The action of steroid hormones is primarily mediated via a process that involves hormone binding to specific receptors in target cells, which leads to transcriptional activation of steroid-responsive genes and, subsequently, to a modification of cellular responses. The aim of the present study was to obtain information about the dynamics of the two types of estrogen receptors (ERs), alpha and beta, by comparing their concentration and distribution in the reproductive tract of the rat during the estrous cycle. Twenty-four 55- to 60-day-old female Sprague-Dawley rats were used. The stage of estrous cycle was determined by vaginal smear. ERalpha was the dominating subtype in uterus, oviduct, and cervix/vagina, with the distribution varying in stroma and epithelium during the estrous cycle. A low level of ERalpha mRNA was observed in ovarian stromal cells, with some scattered positive cells found among granulosa cells. ERbeta expression was observed in the different compartments of uterus and cervix/vagina, but cyclic variation during the estrous cycle was less evident than that of ERalpha. Only a few scattered cells that contained ERbeta mRNA were observed in oviduct. ERbeta mRNA was highly expressed in granulosa cells of developing follicles, with a weaker hybridization signal in new corpora lutea. Immunohistochemistry showed that protein levels of ERalpha and ERbeta have distinct specificity for tissues and cell types, similar to their respective levels of mRNA, as assessed by in situ hybridization. The precise physiological function and importance of ERbeta is still unclear. The relative physiological and pathological function of each ER subtype in the female reproductive tract remains to be further evaluated.
Background:The enzyme myeloperoxidase produces chlorine bleach at sites of inflammation. Results: 2-Thioxanthines are potent mechanism-based inactivators of myeloperoxidase. Conclusion: 2-Thioxanthines block production of chlorine bleach during inflammation. Significance: Mechanism-based inactivators of myeloperoxidase should limit oxidative stress at sites of inflammation.
The uterus is an important target organ for steroid hormones. The effects of these hormones are mediated via specific receptors. The aim of this study was to compare the expression, distribution, and regulation of estrogen receptor (ER) alpha and beta in the rat uterus in order to establish possible different biological roles for the two receptor forms. Ovariectomized rats were treated with either estradiol (E(2)), progesterone (P(4)), or combinations of these for 24 or 48 h. The mRNA levels were measured by solution hybridization. Distribution of the mRNAs and receptor proteins was detected by in situ hybridization and immunohistochemistry. The results showed that ERalpha is the dominating subtype in the rat uterus. E(2) seemed to increase the ERalpha mRNA level in the glandular and luminal epithelium, but it caused a decrease of the immunostaining intensity in the glandular epithelium. P(4) reduced ERalpha expression in luminal epithelium whereas no effect was seen in the glandular epithelium. E(2) or P(4) did not alter the expression of ERbeta, on either the mRNA or protein level. In conclusion, the distribution and regulation of ERalpha and ERbeta differ in the different compartments of the rat uterus. The complex uterine responses to E(2) and P(4) are directly or indirectly mediated by differential cell-specific expression of their receptors. The low expression in the uterus and the limited regulation by gonadal steroids in this study suggest that ERbeta probably plays a minor role in the regulation of uterine physiology.
Multiple system atrophy (MSA) is a rare and fatal α-synucleinopathy characterized by a distinctive oligodendrogliopathy with glial cytoplasmic inclusions and associated neuronal multisystem degeneration. The majority of patients presents with a rapidly progressive parkinsonian disorder and atypical features such as early autonomic failure and cerebellar ataxia. We have previously reported that complete MSA pathology can be modeled in transgenic mice overexpressing oligodendroglial α-synuclein under conditions of oxidative stress induced by 3-nitropropionic acid (3-NP) including striatonigral degeneration, olivopontocerebellar atrophy, astrogliosis, and microglial activation. Here, we show that myeloperoxidase (MPO), a key enzyme involved in the production of reactive oxygen species by phagocytic cells, is expressed in both human and mouse MSA brains. We also demonstrate that in the MSA mouse model, MPO inhibition reduces motor impairment and rescues vulnerable neurons in striatum, substantia nigra pars compacta, cerebellar cortex, pontine nuclei, and inferior olives. MPO inhibition is associated with suppression of microglial activation but does not affect 3-NP induced astrogliosis in the same regions. Finally, MPO inhibition results in reduced intracellular aggregates of α-synuclein. This study suggests that MPO inhibition may represent a novel candidate treatment strategy against MSA-like neurodegeneration acting through its anti-inflammatory and anti-oxidative properties.
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