cyclic AMP in fungi

InSaccharomyces cerivisiae intracellular cAMP mediates environmental signals that regulate cellular metabolism and growth. The studies on the cAMP-requiring mutants and their suppressors in the yeast revealed that cAMP-dependent protein phosphorylation is involved in the G1 phase of the cell cycle, stimulation of the phosphoinositide pathway and the post-meiotic stage of spourlation, and that inhibition of cAMP-dependent protein phosphorylation is required to go into the GO stage of and to induce meiotic division. Growth of some filamentous fungi was observed with significantly reduced levels of cAMP, suggesting that cAMP may not be essential for growth in some species of fungi. Germination of fungal spores, yeast-mycelium dimorphism and hyphal morphogenesis of several species of fungi were affected by cAMP. cAMP was involved in extension of hyphae, formation of hyphal aggregates and fruit body formation. Phosphorylation of cellular proteins is required in these processes, and the nature of these proteins phosphorylated by cAMP-dependent protein kinase is important to the understanding of the role of cAMP for growth and differentistion in fungal cells.     

Bioremediation of aflatoxins by some reference fungal strains.

Aspergillus parasiticus RCMB 002001 (2) producing four types of aflatoxins B1, B2, G1, and G2 was used in this study as an aflatoxin-producer. Penicillium griseofulvum, P. urticae, Paecilomyces lilacinus, Trichoderma viride, Candida utilis, Saccharomyces cerevisiae as well as a non-toxigenic strain of Aspergillus flavus were found to be able to exhibit growth on aflatoxin B1-containing medium up to a concentration of 500 ppb. It was also found that several fungal strains exhibited the growth in co-culture with A. parasiticus, natural aflatoxins producer, and were able to decreased the total aflatoxin concentration, resulting in the highest inhibition percentage of 67.2% by T viride, followed by P. lilacinus, P. griseofulvum, S. cerevisiae, C. utilis, P. urticae, Rhizopus nigricans and Mucor rouxii with total aflatoxin inhibition percentage of 53.9, 52.4, 52, 51.7, 44, 38.2 and 35.4%, respectively. The separation of bioremediation products using GC/MS revealed that the toxins were degraded into furan moieties.     

Rate limiting factors in melanocortin 1 receptor signalling through the cAMP pathway

The melanotropic actions of alpha-melanocyte-stimulating hormone (alpha-MSH) and other melanocortins are mediated by activation of the melanocortin 1 receptor (MC1R). This G protein-coupled receptor is positively coupled to Gs and triggers the cyclic adenosine mono-phosphate (cAMP) pathway. Mutations of the MC1R gene are associated with skin type and pigmentation phenotypes, and with increased risk of skin cancers. Genetic studies have demonstrated an heterozygote carrier effect for these associations, suggesting the importance of variant allele dosage. This could be accounted for, at least partially, if the number of MC1R molecules, rather than the Gs protein or the effector enzyme, adenylyl cyclase, is limiting for the activation of the signalling pathway. However, the nature of the limiting factor(s) in MC1R signalling has not been investigated. We addressed this question by comparing the cAMP output of clones of human melanoma cell lines enriched in MC1R by stable transfection. We also analysed heterologous cell systems widely used for functional studies of MC1R. We show that cAMP production in clones of Chinese hamster ovary cells stably expressing the MC1R is a linear function of receptor number up to high, supraphysiological levels of approximately 50,000 alpha-MSH binding sites per cell. Enrichment of human melanoma cell lines with MC1R also results in increased cAMP levels, with a small leftward shift of the agonist dose-response curves. Therefore, at physiological expression levels second-messenger generation is dependent on receptor density. Within melanoma cells and also likely in normal melanocytes, MC1R appears the limiting factor controlling the output of the cAMP signalling pathway.     

