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Pathogen research abs 1 || Pathogen research abs 2 || Pathogen research abs 3 || Pathogen research abs 4 || Pathogen research abs 5 || Hormone and endocrine research abs 1 || Hormone and endocrine research abs 2 || Hormone and endocrine research abs 3 || Hormone and endocrine research abs 4 || Hormone and endocrine research abs 5





J Biol Chem. 1999 Mar 12;274(11):7421-30.
Distinctive roles of STAT5a and STAT5b in sexual dimorphism of hepatic P450 gene expression. Impact of STAT5a gene disruption.

Park SH, Liu X, Hennighausen L, Davey HW, Waxman DJ.

Division of Cell and Molecular Biology, Department of Biology, Boston University, Boston, Massachusetts 02215, USA.

Stat5b gene disruption leads to an apparent growth hormone (GH) pulse insensitivity associated with loss of male-characteristic body growth rates and male-specific liver gene expression (Udy, G. B., Towers, R. P., Snell, R. G., Wilkins, R. J., Park, S. H., Ram, P. A., Waxman, D. J., and Davey, H. W. (1997) Proc. Natl. Acad. Sci. U. S. A. 94, 7239-7244). In the present study, disruption of the mouse Stat5a gene, whose coding sequence is approximately 90% identical to the Stat5b gene, resulted in no loss of expression in male mice of several sex-dependent, GH-regulated liver cytochrome P450 (CYP) enzymes. By contrast, the loss of STAT5b feminized the livers of males by decreasing expression of male-specific CYPs (CYP2D9 and testosterone 16alpha-hydroxylase) while increasing to female levels several female-predominant liver CYPs (CYP3A, CYP2B, and testosterone 6beta-hydroxylase). Since STAT5a is thus nonessential for these male GH responses, STAT5b homodimers, but not STAT5a-STAT5b heterodimers, probably mediate the sexually dimorphic effects of male GH pulses on liver CYP expression. In female mice, however, disruption of either Stat5a or Stat5b led to striking decreases in several liver CYP-catalyzed testosterone hydroxylase activities. Stat5a or Stat5b gene disruption also led to the loss of a female-specific, GH-regulated hepatic CYP2B enzyme. STAT5a, which is much less abundant in liver than STAT5b, and STAT5b are therefore both required for constitutive expression in female but not male mouse liver of certain GH-regulated CYP steroid hydroxylases, suggesting that STAT5 protein heterodimerization is an important determinant of the sex-dependent and gene-specific effects that GH has on the liver.


online pharmacy ref. source: www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=10066807&dopt=Abstract



Endocrinology. 1999 Mar;140(3):1432-41.
Pulsatile release of luteinizing hormone-releasing hormone (LHRH) in cultured LHRH neurons derived from the embryonic olfactory placode of the rhesus monkey.

Terasawa E, Keen KL, Mogi K, Claude P.

Wisconsin Regional Primate Research Center, and Department of Pediatrics, University of Wisconsin, Madison 53715-1299, USA. terasawrimate.wisc.edu

To study the mechanism of LH-releasing hormone (LHRH) pulse generation, the olfactory pit/placode and the migratory pathway of LHRH neurons from monkey embryos at embryonic age 35-37 were dissected out, under the microscope, and cultured on plastic coverslips coated with collagen in a defined medium for 2-5 weeks. First, we examined whether cultured neurons release the decapeptide into media. It was found that LHRH cells release LHRH in a pulsatile manner at approximately 50-min intervals. Further, LHRH release was stimulated by depolarization with high K+ and the Na+ channel opener, veratridine. However, whereas the Na+ channel blocker, tetrodotoxin suppressed the effects of veratridine, tetrodotoxin did not alter the effects of high K+. Subsequently, the role of extracellular and intracellular Ca2+ in LHRH release was examined. The results are summarized as follows: 1) exposing the cells to a low Ca2+ (20 nM) buffer solution suppressed LHRH release, whereas exposure to a normal Ca2+ solution (1.25 mM) maintained pulsatile LHRH release; 2) LHRH release from cultured LHRH cells was stimulated by the voltage-sensitive L-type Ca2+ channel agonist, Bay K 8644 (10 microM), whereas it was suppressed by the L-type Ca2+ channel blocker, nifedipine (1 microM), but not by the N-type channel blocker, omega-conotoxin GVIA (1 microM); 3) the intracellular Ca2+ stimulant, ryanodine (1 microM), stimulated LHRH release, whereas the intracellular Ca2+ transporting adenosine triphosphatase antagonist, thapsigargin (1 and 10 microM), did not yield consistent results; and 4) carbonyl cyanide p-trifluoromethoxyphenyl-hydrazone (1 microM), a mitochondrial Ca2+ mobilizer, stimulated LHRH release, whereas ruthenium red, a mitochondrial Ca2+ uptake inhibitor, did not induce consistent results. These results indicate that: 1) the presence of extracellular Ca2+ is essential for LHRH neurosecretion; 2) Ca2+ enters the cell via L-type channels but not N-type channels; and 3) mobilization of intracellular Ca2+ from inositol 1,4,5-triphosphate-sensitive stores, as well as mitochondrial stores, seem to contribute to LHRH release in these cells.


