Global Analysis of the Hortaea werneckii proteome: studying steroid response in yeast

The response of the halophilic black yeast Hortaea werneckii to the steroid hormone progesterone has been studied at the protein level using fluorescent two-dimensional differential gel electrophoresis (2D-DIGE) technology in combination with mass spectrometry. Data on protein identification from this study reveal molecular mechanisms of the response to progesterone. In particular, the overexpression of Pck2 and Pac2 in the stimulated cells indicates the interactions of progesterone with the cell growth and reproduction signaling pathways.     

Steroid hormones as bactericidal agents to Helicobacter pylori

Helicobacter pylori is a unique bacterial species that assimilates various steroids as membrane lipid components. Our group has recently found, however, that certain steroids may impair the viability of H. pylori. In this study, we go on to reveal that estradiol, androstenedione, and progesterone (PS) all have the potential to inhibit the growth of H. pylori. Of these three steroid hormones, progesterone demonstrated the most effective anti-H. pylori action. 17α-hydroxyprogesterone caproate (17αPSCE), a synthetic progesterone derivative, had a much stronger anti-H. pylori action than progesterone, whereas 17α-hydroxyprogesterone, a natural progesterone derivative, completely failed to inhibit the growth of the organism. Progesterone and 17αPSCE were both found to kill H. pylori through their bacteriolytic action. Among five bacterial species investigated, H. pylori was the only species susceptible to the bactericidal action of progesterone and 17αPSCE. The other four species, Escherichia coli, Pseudomonas aeruginosa, Staphylococcus aureus, and Staphylococcus epiderimidis, all resisted this action. Progesterone and free-cholesterol (FC) obstructed each other's effects against the H. pylori cell. Taken in sum, these results suggest that progesterone and FC may bind to the identical region on the H. pylori cell surface. We expect these findings to contribute to the development of a novel anti-H. pylori steroidal agent.     

Immunocytochemical analysis of oestrogen receptors and progesterone receptors in the human uterus throughout the menstrual cycle and after the menopause.

To obtain more insight into the relationship between cyclic and regional changes in steroid receptor expression and function-related changes in the various types of cell of the normal human uterus, we performed an immunocytochemical study on paraffin-embedded sections. The distribution and intensity of immunostaining for the oestrogen receptor and the progesterone receptor in the various types of cell were semiquantitatively scored. The data were statistically compared for the different phases of the menstrual cycle and after the menopause, and for the different regions of the corpus and (endo)cervix uteri. During the menstrual cycle, significant changes in oestrogen receptor score were observed in glandular and stromal cells of endometrium basalis and functionalis and in smooth muscle cells of the myometrium. In all types of cell, oestrogen receptor expression reached a maximum in the late proliferative phase. During the early secretory phase, oestrogen receptor staining declined sharply in stromal and smooth muscle cells, whereas, in glandular epithelium, oestrogen receptor expression decreased more gradually. During mid- and late-secretory phases, an increase in oestrogen receptor staining was also observed in predecidualizing stromal cells and smooth muscle cells. Progesterone receptor numbers changed significantly in glandular epithelium but not in stromal and smooth muscle cells. Glandular progesterone receptor expression reached a maximum in the early secretory phase and was then drastically reduced. During mid- and late-secretory phases stromal cells were moderately stained for progesterone receptor in contrast to epithelial gland cells which showed no or very weak staining. No regional variations in steroid receptor distribution in endometrium and myometrium were found.(ABSTRACT TRUNCATED AT 250 WORDS)     

Role of oxidative stress in the extremely salt-tolerant yeast Hortaea werneckii

Eukaryotic halotolerant microorganisms are important as model organisms to understand the general mechanisms of resistance to environmental salinity. The ability of the extremely halotolerant black yeast Hortaea werneckii to combat oxidative stress was addressed, using hydrogen peroxide to generate the reactive oxygen species. Increasing environmental salinity was found to have no effect on its high ability to degrade hydrogen peroxide but resulted in a decrease in viability in response to externally added hydrogen peroxide, suggesting that the latter property determines the upper limit of the salt tolerance of H. werneckii. A refinement of the model of adaptation of H. werneckii to high-salinity environments is proposed.     