Factors affecting the induction of 11 alpha-hydroxylase of progesterone in the filamentous fungus Rhizopus nigricans

The 11 alpha-hydroxylase of progesterone was induced in the filamentous fungus Rhizopus nigricans ATCC 6227b with different steroids as inducers and the induction process was optimized in regard to the age of the mycelium, to the concentration of the inducer and to the time of induction. Deoxycorticosterone and testosterone, steroids with higher polarity of the side-chain than progesterone, although poorer substrates for in vivo hydroxylation than progesterone, induced more enzyme compared to progesterone. Other alterations in the steroidal ring system examined diminished the induction capability of the inducing steroid to different extent. The highest 11 alpha-hydroxylating activity, if expressed on the basis of mycelial wet weight, was achieved with 18 h old mycelium which was induced for 2 h with 0.30 mM deoxycorticosterone.     

Hydroxylation of steroids with nonpolar side chains with 11 alpha-hydroxylase of Rhizopus nigricans

Steroids with nonpolar side chains with 2, 4 and 8 C atoms were used as substrates for the 11 alpha-hydroxylase of Rhizopus nigricans. Their bioconversion was compared to that of progesterone, which was found to be far the best substrate giving the highest total bioconversion. 3-keto-4-ene steroids with nonpolar side chains were converted to their hydroxylated products in a small yield or not at all. The absence of an oxygen function in the side chain did not affect the regio-specificity of the hydroxylation, but resulted in a much lower total bioconversion. The strong effect of the oxygen function and of the length of the side chain on hydroxylation with the 11 alpha-hydroxylase of Rhizopus nigricans was demonstrated.     

BanAI a new isoschizomer of the type II restriction endonuclease HaeIII discovered in a Bacillus anthracis isolate from Amazon Basin

Steroid binding sites with high affinity for progesterone (Kd=40+/-14 nM determined by binding, and Kd=71+/-22 nM determined by displacement studies) and lower affinity for 21-hydroxyprogesterone and for testosterone, but no affinity for estradiol-17beta, onapristone and alpha-naphthoflavone were detected in the enriched plasma membrane fraction of the fungus Rhizopus nigricans. The amount of steroid binding sites is in accordance with the value of B(max)=744+/-151 fmol (mg protein)(-1). In the membrane fraction, progesterone induced about 30% activation of G proteins over basal level, as determined by GTPase activity (EC50=32+/-8 nM) and by the guanosine 5'-O-(3-thiotriphosphate) (GTPgammaS) binding rate (EC50=61+/-21 nM). The affinity of receptors for progesterone was substantially decreased in the presence of GTPgammaS and of cholera toxin. Our results suggest the existence of progesterone receptors in the membrane of Rhizopus nigricans and their coupling to G proteins.     

Inhibition of 20 alpha-hydroxysteroid dehydrogenase activity by follicle-stimulating hormone and androgens in cultured rat granulosa cells: a search for the mechanism of action

Alterations of progesterone metabolism and especially of 20 alpha-hydroxysteroid dehydrogenase (20 alpha-HSD) activity were studied in cultured rat granulosa cells following various treatments. The cells were incubated for up to 48 h with or without follicle-stimulating hormone (FSH), androgens, hydroxyflutamide, estrogens, chlorea toxin, and dibutyryl cAMP [Bu2 cAMP]. Subsequently, the cells were incubated for 3 h with [4-14 C] progesterone (0.5 microM). The progesterone utilization and accumulation of 20 alpha-reduced and 5 alpha-reduced metabolites were assessed following thin-layer chromatography separation of radiolabeled steroids. Both FSH (1 microgram/ml) and testosterone (0.5 microM) decreased the 20 alpha-HSD activity by decreasing the maximal velocity (by 52% and 37%, respectively) without changing significantly the Km value. The inhibition of 20 alpha-HSD was demonstrable following 12 and 24 h exposure to FSH and following 24 and 48 h exposure to testosterone. Effects comparable to that induced by testosterone were elicited by other androgens (androstenedione and 5 alpha-dihydrotestosterone), but not by estrogens (estradiol-17 beta and estrone). Hydroxyflutamide reversed testosterone-induced effects: the increase of endogenous progesterone accumulation and the decrease of 20 alpha-HSD activity. Both cholera toxin (0.001-10 micrograms/ml) and Bu2 cAMP (62.5-1000 micrograms/ml) caused a dose-dependent inhibition of 20 alpha-HSD activity. Present results indicate that: the inhibition of 20 alpha-HSD by both FSH and androgens may be of a noncompetitive nature; androgen action on 20 alpha-HSD may be a true androgenic, receptor-mediated effect; and cAMP may mediate the FSH action on 20 alpha-HSD activity.     

