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    World of Medicine and Biology / №1(83), 2023 / MORPHOLOGICAL CHANGES OF CORTICOSTEROCYTES AND CHROMAFFIN CELLS AFTER 1 MONTH OF CHEMICAL CASTRATION UNDER CONDITIONS OF CORRECTION WITH QUERCETIN
    T. A. Skotarenko

    MORPHOLOGICAL CHANGES OF CORTICOSTEROCYTES AND CHROMAFFIN CELLS AFTER 1 MONTH OF CHEMICAL CASTRATION UNDER CONDITIONS OF CORRECTION WITH QUERCETIN

    About the author: T. A. Skotarenko
    Heading EXPERIMENTAL MEDICINE
    Type of article Scentific article
    Annotation It is well known that endocrine pathology is a leading disease in the morbidity structure of the Ukrainian population. It is important to study the metabolic effects of hormones of the structural components of the hypothalamic-pituitary-gonadal axis on other peripheral endocrine glands and body organs. Modern research on testosterone proves its effect on the biochemical processes of nervous tissue, liver, organs of the male and female reproductive systems, and others. The paper describes the main morphological changes of corticosterocytes in the adrenal cortex area and endocrinocytes of the adrenal medulla of white rats during the correction of central deprivation of testosterone synthesis during 1 month of the experiment. It was found that the inhibition of testosterone synthesis caused reactive changes in both - corticosterocytes and chromaffin cells, manifested at the microscopic level by the variability of morphometric parameters.
    Tags chemical castration,corticosterocytes,chromaffin cells,adrenal gland,correction
    Bibliography
    • Kalynska L, Kovzun O. Vplyv dapahliflozynu na aktyvnist anhiotenzyn-peretvoriuyuchoho fermentu v strukturakh hipotalamo-hipofizarno-adrenokortykalnoyi systemy ta funktsiyu kory nadnyrkovykh zaloz u shchuriv iz tsukrovym diabetom 2-ho typu. Endocrinology. 2021; 26(4) :357–65. doi:10.31793/1680-1466.2021.26-4.357. [in Ukrainian]
    • Lukashenia OS. Uchast systemy heneratsiyi oksydu azotu, proteinkinaznykh system ta yadernykh transkryptsiynykh faktoriv v rehuliatsiyi funktsiyi kory nadnyrkovykh zaloz [dysertatsiya]. Kyiv: Instytut endokrynolohiyi ta obminu rechovyn im. V. P. Komisarenka Natsionalnoyi akademiyi medychnykh nauk Ukrainy; 2018. 139 s. [in Ukrainian]
    • LutsykSA, StrusChI, YashchenkoAM. Lektynova histokhimiya ta morfometrychna kharakterystyka nadnyrkovykh zaloz potomstva shchuriv, shcho rozvyvalosia za umov dysbalansu tyroidnykh hormoniv materynskoho orhanizmu. Morphologia. 2018; 12(2) :30–39. doi: 10.26641/1997-9665.2018.2.30-39. [in Ukrainian]
    • Stetsuk YeV, Akimov OIe, Vilkhova OV, Yelinska AM, Mishchenko AV. Skotarenko TA. Koreliatsiyni spivvidnoshennia ekspresiyi retseptora CD68 ta aktyvnosti markernykh fermentiv poliaryzatsiyi makrofahiv v simianykakh shchuriv pry tryvaliy blokadi syntezu liuteinizuyuchoho hormonu tryptorelinom. Aktualni problemy suchasnoyi medytsyny. 2021; 21(4(76) :153–7. [in Ukrainian]
    • Alemany M. The roles of androgens in humans: Biology, metabolic regulation and health. International Journal of Molecular Sciences. 2022; 23(19). doi:10.3390/ijms231911952.
    • Bordanaba-Florit G, Liempd SV, Cabrera D, Royo F, Falcón-Pérez JM. Simultaneous quantification of steroid hormones using hrLC-MS in endocrine tissues of male rats and human samples.Metabolites. 2022; 12(8). doi:10.3390/metabo12080714.
    • Gehrand AL, Phillips J, Malott K, Raff H. Corticosterone, adrenal, and the pituitary-gonadal axis in neonatal rats: Effect of maternal separation and hypoxia. Endocrinology(United States). 2021; 161(7) :1-14. doi:10.1210/ENDOCR/BQAA085.
    • Lee, H. G., & Kim, C. J. Classic and backdoor pathways of androgen biosynthesis in human sexual development. Annals of Pediatric Endocrinology and Metabolism. 2022;27(2) :83–89. doi:10.6065/apem.2244124.062.
    • Newton CL, Riekert C, Millar RP. Gonadotropin-releasing hormone analog therapeutics. Minerva Ginecol. 2018; 70(5) :497–515. doi: 10.23736/S0026-4784.18.04316-2.
    • Polat S, Caner A. Transgenerational impact of topical steroid application on superoxide dismutase activities of hypothalamus-pituitary-adrenal axis in rats. Canadian Journal of Physiology and Pharmacology.2022; 100(5) :386–92. doi:10.1139/cjpp-2021-0493.
    • Polyvyana OA, Shepitko VI, Stetsuk YeV, Akimov OYe, Yakushko OS, Voloshyna OV. Morphological changes and oxidative homeostasis in the liver tissues during long central deprivation of luteinizing hormone synthesis by triptorelin. The Medical and Ecological Problems. 2021; 25(5–6) :39–42. doi:10.31718/mep.2021.25.5-6.10.
    • Rud MV, Shepitko VI, Stetsuk YeV, Akimov OYe. Morphological changes in rat liver structure during central deprivation of lutheinizing hormone synthesis at 365th day of experiment. Visnyk problem biolohiyi i medytsyny. 2022; 2(2(165) :151–5. Doi 10.29254/2077-4214-2022-2-2-165-151-155.
    • Skotarenko TA, Shepitko VI, Stetsuk YeV, Boruta NV. Changes in corticosterocytes of the zona reticularis and chromaffin cells of the adrenal gland in rats during the inhibition testosterone synthesis. World of Medicine and Biology. 2022; 4(82) :241–245. doi 10.26724/2079-8334-2022-4-82-241-245.
    • Tzoupis H, Nteli A, Androutsou ME, Tselios T. Gonadotropin-Releasing Hormone and GnRH Receptor: Structure, Function and Drug Development. Curr Med Chem. 2020; 27(36) :6136–58. doi: 10.2174/0929867326666190712165444.
    • Voroshilova TA, Shepitko VI, Stetsuk YeV. Changes in nitric oxide production and development of oxidative stress in rats heart during prolonged triptorelin-induced central deprivation of luteinizing hormone synthesis. World of Medicine and Biology. 2022; 1(79) :179–183. doi 10.26724/2079-8334-2022-1-79-179-183.
    Publication of the article «World of Medicine and Biology» №1(83), 2023 year, 224-229 pages, index UDK 616.452/453-018.1:612.616.1-036.4:615.356]-092.9
    DOI 10.26724/2079-8334-2023-1-83-224-229