Hydrocortisone and progesterone regulation of the proliferation,morphogenesis, and functional differentiation of normal rat mammary epithelial cells in three dimensional primary culture

The mechanisms of action of, and resistance to, the steroidal regulators of normal mammary epithelial and breast cancer cell development are only partially understood. A major obstacle to research progress has been the difficulty in supporting physiologically relevant development of normal mammary epithelial cells (MEC) under defined serum-free conditions. A primary culture system was developed in our laboratory that permits nonfunctional rat MEC to undergo extensive proliferation, functional differentiation, as well as multilobular and lobuloductal branching alveolar morphogenesis. In the studies reported here, the contributions of hydrocortisone and progesterone during the coordinate induction of cellular proliferation, organoid morphogenesis, and functional capacity were assessed. Hydrocortisone (0.1–10 μg/ml) induced alveolar and multilobular branching morphogenesis, suppressed lobuloductal branching morphogenesis, and enhanced casein accumulation. Hydrocortisone also played a role in maintaining alveolar as well as multilobular branching morphogenesis and casein levels. Progesterone (0.01–1 μg/ml) induced cellular proliferation as well as multilobular and lobuloductal branching morphogenesis, and suppressed casein accumulation. At a supraphysiological concentration (10 μg/ml), progesterone inhibited cell growth, alveolar branching morphogenesis, and casein accumulation. MEC cultured without progesterone for up to 1 week retained the ability to respond when subsequently exposed to this steroid. Reversibility studies suggested that progesterone was required for the induction, but not the maintenance of the mitogenic, morphogenic, and lactogenic effects. This physiologically relevant primary culture system can be used to study the factors that regulate steroid responsiveness as well as the cross-talk between steroid and growth factor receptor signaling pathways in normal MEC and breast cancer cells. © 1995 Wiley-Liss, Inc.     

Application of functional genomics to primate endometrium: insights into biological processes

Endometrium is a dynamic tissue that responds on a cyclic basis to circulating levels of the ovarian-derived steroid hormones, estradiol and progesterone. Functional genomics has enabled a global approach to understanding gene regulation in whole endometrial tissue in the setting of a changing hormonal milieu. The proliferative phase of the cycle, under the influence of estradiol, has a preponderance of genes involved in DNA synthesis and cell cycle regulation. Interestingly, genes encoding ion channels and cell adhesion, as well as angiogenic factors, are also highly regulated in this phase of the cycle. After the LH surge, different gene expression profiles are uniquely observed in the early secretory, mid-secretory (window of implantation), and late secretory phases. The early secretory phase is notable for up-regulation of multiple genes and gene families involved in cellular metabolism, steroid hormone metabolism, as well as some secreted glycoproteins. The mid-secretory phase is characterized by multiple biological processes, including up-regulation of genes encoding secreted glycoproteins, immune response genes with a focus on innate immunity, and genes involved in detoxification mechanisms. In the late secretory phase, as the tissue prepares for desquamation, there is a marked up-regulation of an inflammatory response, along with matrix degrading enzymes, and genes involved in hemostasis, among others. This monograph reviews hormonal regulation of gene expression in this tissue and the molecular events occurring therein throughout the cycle derived from functional genomics analysis. It also highlights challenges encountered in using human endometrial tissue in translational research in this context.     

