6 курс / Эндокринология / Механизмы_нейроэндокринной_регуляции_Угрюмов_М_В_1999
.pdfAckland J.F., Ratter S.J., Bourne G.L., Rees L.H. Corticotrophin-releasing factor-like immunoreactivity and bioactivity of human fetal and adult hypothalami // J. Endocrinol. 1986. Vol. 108. P. 171-180.
Acs Z., Nemeskeri A., Mergl Z., Makara G.B. Lack of hormonal influences on the gabaergic stimulation of growth hormone secretion in the neonatal rat // Neuroendocrinol. Lett. 1993. Vol. 15. P. 191-196.
Adachi Т., Ohtsuka M., Hisano S. et al. Ontogenetic appearance of somatostatin-containin nerve terminals in the median eminence of rats//Cell Tissue Res. 1984. Vol. 236. P. 47-51.
Adamskaya E.I., Sapronnva A.Y., Bahichev V.N. et al. Effect of serotonin depletion on hypothalamic LH-RH system in rat fetuses // Neuroendocrinol. Lett. 1994. Vol. 16. P. 201-207.
Adelman J.P.. Mason A J., Hayflick J.S.. Seehurg P.H. Isolation of the gene and hypothala- mic cDNA for the common precursor of gonadotropin-releasing hormone and prolactin releaseinhibiting factor in human and rat // Proc. Nat. Acad. Sci. US. 1986. Vol. 83. P. 179-183.
Adler B.A., Crowley W.R. Evidence for gamma-aminobutyric acid modulation of ovarian hormone effects on luteinizing hormone secretion and hypothalamic catecholamine activity in the female rat // Endocrinology. 1986. Vol. 118. P. 91-97.
Aguilar-Rohlero R., Garcia-Hernandez F., Aguilar R. Suprachiasmatic nucleus transplants function as an endogenous oscillator only in constant darkness // Neurosci. Lett. 1986. Vol. 69. P. 47-52.
Aguilar-Rohlero R., Shihata S., Speh J.C. et al. Moфhological and functional development of the suprachiasmatic nucleus in transplanted fetal hypothalamus 11 Brain Res. 1992. Vol. 580. P. 288-296.
Aitken A.R., Tork /. Early development of serotonin-containing neurons and pathways as seen in whole-mount preparations of the fetal brain //J. Сотр. Neurol. 1988. Vol. 274. P. 32-^7.
Aksel S., Turey L. Luteinizing hormone-releasing hormone in the human fetal brain 11 Fertil. Steril. 1977. Vol. 28. P. 1067-1071.
Alhers H.E., Liou S.-Y., Ferris C.F. et al. Neurochemistry of circadian timing /
Suprachiasmatic nucleus: The mind's clock / Ed. D.C. Klein et al. N.Y.: Oxford Univ. press, 1991. P. 263-288.
Allen R.G., Pintar J.E., Stack J., Kendall J.W. Biosynthesis and processing of proopio- melanocortin-derived peptides during fetal pituitary development // Develop. Biol. 1984. Vol. 102. P. 43-50.
Almazan G., Lefehvre D.L., Zingg И.И. Ontogeny of hypothalamic vasopressin, oxytocin and somatostatin gene expression // Develop. Brain Res. 1989. Vol. 45. P. 69-75.
Al-Shamma H.A., De Vries GJ. Fiber outgrowth from fetal vasopressin neurons of the suprachiasmatic nucleus, bed nucleus of the stria terminalis, and medial amygdaloid nucleus transplanted into adult Brattleboro rats // Ibid. 1991. Vol. 64. P. 200-204.
Altman J., Bayer S.A. Development of the diencephalon in the rat. 2. Correlation of the embryonic development of the hypothalamus with the time of origin of its neurons // J. Сотр. Neurol. 1978. Vol. 182. P. 973-974.
Altman ./., Bayer S.A. The development of the rat hypothalamus // Adv. Anat. Embryol. Cell. Biol. 1986. Vol. 100. P. 1-173.
Altstein M., Gainer H. Differential biosynthesis and posttranslational processing of vasopressin and oxytocin in rat brain during embryonic and postnatal development // J. Neurosci. 1988. Vol. 8. P. 3967-3977.
Amos M., Burgus R., Blackwell R. et al. Purification, amino acid composition and N-ter- minus of the hypothalamic luteinizing hormone releasing factor (LRF) of bovine origin // Biochem. Biophys. Res. Commun. 1971. Vol. 44. P. 205-210.