Evolution of cAMP phosphodiesterase activity in cultured myometrial cells: Effects of steroids and of successive subcultures

Cyclic AMP phosphodiesterase (PDE) activity was characterized in culture of ewe myometrial cells and its sensitivity to steroid hormones was tested. Cultured myometrial cells were maintained from the first to the 20th subculture in the presence of 2% of serum in a medium supplemented with 1 μM of insulin. It was found that myometrial cells possess a PDE activity with atypical kinetics. The nonlinear responses in Lineweaver-Burke plots suggest the presence of high- and low-affinity PDE activities. In cell culture, apparent Km values were similar to those obtained from the original myometrium. Vmax values increased with successive subcultures, revealing an increase in the capacity of the cells to degrade cAMP; in parallel, the growth rate decreased. The PDE specific activity in cultured myometrial cells was inhibited by estra-diol or progesterone. When added together, no synergistic effect was obtained. The rate of inhibition for both steroids was constant during successive passages for both low- and high-affinity conditions. Results obtained in myometrial cell long-term culture were compatible with reports in other species in vivo. Considering the role of cAMP in the regulation of uterine functions, subcultured myometrial cells provided us a useful experimental system with which to study the cAMP metabolism process.     

R1881 regulation of steroidogenesis in cultured testicular cells

The influence of a synthetic androgen R1881 upon hCG stimulated steroidogenesis in cultured rat testicular cells was investigated. Testicular cells were cultured for 8 days in medium alone and thereafter reincubated for 48 h with appropriate treatments before the collection of media for steroid RIA. Addition of R1881 (10(-6) M) resulted in an overall decrease of hCG (0.3-10 ng/ml) stimulated pregnenolone and progesterone production by cultured cells. The conversion of exogenous steroids of the delta 4 pathway (progesterone,17 alpha-OH-P and delta 4-A) was also studied in cultures supplemented with cyanoketone (10(-5) M) and/or spironolactone (10(-5) M) to prevent endogenous testosterone production. R1881 inhibited progesterone and 17 alpha-OH-P conversion to testosterone (T) and was ineffective when delta 4-A served as precursor for T biosynthesis. The inhibitory effect of R1881 upon Testosterone production was prevented by concomitant treatment with CPA. These observations suggest that R1881 decreases the hCG stimulated testosterone production via inhibition of CSCCE,3 beta-HSD,C17-20 Lyase and likely 17 alpha-Hydroxylase, whereas no effect on 17 beta-HSD could be observed.     

Early effect of progesterone on levels of cyclic adenosine 3':5'-monophosphate in Xenopus oocytes.

Progesterone treatment of Xenopus oocytes in vitro causes progression through meiotic cell division. The role of altered intracellular levels of cAMP on the initiation of meiotic cell division has been studied. Basal levels of cAMP averaged 1.5 pmol in oocytes from eight females, and exposure to progesterone caused a rapid drop in cAMP to about 40 to 60% of basal. Half-maximal decreases occurred within 15 to 60 s, and cAMP returned to near basal values by 20 min after progesterone. Theophylline inhibition of progesterone-induced cell division was characterized by a small increase in basal levels of cAMP and a reduced drop in cAMP due to the hormone. Cholera toxin, an activator of adenylate cyclase, was found to be a potent inhibitor of progesterone-induced meiosis, with half-maximal inhibition at 8 times 10(-12) M. In addition, the purified A subunit of cholera toxin was an effective inhibitor of progesterone action when microinjected into oocytes, with half-maximal inhibition occurring at an approximate internal concentration of 1 X 10(-7) M. Cholera toxin alone increased cAMP levels by 20%, but upon addition of progesterone, the level increased transiently to 200% of basal, indicating that the inhibition was due to elevated levels of cAMP. The results support a model in which the initiation of meiotic cell division is regulated by cAMP and protein phosphorylation.     