Changes in the cell wall composition and structure of Streptococcus pyogenes during batch culture

Changes in S. pyogenes cells in the process of batch cultivation have been studied. The composition of S. pyogenes cell walls has been studied by amino acid analysis; besides, their resistance to enzymatic hydrolysis and the electric conductivity of cell-wall lysates have been determined at different phases of the growth of S. pyogenes. The molar amino acid composition, expressed in percent, is unrelated to the growth phase, while the content of amino acids in preparations changes in the process of growth and reaches its maximum in the middle and in the end of the logarithmic phase. At the same time the electric conductivity of cell-wall lysates reaches the minimum level at these growth stages. The authors suggest that additional electrically charged compositions are formed in the cell walls at the beginning of the logarithmic and stationary phases. A considerable increase in the initial rate of cell-wall lysis with muramidase has been found to occur at the end of the logarithmic phase. This difference in the initial rate in the initial rates of lysis of S. pyogenes cell walls at different growth phases decreases after previous treatment of the cell walls with streptolytin possessing proteolytic activity. Analysis of these data leads to a conclusion on the "loose" structure of the outer protein layer of the cell wall at the end of the logarithmic phase of the growth curve.     

Surface electrokinetic properties of two strains of Staphylococcus aureus during their cell growth cycle

Two strains of Staphylococcus aureus were investigated: S. aureus H, a normal wild-type strain, and 52A5, a mutant strain whose cell wall contains no teichoic acid but is made up entirely of mucopeptide. S. aureus H cells in the lag or stationary phase of growth had an electrophoretic mobility of ?1.10 μm/s/V/cm while those in the logarithmic phase had a mobility of ?0.80 μm/s/V/cm in saline at pH 7.2, 0.6 mM NaHCO₃, 25°C (I = 0.145 g-ions/l). S. aureus 52A5 cells in the same solution had a mobility of ?0.87 μm/s/V/cm in lag and stationary growth phases but a mobility of ?1.30 μm/s/V/cm in the logarithmic growth phase. The S. aureus H cell surfaces at lag phase had pKs of 3.2 and 9.5; at logarithmic phase, 4.2 and 9.0; and at stationary phase, 3.0 and 9.5. The 52A5 cell surfaces at lag phase had pKs of 2.3 and 10.3; at logarithmic phase, 1.7 and 8.5; at stationary phase, 2.6 and 10.2.     

产朊假丝酵母细胞壁33 ku蛋白的功能研究

通过胰蛋白酶和枯草杆菌蛋白酶对产朊假丝酵母Candida utilis细胞壁的酶解,发现一种分子质量为33 ku的酵母细胞壁主要结构蛋白. 研究显示,在细胞壁上这种蛋白质与细胞壁绝大多数蛋白质成分不同, 它不被胰蛋白酶水解,但对枯草杆菌蛋白酶的作用敏感.33 ku蛋白存在于酵母菌整个对数生长期的细胞壁中,特别是在对数早期细胞壁中,它是唯一的对胰蛋白酶作用不敏感的蛋白质成分.实验证明,该蛋白质对维系酵母细胞壁骨架成分葡聚糖的相互连接和细胞壁的完整结构,具有重要作用,是一种重要的酵母细胞壁嵌合蛋白.     

Scale up of the production of xylitol dehydrogenase and alcohol dehydrogenase from Pachysolen tannophilus grown on xylose

Summary Coproduction of two enzymes, xylitol dehydrogenase (XDH) and alcohol dehydrogenase (ADH), was attempted using the yeast Pachysolen tannophilus. Production of both enzymes was scaled up to a volume of 500 l with the yeast growing on xylose a the sole carbon source. Maximal amount of XDH was obtained by harvesting the cells at the end of the logarithmic growth phase. Activity of XDH was induced by imposing anaerobic conditions, thereby yielding 10 times more enzyme than was obtained for aerobic growth conditions. In crude extracts, obtained by passage through a French press (20 000 p.s.i.), XDH activity was 0.057 u/mg protein and ADH was 0.15 u/mg for aerobic growth and 1.5 u/mg for microaerophilic growth. Extraction of intracellular enzymes on a large sale was performed with a combination of cell wall lytic enzymes and an industrial homogenizer (Manton-Gaulin, 3000 p.s.i.). This system enabled a continuous mode of operation (single passage through homogenizer) with a high cell density (100 g/l) and the extracts contained 0.033 u/mg of XDH and 0.45 u/mg protein of ADH.     