online pharmacy ref. source: www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=10067872&dopt=Abstract



Endocrinology. 1999 Mar;140(3):1442-8.
Regulation of hepatic glycogen in the insulin-like growth factor II-deficient mouse.

Lopez MF, Dikkes P, Zurakowski D, Villa-Komaroff L, Majzoub JA.

Department of Medicine, Children's Hospital and Harvard Medical School, Boston, Massachusetts 02115, USA. lopez_1.tch.harvard.edu

Insulin-like growth factor II (IGF-II), a polypeptide hormone with structural homologies to insulin-like growth factor I (IGF-I) and insulin, regulates the metabolism and growth of many tissues. In this study, we examined the role of IGF-II in hepatic glycogen metabolism in normal and growth-retarded IGF-II-deficient (knockout) mice. Liver glycogen content was significantly lower in the IGF-II knockout than in control livers during embryonic day 18 and postnatal day 0. Biochemical results were verified histologically using a glycogen-specific stain. The enzymatic activity of glycogen synthase, the rate-limiting enzyme for glycogen synthesis, was significantly lower in livers of knockout mice than in livers from wild-type controls on embryonic day 18 and postnatal day 0. The levels of glycogen synthase messenger RNA were not different between the two groups at any age studied, indicating that IGF-II acts posttranscriptionally. Hepatic glycogen content, measured in newborns after food withdrawal, was significantly lower in knockout mice compared with that in wild-type mice after 0, 3, and 6 h of fasting. Blood glucose was significantly lower in knockouts vs. wild-type newborn mice before fasting and was similar in both genotypes after 6 h of fasting. Consistent with this, only 23% of IGF-II knockout newborn mice survived fasting for 12 h, whereas 93% of wild-type mice survived this treatment. These results indicate that IGF-II is required for the regulation of glycogen metabolism of the mouse in the perinatal period, possibly via stimulation of glycogen synthase activity. IGF-II, via perinatal regulation of glycogen synthesis, may regulate fetal growth as well as play an important role in the transition from fetal to postnatal life by protecting the neonate against hypoglycemia during periods of fasting.


online pharmacy ref. source: www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=10067873&dopt=Abstract



Endocrinology. 1999 Mar;140(3):1349-55.
The detrimental effects of spinal cord injury on spermatogenesis in the rat is partially reversed by testosterone, but enhanced by follicle-stimulating hormone.

Huang HF, Li MT, Giglio W, Anesetti R, Ottenweller JE, Pogach LM.

Veterans Affairs Medical Center, East Orange, New Jersey 07019, USA. huanghmdnj.edu

