Testosterone-dependent changes in neurons of hypothalamic arcuate nucleus and reversibility of these changes by modeled male hypogonadism
Abstract: Актуальность. Значение недостаточности тестостерона для структурного гомеостазиса нейронов, регулирующих выработку гонадотропин-рилизинг гормона (ГнРГ) и синтезирующих данный горм�он, мало изучены. Цель. Установить реактивные изменения, количество рецепторов к андрогенам (АР) и особенности их распределения в нейронах медиального аркуатного ядра гипоталамуса (МАЯ) при экспериментальном гипогонадизме, а также обратимость этих изменений после восстановительной терапии тестостероном. Методы. У самцов крыс Вистар (1… Show more
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Cited by 4 publications
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ВACKGROUND: The article is devoted to the stereo-morphological analysis of the nuclei of the hypothalamus, synthesizing proteins of the kisspeptin family, regulating sexual differentiation various parts of the extended kisspeptin-producing nuclei of the hypothalamus and the features of their asymmetry in mature rats. The morphology of various parts of extended kisspeptin-producing nuclei of the hypothalamus remains poorly understood, which significantly complicates the choice of their reference zone, from which planning and implementation of morphological studies should begin, related to the evaluation of the effectiveness of therapeutic correction of various forms of hypogonadism. AIM: Determination of the main source of regulatory peptides of the kisspeptin family based on the analysis of the number, area of neuron bodies and volumetric characteristics of the kisspeptin-producing nuclei of the hypothalamus. MATERIALS AND METHODS: We studied 50 frontal paraffin sections of KPNs of 8 intact sexually mature male rats obtained as a result of a standard technique for their preparation and staining by the Nissl method. As a result, we carried out volumetric reconstruction of the largest nucleus of the arcuate complex the medial arcuate nucleus and the large periventricular nucleus, after which the number and area of neurosecretory cell bodies were determined in 5 frontal planes of these nuclei. To determine the proportion of kisspeptin-producing neurons in the total number of neurons in the kisspeptin-producing nuclei of the hypothalamus, we also performed the subsequent quantitative and morphometric characterization of their kisspeptin-producing neurons (after immunohistochemical staining, the identification of kisspeptin-kisspeptin granules. Statistical data processing was performed using the GraphPad PRISM 6.0 program, determining and lower quartiles. Differences were considered significant at p 0.01. RESULTS: Subdivisions of the nuclei, which are the main source of these regulatory proteins, have been identified. The caudal part of the medial arcuate nucleus (at the level of bregma 3.6 mm) and the anterior part of the periventricular nucleus (at the level of bregma 0.2 mm) are subdivisions of the corresponding kisspeptin-producing nuclei of the hypothalamus of the kisspeptin-producing nuclei of the hypothalamus, containing the largest number of neurosecretory cells and the bodies of their largest largest area. The number and area of neurons in the left-sided and right-sided parts of the hypothalamic kisspeptin-producing nuclei of the hypothalamus did not differ significantly. In this regard, the listed left-sided and right-sided subdivisions of the kisspeptin-producing kisspeptin-producing nuclei of the hypothalamus of the were proposed as standards for their subsequent morphological studies, which are important for assessing the effectiveness of therapeutic correction of various forms of hypogonadism. CONCLUSIONS: The left-sided and right-sided caudal parts of the medial arcuate hypothalamic nucleus and the anterior parts of the periventricular hypothalamic nucleus are proposed as a reference for their subsequent morphological studies related to the evaluation of the effectiveness of therapeutic correction of various forms of hypogonadism. as the main sources of regulatory proteins of the kisspeptin family.
ВACKGROUND: The article is devoted to the stereo-morphological analysis of the nuclei of the hypothalamus, synthesizing proteins of the kisspeptin family, regulating sexual differentiation various parts of the extended kisspeptin-producing nuclei of the hypothalamus and the features of their asymmetry in mature rats. The morphology of various parts of extended kisspeptin-producing nuclei of the hypothalamus remains poorly understood, which significantly complicates the choice of their reference zone, from which planning and implementation of morphological studies should begin, related to the evaluation of the effectiveness of therapeutic correction of various forms of hypogonadism. AIM: Determination of the main source of regulatory peptides of the kisspeptin family based on the analysis of the number, area of neuron bodies and volumetric characteristics of the kisspeptin-producing nuclei of the hypothalamus. MATERIALS AND METHODS: We studied 50 frontal paraffin sections of KPNs of 8 intact sexually mature male rats obtained as a result of a standard technique for their preparation and staining by the Nissl method. As a result, we carried out volumetric reconstruction of the largest nucleus of the arcuate complex the medial arcuate nucleus and the large periventricular nucleus, after which the number and area of neurosecretory cell bodies were determined in 5 frontal planes of these nuclei. To determine the proportion of kisspeptin-producing neurons in the total number of neurons in the kisspeptin-producing nuclei of the hypothalamus, we also performed the subsequent quantitative and morphometric characterization of their kisspeptin-producing neurons (after immunohistochemical staining, the identification of kisspeptin-kisspeptin granules. Statistical data processing was performed using the GraphPad PRISM 6.0 program, determining and lower quartiles. Differences were considered significant at p 0.01. RESULTS: Subdivisions of the nuclei, which are the main source of these regulatory proteins, have been identified. The caudal part of the medial arcuate nucleus (at the level of bregma 3.6 mm) and the anterior part of the periventricular nucleus (at the level of bregma 0.2 mm) are subdivisions of the corresponding kisspeptin-producing nuclei of the hypothalamus of the kisspeptin-producing nuclei of the hypothalamus, containing the largest number of neurosecretory cells and the bodies of their largest largest area. The number and area of neurons in the left-sided and right-sided parts of the hypothalamic kisspeptin-producing nuclei of the hypothalamus did not differ significantly. In this regard, the listed left-sided and right-sided subdivisions of the kisspeptin-producing kisspeptin-producing nuclei of the hypothalamus of the were proposed as standards for their subsequent morphological studies, which are important for assessing the effectiveness of therapeutic correction of various forms of hypogonadism. CONCLUSIONS: The left-sided and right-sided caudal parts of the medial arcuate hypothalamic nucleus and the anterior parts of the periventricular hypothalamic nucleus are proposed as a reference for their subsequent morphological studies related to the evaluation of the effectiveness of therapeutic correction of various forms of hypogonadism. as the main sources of regulatory proteins of the kisspeptin family.