Progesterone-synthesizing ability of preovulatory follicles of cows relative to the peak of LH

Preovulatory cow follicles (n = 34) were collected at different times after the onset of oestrus until shortly before ovulation. In-vitro conversion of tritiated pregnenolone in the presence of NAD+ by homogenates of the follicular wall was compared in phases relative to the LH peak. During phase 0 (before the LH surge) a moderate conversion into progesterone occurred, but it was subsidiary to that into 17 alpha-hydroxypregnenolone and other unidentified steroids. During phases 1 (0-6 h after the LH peak), 2A (6-14 h) and 2B (14-20 h) the production of progesterone and 17 alpha-hydroxypregnenolone remained constant; at phase 2B the percentage of remaining pregnenolone was higher than in the preceding phases. In phase 3 (20 h after the LH peak until ovulation) conversion into progesterone had increased about 4-fold to the highest levels observed (97% after 2 h incubation), and production of 17 alpha-hydroxypregnenolone and unidentified steroids was low. In an additional experiment, homogenates of the wall of 3 follicles at phase 3 were also incubated with tritated progesterone in the presence of NADPH. The percentage of remaining progesterone was high, and a moderate conversion into 17 alpha-hydroxyprogesterone occurred. In the main experiments, however, production of this steroid was not observed. The results indicate that steroid synthesis in the preovulatory follicle of the cow changes to the production of progesterone shortly before ovulation.     

Salt stress affects sterol biosynthesis in the halophilic black yeast Hortaea werneckii

Hortaea werneckii is a black yeast recently isolated from salterns in Slovenia. Some of the adaptations of halophilic microorganisms to increased salinity and osmolarity of the environment are alterations in membrane properties. By modulating the fluidity, sterols play an important role as a component of eukaryotic biological membranes. We studied the regulation of sterol biosynthesis in H. werneckii through the activity and amount of 3-hydroxy-3-methylglutaryl coenzyme A reductase (HMG R), a key regulatory enzyme in the biosynthesis of sterols. We found some differences in the characteristics of HMG R and in its regulation by different environmental salinities in H. werneckii when compared to the mesophilic baker's yeast, Saccharomyces cerevisiae. Our results suggest that halophilic black yeast regulates sterol biosynthesis through HMG R in a different way than mesophiles, which might be a consequence of the different ecophysiology of halophilic black yeasts. From this perspective, H. werneckii is an interesting novel model organism for studies on salt stress-responsive proteins as well as on sterol biosynthesis in eukaryotes.     

Elucidating progesterone effects in breast cancer: cross talk with PDGF signaling pathway in smooth muscle cell

Several studies indicate that progesterone exerts relevant effects in breast tissue. However, the exact role of this steroid in breast cancer development and progression has not been elucidated. Here, we show that platelet-derived growth factor (PDGF)-A is one of the progesterone target genes on breast cancer MCF7 and T47D cells. A paracrine role for PDGF-A was investigated, since its receptor expression was down-regulated from breast cancer cells. Progesterone increased PDGF-A protein release as evaluated by Western blotting and ELISA. Medium from Progesterone-treated MCF7 cells resulted in phosphorylation of smooth muscle cells PDGF receptor alpha. This effect was not observed after treatment with PDGF inhibitor. MCF7 cells-secreted PDGF-A was able to increase smooth muscle cell viability and proliferation and decrease apoptosis, effects that were prevented by the use of a PDGF-A neutralizing antibody. Notably, cell invasion was not influenced by PDGF-A secreted by MCF7 cells. Our results elucidated for the first time the cross talk between progesterone and PDGF signaling pathway. The fact that MCF7-secreted PDGF elicited crucial roles in vascular wall smooth muscle cells, suggested a paracrine pathway for progesterone. Targeting these progesterone-induced processes may provide novel therapeutic strategies for hormone-dependent human breast cancer.     