Our previous studies have demonstrated that impaired spermatogenesis during the acute phase of spinal cord injury (SCI) is preceded by a transient (but significant) suppression of serum FSH, LH, and testosterone (T) concentrations. It is hypothesized that hormonal deprivation may impair Sertoli cell function, leading to the loss of spermatogonia, degeneration of spermatogenic cells, and eventual regression of the seminiferous epithelium. The current study examined the efficacy of exogenous T and FSH in the maintenance of spermatogenesis and Sertoli cell functions in SCI rats. Implantation of T capsules (TC, 2 x 5 cm) attenuated some of the spermatogenic lesions and maintained qualitatively complete spermatogenesis in all SCI rats 4 weeks after the surgery. In contrast, daily injections of 0.1 U of FSH alone, or in combination with TC implants, paradoxically enhanced the regression of spermatogenesis in SCI rats. At this time, the numbers of Aal, A1, and B spermatogonia and preleptotene spermatocytes in SCI rats have decreased by 25-30%. Though not prevented by TC implants, the decrease in Aal and A1 spermatogonia was attenuated by FSH alone but was further enhanced when FSH-treated rats also received TC implants. The intratesticular T concentration in untreated and FSH-treated SCI rats was not different from that of sham control rats, but it decreased by more than 95% in those SCI rats given TC implants alone. These results demonstrate that impairment of spermatogenesis during the acute phase of SCI is not related to the availability of FSH and/or T. Northern blot analysis revealed an increase in androgen receptor messenger RNA (mRNA) in the testis of SCI rats; this increase was prevented by TC implants but persisted when FSH was also given. In contrast, the levels of FSH-receptor, androgen binding protein, and transferrin mRNA were not affected by SCI but were significantly higher in those SCI rats given FSH alone or in combination with TC. TC implants alone suppressed mRNA levels of transferrin in testes of SCI rats, without concomitant change in those for FSH-receptor and ABP. The changes in Sertoli cell responses to FSH and T, and perhaps other hormones, may alter signal events elicited by these hormones, thus contributing to abnormal epithelial environments and regression of spermatogenesis. Maintenance of spermatogenesis in SCI rats by exogenous T suggests the feasibility of using exogenous hormones to impede the detrimental effects of SCI on spermatogenesis. This approach may have clinical applicability for the preservation of spermatogenic functions in SCI men.


online pharmacy ref. source: www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=10067862&dopt=Abstract



Proc Natl Acad Sci U S A. 1999 Mar 2;96(5):1858-62.
Proteasome-dependent degradation of the human estrogen receptor.

Nawaz Z, Lonard DM, Dennis AP, Smith CL, O'Malley BW.

Department of Cell Biology, Baylor College of Medicine, One Baylor Plaza, Houston, TX 77030, USA.

In eukaryotic cells, the ubiquitin-proteasome pathway is the major mechanism for the targeted degradation of proteins with short half-lives. The covalent attachment of ubiquitin to lysine residues of targeted proteins is a signal for the recognition and rapid degradation by the proteasome, a large multi-subunit protease. In this report, we demonstrate that the human estrogen receptor (ER) protein is rapidly degraded in mammalian cells in an estradiol-dependent manner. The treatment of mammalian cells with the proteasome inhibitor MG132 inhibits activity of the proteasome and blocks ER degradation, suggesting that ER protein is turned over through the ubiquitin-proteasome pathway. In addition, we show that in vitro ER degradation depends on ubiquitin-activating E1 enzyme (UBA) and ubiquitin-conjugating E2 enzymes (UBCs), and the proteasome inhibitors MG132 and lactacystin block ER protein degradation in vitro. Furthermore, the UBA/UBCs and proteasome inhibitors promote the accumulation of higher molecular weight forms of ER. The UBA and UBCs, which promote ER degradation in vitro, have no significant effect on human progesterone receptor and human thyroid hormone receptor beta proteins.


online pharmacy ref. source: www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=10051559&dopt=Abstract







Natural Herbal Supplement: Hair Million


Hair loss alone does not pose significant health problems. In fact, there are people who opt for baldness as an alternative hair style. However, in general, however, hair loss is not considered desirable.

The most ostensive feature that distinguishes us human from chimps and other primates is the lack of bodily hair. During evolutionary process, we have lost the majority of hair. Hair is no longer a biologically essential part of our body, just like appendix. The hair we still have on our scalp and a few other bodily parts is still regarded as significant for reasons other than biological necessity. Hair loss is naturally accompanied by aging process, although the extent of hair loss and the timing of onset vary widely among individuals. Thus, loss of hair and baldness is considered as a symbol of maturity or old age. Like winkles and other signs of aging, hair loss is not welcome by most people, because we don't welcome aging, and being perceived as an aging person. However, it is alopecia, or premature hair loss that especially concerns certain people.

While the hair loss and resulting baldness in general have not been proven to be related to underlying health problems, there are certain correlations between hair loss and health problems. For instance, premature hair loss could suggest premature aging or nutritional and hormonal imbalance, stressful life, use of drugs that cause hair loss as a side effect, skin disease, or heart disease. The balding appearance could also impart a subdued impression of integrity in bodily health and youthfulness.












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