Anatolovich G.C., McMillen I.C., Robinson P.M. et al. The effect of hypothalamo-pitui- tary disconnection on the functional and moфhologic development of the pituitary-adrenal axis in the fetal sheep in the last third of gestation // Neuroendocrinology. 1991. Vol. 54. P. 254-261.
;39
Andrews W.W., Mizejewski G.J., Ojeda S R. Development of estradiol-positive feed back on luteinizing hormone release in the female rat: a quantitative study // Endocrinology. 1981. Vol. 109. P. 1404-1413.
Antnni F.A. Oxytocin receptors in rat adenohypophysis: Evidence from radioligand binding studies // Ibid. 1986. Vol. 119. P. 2393-2395.
Arancibia S.. Enjalhert A., Ruherg M. et al. Activitё PRF (prolactin releasing factor) d VIP (vasoactive intestinal peptide) in vitro//J. physiol. 1981. Vol. 77. P. 979-983.
Aratan-Spire S., Moilanen K., Czernichow P. Postnatal developmental pattern of thy rotrophin releasing hormone-degrading activity in rat plasma, hypothalamus and liver; Role of tri-iodothyronine // J. Endocrinol. 1983. Vol. 97. P. 409^18.
Arhiser J.L., Morton C.C., Brums G A P., Majzouh J.A. Human corticotropin releasing hormone gene is located on the long arm of chromosome 8 II Cytogenet. Cell Genet. 1988. Vol.47. P. 113.
Arhogast L A.. Voogt J.L. Ontogeny of tyrosine hydroxylase mRNA signal levels in central dopaminergic neurons; Development of a gender difference in the arcuate nucleus // Develop. Brain Res. 1991. Vol. 63. P. 151-162.
Arduinin D., Rizzo G., Parlati E. et al. Modification of ultradian and circadian rhythm of fetal heart rate after fetal-matemal adrenal gland suppression; double blind study // Prenatal Diagnosis. 1986. Vol. 6. P. 409—417.
Arduinin D., Risso G., Parlati E. et al. Loss of circadian rhythms of fetal behavior in a totally adrenalectomized pregnant woman // Gynecol. Obstet. Invest. 1987. Vol. 23. P. 226-229.
Arendash G.W. Alleviation of estrogen-induced hypeфrolactinemia by hypothalamic tissue transplants containing tuberoinfundibular dopaminergic neurons // Neural grafting in the mammalian CNS / Ed. A. Bjorklund, U. Stenevi. Amsterdam; Elsevier, 1985. P. 663-670.
Arendash G.W., Gorski R.A. Brain tissue transplants and reproductive function, impli cations for the sexual differentiation of the brain // Neural transplants, development and function. N.Y.: Plenum press, 1984. P. 223-241.
Arendash G.W., Leung P.C.K. Alleviation of estrogen-induced hypeфrolactinemia through intracerebral transplantation of hypothalamic tissue containing dopaminergic neurons 11 Neuroendocrinology. 1986. Vol. 43. P. 359-367.
Argente J., Chowen J.A., Zeitler P. et al. Sexual dimoфhism of growth hormone-relea- sing hormone and somatostatin gene expression in the hypothalamus of the rat during development//Endocrinology. 1991. Vol. 128. P. 2369-2375.
Aronson B.D., Bell-Pederson D., Block G.D. et al. Circadian rhythms // Brain Res. Re 1993. Vol. 18. P. 315-333.
Arvat E., Bellone J., Grottoli S. et al. Neuroregulation of growth hormone secretion in man II Develop. Brain Disfunct. 1996. Vol. 9. P. 93-99.
Asa S.L., Kovacs K., Horvath E. et al. Human fetal adenohypophysis; Electron microscopic and ultrastructural immunocytochemical analysis // Neuroendocrinology. 1988. Vol. 48. P. 423^31.
Asa S.L., Kovacs K., Laszlo F.A. et al. Human fetal adenohypophysis; Histologic and immunocytochemical analysis // Ibid. 1986. Vol. 43. P. 308-316.
AschoffJ., Weve/'/?.//Biological rhythms / Ed. J. Aschoff. N. Y.; Plenum press, 1981. P. 311-348,
Aso T. New aspects of prolactin in human reproductive physiology // Overview Hormone Res. 1991. Vol. 35. suppl. 1. P. 3-4.