Expression and activity of type 1 NAD(P)H dehydrogenase at different growth phases of the cyanobacterium, Synechocystis PCC 6803

The expression and activity of type 1 NAD(P)H dehydrogenase (NDH-1) were investigated in Synechocystis PCC 6803 cells during different growth phases (i.e. lag, logarithmic, stationary and decline phases). The relative amount of NDH-1, estimated by Western blot analysis using antibodies against NdhH, NdhI and NdhK, increased more than two-fold during growth from the lag to the logarithmic phase and then decreased after the logarithmic phase to reach lowest levels after 15 days (decline phase). The activity of light-dependent NADPH oxidation and cyclic electron flow around photosystem I (PSI) changed nearly in parallel with the amount of NdhH, NdhI and NdhK in cells across the growth phases. In contrast, the activity of photosynthetic O₂ evolution and respiratory O₂ uptake was not significantly different across phases of growth; the fluctuation of the activity at different phases was within 40%. These results suggested that the activity of light-dependent NADPH oxidation and PSI-cyclic electron flow are restricted by the amount of NDH-1 and that other factor(s) are limiting the rates of photosynthesis and respiration.     

Non-genomic effects of progesterone on the signaling function of G protein-coupled receptors

Progesterone at concentrations between 10 microM and 200 microM affected the calcium signaling evoked by ligand stimulation of G protein-coupled receptors expressed in several cell lines. At 160 microM progesterone the signaling of all receptors was completely abolished. The effect of progesterone was fast, reversible and was not prevented by cycloheximide indicating its non-genomic nature. Overall, the action of progesterone was more cell type-specific than receptor-specific. Our results are in contrast to a recent report [Grazzini, E., Guillon, G., Mouillac, B. and Zingg, H.H. (1998) Nature 392, 509-512] in which a direct high-affinity interaction between the oxytocin receptor and progesterone was suggested.     

Inhibition of growth and cellular aggregation of Dictyostelium discoideum by steroid compounds.

A study of the effects of steroid hormones on the development of Dictyostelium discoideum has shown that 4 × 10^?5M progesterone, and to a lesser extent dehydro-epiandrosterone, oestradiol and testosterone, inhibit both the growth and aggregation of these amoebae. Pregnenolone is active at lower concentrations (3 × 10^?6M), but at the level of growth only. Progesterone exerts its inhibitory action throughout the aggregation phase. The steroid prevents starved cells from becoming aggregation competent, and inhibits the aggregation of amoebae previously allowed to achieve the competent stage. However, unlike other agents such as dinitrophenol or EDTA, the steroid does not considerably affect cell morphology. Upon addition of progesterone cells become rounded, but after a brief lag they regain their ability to adhere to solid supports and form pseudopods. The fact that the steroids active on Dictyostelium are among the most liposoluble might indicate that their inhibitory action is dependent upon their incorporation into membrane lipids.     

11β-Hydroxysteroid dehydrogenase activity in progesterone biotransformation by the filamentous fungus Cochliobolus lunatus

Progesterone biotransformation was examined in relation to hydroxylating and dehydrogenating enzymes of Cochliobolus lunatus. 11β-hydroxysteroid dehydrogenase activity (11β-HSD) was located in cytosolic fraction and was NADP-dependent, inducible by progesterone and apparently unidirectional. Several inhibitors of 11β-hydroxysteroid dehydrogenase were tested; furosemide, glycyrrhizic-acid and carbenoxolone did not influence the dehydrogenation of 11β-hydroxy-4-pregnene-3,20-dione to 4-pregnene-3,11,20-trione, although grapefruit juice significantly reduced the rate of progesterone hydroxylation.