Vasoactive intestinal peptide stimulates oocyte maturation, steroidogenesis, and cyclic adenosine 3',5'-monophosphate production in isolated preovulatory rat follicles

Vasoactive intestinal peptide (VIP) is present in the rat ovary and has been shown to stimulate cyclic adenosine 3',5'-monophosphate (cAMP) and progesterone production in cultured rat granulosa cells. In the present study, VIP-stimulated cAMP production has been studied in relation to steroid accumulation and oocyte maturation in isolated preovulatory rat follicles. VIP stimulated resumption of meiosis (oocyte maturation) in up to 60% of the follicle-enclosed oocytes after 6 h at 1 microM (control, 1.8%; luteinizing hormone 99%). The effect was time- and dose-dependent up to 6 h and was seen with both natural and synthetic VIP. VIP also stimulated the accumulation of steroids (estrogen, 2.3-fold; testosterone, 2.0-fold; and progesterone, 1.6-fold increase after 6 h of incubation) and lactate (2.6-fold) by the follicles. VIP-increased tissue levels of cAMP in the follicle were dose- and time-dependent. This effect was potentiated by a phosphodiesterase inhibitor. When isolated oocyte-cumulus complexes were studied, VIP caused a transient inhibition of spontaneous oocyte maturation, and demonstrated no effect on denuded oocytes. These results extend earlier preliminary observations on the ability of VIP to induce meiotic maturation of follicle-enclosed oocytes. Our results also show that VIP can stimulate steroid and lactate accumulation in the isolated follicles. The pattern of steroids produced suggests an effect both on the theca- and granulosa cells. We also show that VIP can delay spontaneous oocyte maturation. These effects appeared, at least partially, to be mediated by cAMP.     

Effects of phorbol esters on steroidogenesis in small bovine luteal cells

The possible influence of an activator of protein kinase C, the tumor-promoting phorbol ester, PMA (phorbol-12-myristate-13-acetate), upon small bovine luteal cell steroidogenesis was investigated in vitro, PMA had no significant effect on basal and dibutyryl cyclic AMP (dbcAMP)-stimulated progesterone production but markedly modulated the LH-stimulated progesterone and cAMP productions. PMA potentiated the LH-stimulated cAMP accumulation whatever the dose of LH used. It also potentiated the LH-induced progesterone production in the presence of low doses of LH. Paradoxically, in the presence of maximal or submaximal effective doses of LH, PMA exerted a time- and dose-dependent inhibition of progesterone synthesis. Diacylglycerol was able to mimic the effects of PMA on LH-induced steroidogenesis. These observations suggest that the Ca2+- and phospholipid-dependent protein kinase C can modulate the regulation by LH of small bovine luteal cell steroidogenesis at a step before the synthesis of cAMP. They also suggest that the interaction between LH and its receptor is able to trigger a negative regulatory signal which would be only expressed for high doses of LH and in the presence of an activator of PKC.     

Influence of microbial co-inhabitants on aflatoxin synthesis of Aspergillus flavus on maize kernels

The co-inhabiting mycoflora with Aspergillus flavus observed on individual maize kernels was evaluated for its influence on aflatoxin synthesis. All 13 types of associations of different fungal species inhibited aflatoxin B₁ and G₁ production at different levels (34·3–100%). Inhibition of radial growth of A. flavus by Fusarium moniliforme (59·8%), Trichoderma viride (72·5%) and Rhizopus nigricans (42%) could be directly correlated to the per cent inhibition of aflatoxin production. High levels of inhibition of aflatoxin elaboration were noted in competition of A. flavus with other toxigenic moulds.