Auhert M.L. Ontogenese des fonctions hypothalamiques chez le foetus humain // J. physiol. 1979. Vol. 75. P. 45-53.
Auhert M.L., Begeot M., Winiger B.P. et al. Ontogeny of hypothalamic luteinizing hor mone-releasing hormone (GnRH) and pituitary GnRH receptors in fetal and neonatal rats // Endocrinology. 1985. Vol. 116. P. 1565-1676.
240
Рекомендовано к изучению сайтом МедУнивер - https://meduniver.com/
Azmitia E C., Frankfurt M., Davila M. et al. Plasticity of fetal and adult CNS serotonergic neurons: Role of growth-regulatory factors // Ann. N.Y. Acad. Sci. 1990. Vol. 600.
P. 343-363.
Baird A., Wehrenherg W.B., Ling N. Ontogeny of the response to growth honmonereleasing factor 11 Regulatory Peptides. 1984. Vol. 10. P. 23-28.
Baired D.T. The ovary // Reproduction in mammals; Hormonal control of reproduction / Ed. C.R. Austin, R.V. Short. 2nd ed. L.: Cambridge Univ. press, 1984. P. 91-114.
Baker B.L., Jajfe R.B. The genesis of cell types in the adenohypophysis of the human fetus as observed with immunocytochemistry // Amer. J. Anat. 1975. Vol. 143. P. 137-162.
Baker B.L., Yu Y.-Y. An immunocytochemical study of human pituitary mammotropes from fetal life to old age // Ibid. 1977. Vol. 148. P. 217-240.
Balan I.S., Ugrutnov M.V., Borisova N.A. et al. Birthdates of the tyrosine hydroxylas immunoreactive neurons in the hypothalamus of male and female rats // Neuroendocrinology. 1996. Vol. 64. P. 405-411.
Balan I.S., Ugrumov M.V., Calas A. et al. Tyrosine hydroxylase-and/or aromatic L- amino acid decarboxylase-expressing neurons in the mediobasal hypothalamus of perinatal rats: differentiation and sexual dimoфhism // J. Сотр. Neurol, (in press.)
Ballahio M., Nicolini U.,Jnwet T. et al. Maturation of thyroid function in normal human fetuses //Clin. Endocrinol. 1989. Vol. 31. P. 565-572.
Balment R.J., Brimhle M.J., Parsing M.L. et al. A synergistic effect of oxytocin and vasopressin on sodium excretion in the neurohypophysectomized rat // J. Physiol. 1986. Vol. 381. P. 453-464.
Banerji A., Prasad C. The postnatal development of the pituitary thyrotropin-releasing hormone receptor in male and female rats // Endocrinology. 1982. Vol. 110. P. 663-664.
Baram T.Z., Lerner S.P. Ontogeny of corticotropin releasing hormone gene expression in rat hypothalamus - comparison with somatostatin 11 Intern. J. Develop. Neurosci. 1991. Vol. 9. P. 473-478.
Baram T.Z., Schullz L. Ontogeny of somatostatin gene expression in rat diencephalon 11 Develop. Neurosci. 1991. Vol. 1. P. 176-180.
Bargmann W., Scharrer E. The site of origin of the hormones of the posterior pituitary // Amer, Sci. 1951. Vol. 39. P. 255-259.
Barletr P.P., Rosenfeld J., Bailey K.A. et al. Allograft rejection overcome by immuno-
•selection of neuronal precursor cells // Progr. Brain Res. 1990. Vol. 82. P. 153-160.
Barraclough C.A., Wise P.M., Selmanoff M.K. A role of hypothalamic catecholamines in the regulation of gonadotropin secretion // Recent Hormone. Res. 1984. Vol. 40. P. 487-529.
Barry ./. Immunohistochemistry of luteinizing hormone-releasing hormone-producing neurons of the vertebrates // Intern. Rev. Cytol. 1979. Vol. 60. P. 179-221.
Bartfai Т., Iveifeldt K., Brndin E., Ogren S.-O. Functional consequences of coexistence of classical and peptide neurotransmitters II Progr. Brain Res. 1986. Vol. 68. P. 321-330.
Bartke A., Cecim M., Tang K. et al. Neuroendocrine and reproductive consequences of overexpression of growth hormone in transgenic mice // Proc. Soc. Exp. Biol. Med. 1994. Vol. 206. P. 345-359.