Reactive changes of kisspeptin-producing hypothalamic neuroendocrine cells during hypogonadism and its replacement therapy by the kisspeptin analogue in rats
BACKGROUND: This study is devoted to the morphological substantiation of the model of male hypogonadism and to establishing the effectiveness of its replacement therapy at the level of the central link of the hypothalamic-pituitary-testicular axis using morphological methods. Information about reactive changes in neuroendocrine cells that synthesize the peptide kisspeptin, which regulates the production of gonadoliberin when modeling male and female hypogonadism, has not been described in the literature, which prevents the creation of a micro-morphological basis for the development of models of hypogonadism and the implementation of further preclinical studies of the effectiveness of its replacement therapy. The goal is to carry out a morphological analysis of kisspeptin-producing neuroendocrine cells of the hypothalamus in normal conditions, with experimental hypogonadism and after replacement therapy. AIM: To carry out a morphological analysis of kisspeptin-producing neuroendocrine cells of the hypothalamus in normal conditions, with experimental hypogonadism and after replacement therapy. MATERIALS AND METHODS: The objects of the study were 3 groups of adult male Wistar rats 6–8 months of age. In animals of the first and second groups, after anesthesia, total ischemia of both testicles was caused by ligating the left and right spermatic cord with the vascular bundle of the testicle for 60 minutes. Rats of the second group, a few minutes after restoration of testicular blood flow, were given replacement therapy by daily administration of a synthetic analogue of kisspeptin KS6 for 7 days. Control animals of the third group were subjected to sham surgery. After 10 days, all animals were sacrificed, their brains were removed and embedded in paraffin. Nissl-stained frontal histological sections of the most massive areas of the kisspeptin-producing nuclei of the hypothalamus-periventricular and arcuate-were examined using the Imagescope program (Electronic Analysis, Russia). The number of cell bodies of viable and dead neurons was counted (under the control of immunohistochemical identification of the caspase-3 antigen), and the area of the body, nucleus and cytoplasm of viable cells was calculated. Statistical processing of the data was carried out using the GraphPad PRISM (USA) program to determine the median, upper and lower quartiles. Differences were considered significant at p 0.01. RESULTS: Simulation of acute ischemia caused a significant increase in the number of dead neurons, a slight decrease in the number of viable neurons and a decrease in the area of their cytoplasm in both kisspeptin-producing nuclei. As a result of KS6 replacement therapy, most neuronal cell bodies retained their original phenotype, but the number of dead neurons was high in both experimental groups. CONCLUSIONS: Modeling of male hypogonadism using the method of bilateral acute testicular ischemia induces death and partially reversible degenerative changes in kisspeptin-producing neuroendocrine cells of the hypothalamus. Neuropeptide KS6 has a pronounced restorative effect on kisspeptin-producing neurons of the hypothalamus, which is due to its specific activating effect on endocrine cells of all parts of the hypothalamic-pituitary-testicular axis.
Model of Hypogonadism by Method of Testicular Ischemization and its Morphological Substantiation
This study is devoted to the morphological substantiation of the model of male hypogonadism and establishing the effectiveness of its replacement therapy using morphological methods. Material and methods. 5 groups of adult male Wistar rats (4 individuals each) were studied. Four groups of rats were experimental. Under anesthesia, the left and right spermatic cords with the vascular bundle were tied with a temporary ligature, inducing hypogonadism. In the first two experimental groups of rats, the ligature was applied for 30 and 60 minutes (respectively). Animals in the other two experimental groups received replacement therapy by administering kisspeptin K6. Animals of the third experimental group began to receive kisspeptin a few minutes after restoration of blood flow in the testicle (ex tempore), and rats of the fourth group - after 3 days. The duration of replacement therapy is 7 days. In histological sections of the right and left testicle (n = 8), the number of viable and dying interstitial endocrine cells was counted (under the control of an immunohistochemical reaction with caspase 3), the percentage of these types of cells from their total number was calculated, and the area of viable endocrinocytes was determined. Testosterone levels were determined in the blood of animals of all groups. The significance of differences in the median, upper and lower quartiles of the compared parameters was determined using the nonparametric Mann–Whitney test. Results. It has been established that the modeling of male hypogonadism by applying a double-sided ligature to the vessels of the spermatic cord for 60 minutes and the animals experiencing it for the next 10 days induces pronounced reactive changes and the death of some interstitial cells, inhibition and cessation of spermatogenesis. Kisspeptin KS6, administered ex tempore and regularly after acute ischemia, has a protective effect on interstitial endocrinocytes and testicular spermatogenic cells, including anti-apoptotic, restoring spermatogenesis, probably realized through the activation of the central links of the hypothalamic-pituitary-testicular axis.
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