ELECTRON MICROSCOPIC CHARACTERISTICS OF THE NEUROENDOCRINE NEURONSOF THE AMYGDALOID BODY OF THE BRAININ MALE AND FEMALE RATS AT DIFFERENT STAGES OF ESTROUS CYCLE



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Abstract

Ultrastructural characteristics of neuroendocrine neurons were studied in amygdala dorsomedial nucleus (DMN), which is one of main zones of sexual dimorphism, in 12 Wistar rats with the body mass of 250-300 g, 3 males and 9 females at different stages of the estrous cycle. In each animal, an average of 50 DMN neurons were examined and their functional state was analyzed on the basis of their ultrastructural characteristics. Morpho-functional classification is proposed, that reflects hormone-dependent variations in neuronal activity. It was established that DMN neurons could be found in different structural and functional states, that may be classified as the state of rest, moderate activity, increased activity, stress (peak activity), decrease in activity (two types), return to an initial state and apoptosis. At the stage of estrus, the neurons in the state of increased activity (40% of the total population) and peak activity (26%) were found to prevail. In metestrus, most of the neurons were in the state of type I decrease in activity (with an increase in nuclear heterochromatin content - 30% of the cells); peak activity and increased activity were found in 25% and 20% of neurons, respectively. In diestrus, the neurons in the state of rest, moderate and increased activity, peak activity and type I decrease in activity were represented in approximately equal proportions (18%, 21%, 18%, 20% and 16%, respectively). In males, 35% and 22% of neurons, respectively, were found in the state of increased activity and peak activity. Neuronal death was detected only in males.

About the authors

A V Akhmadeev

L B Kalimullina

L B Kalimullina

Bashkir State University

; Bashkir State University

A V Akhmadeyev

Bashkir State University

; Bashkir State University

References

  1. Акмаев И.Г. и Калимуллина Л.Б. Миндалевидный комплекс мозга: функциональная морфология и нейроэндокринология. М., Наука, 1993.
  2. Ахмадеев А.В. и Калимуллина Л.Б. Темные и светлые клетки миндалевидного комплекса в динамике эстрального цикла. Цитология, 2004, т. 46, № 5, с. 45-49.
  3. Бабичев В.Н. Нейроэндокринный эффект половых стероидов. Успехи физиол. наук, 2005, т. 36, № 1, с. 54-67.
  4. Белушкина Н.Н. и Северин С.Е. Молекулярные основы патологии апоптоза. Успехи совр. биол., 2001, т. 35, № 2, с. 51-60.
  5. Гарлов П.Е. Морфофункциональная основа пластичности нейросекреторных клеток. Цитология, 2002, т. 44, № 8, с. 747-767
  6. Калимуллина Л.Б. Реакция нейронов миндалевидного комплекса в динамике эстрального цикла. Пробл. эндокринол., 1989, № 6, с. 60-64.
  7. Калимуллина Л.Б., Ахмадеев А.В., Минибаева З.Р. и Нагаева Д.В. Цитологические характеристики «темных» и «светлых» клеток миндалевидного комплекса мозга. Цитология, 2000, т. 42, № 4, с. 343-349.
  8. Кулинский В.Н. и Колесниченко Л.С. Молекулярные механизмы действия гормонов. II. Киназные системы. Системы с внутриклеточными рецепторами. Трансактивация СТС. Биохимия, 2005, т. 70, № 4, с. 476-492.
  9. Поленов А.Л. Морфофункциональная организация нейросекреторных клеток гипоталамуса. В кн.: Нейроэндокринология. СПб., Наука, 1993, с. 31-70.
  10. Смирнов А.Н. Мембранная локализация ядерных рецепторов: парадокс с важными последствиями. Росс. физиол. журн., 2005, т. 91, № 1, с. 31-45.
  11. Шидловский Ю.С. и Набирочкина Е.Н. Влияние ремоделирования и модификаций хроматина на процесс инициации транскрипции РНК-полимеразой II. Генетика, 2005, т. 41, № 7, с. 884-893.
  12. Ченцов Ю.С. Введение в клеточную биологию. М., Академкнига, 2004.
  13. Akhmadeev A.V. Amygdala: indexes of hormone-dependent reversion in neuroendocrine neurons. J. Europ. Acad. Nat. History, 2006, v. 1, № 1, p. 31.
  14. Asribekova M.K. and Kalimullina L.B. Structural-functional organization of the brain amygdaloid complex in the dynamics of the estrous cycle. Bull. Exp. Biol. Med., 1989, v. 107, № 5, p. 748-750.
  15. Isgor C., Huang G., Akil H. and Watson S. Correlation of estrogen beta-receptor messenger RNA with endogenous levels of plasma estradiol and progesterone in the female rat hypothalamus, the bed nucleus of stria terminalis and the medial amygdala. Brain Res. Mol. Brain Res., 2002, v. 106, № 4, p. 30-41.
  16. Sato M., Moria Y., Kiyama H. and Noguchi K. The distribution of the estrogen receptors in the rat forebrain: immunohistochemistry. Neurosci. Res., 1987, v. 5, № 1, p. 131-145.
  17. Takeshita H. Evidence for soluble estradiol receptors in the amygdala of male and female rats. Yonago acta med., 1976, v. 20, № 3, p. 125-141.

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