Basselt N.S., Gluckman P.D. Pulsatile growth hormone secretion in the ovine fetus and neonatal lamb// J. Endocrinol. 1986. Vol. 109. P. 307-312.
Baulieu E.-E., Kelly P.A. Hormones: From molecules to disease. N.Y.; L.: Hermann Publishers in Arts and Science, Chapman and Hall, 1990.
Baum M.J., Wouterson P..LA., Sloh A.K. Sex differences in whole-body androgen con- tent in rats on fetal days 18 and 19 without evidence that androgen passes from males to females//Biol. Reprod. 1991. Vol. 44. P. 747-751.
Beart P.M. Multiple dopamine receptors - new vistas //Trends Pharmacol. Sci. 1982. Vol. 3. P. 100-102.
241
Весй-Villalobos D., Lihertun С. Ontogenesis of [3H]serotonin binding sites in the hypothalamus of the female rat: Relation to serotonin-induced LH release in moxestrol-pretreat- ed rats // Develop. Brain Res. 1986. Vol. 25. P. 111-116.
Begeot M., Dubois M.P., Dubois P.M. Growth hormone and ACTH in the pituitary of normal and anencephalic human fetuses: Immunocytochemical evidence of the hypothalamic influences during development // Neuroendocrinology. 1977. Vol. 24. P. 208-220.
Begeot M., Dubois M.P., Dubois P.M. Influence de I'hypothalamus sur la diffdrenciation des cellules pr^sentant une immunorёactivitё de type ACTH, p-LPH (P-lipotropine), a- et P-endoфhines dans les 6bauches ant6hypophysaires de foetus de rat en culture organotypique //J. physiol. 1979. Vol. 75. P. 27-31.
Begeol M., Dubois M P., Dubois P.M. Comparative study in vivo and in vitro of the differentiation of immunoreactive gonadotropic cells in fetal rat anterior pituitary // Neuroendocrinology. 1983a. Vol. 37. P. 52-58.
Begeot M., Dubois M.P., Dubois P.M. Evolution of lactotropes in normal and anencephalic human fetuses // J. Clin. Endocrinol. Metabol. 1984a. Vol. 58. P. 726-730.
Begeot M., Dupouy .I P., Dubois M.P., Dubois P.M. Immunocytological determination of gonadotropic and thyrotropic cells in fetal rat anterior pituitary during normal development and under experimental conditions // Neuroendocrinology. 1981. Vol. 32. P. 285-294.
Begeot M., Hemming F.J., Auber M.L., Dubois P.M. Diffdrenciation des cellules ant€hypophysaires en culture //Ann. endocrinol. 1987. Vol. 48. P. 361-371.
Begeot M., Hemming F.J., Dubois P.M. et al. Induction of pituitary lactotrope differentiation by luteininzing hormone subunit // Science. 1984b. Vol. 226. P. 566-568.
Begeot M., Hemming FJ., Martinat N. et al. Gonadotropin releasing hormone (GnRH) stimulates immunoreactive lactotrope differentiation // Endocrinology. 1983b. Vol. 112, P. 2224-2226.
Beltramo M., Calas A., Chernigovskaya N. et al. Postnatal development of the suprachiasmatic nucleus in the rat; Moфho-functional characteristics and time course of tyrosine hydroxylase immunopositive fibers //Neuroscience. 1994. Vol. 63. P. 603-610.
Beltramo M., Calas A., Chernigovskaya E. et al. Long-lasting effect of catecholamine deficiency on the differentiating vasopressin neurons in the rat supraoptic nucleus // Ibid. 1997. Vol. 79. P. 555-561.
Bendotti C., Hohmann C., Forloni G. et al. Developmental expression of somatostatin in mouse brain. 2. In situ hybridization // Develop. Brain Res. 1990. Vol. 53. P. 26-39.
Ben-Jonathan N. Dopamine: A prolactin-inhibiting hormone // Endocrinol. Rev. 1985. Vol. 6 P. 564-589.
Bennett B.A., Morris M. An immunochemical and biochemical study of catecholaminergic activity in dissociated hypothalamic cultures // Brain Res. 1989. Vol. 491. P. 109-115.
Bennett P.A., Levy A., Carmignac D.F. et al. Differential regulation of the growth hormone receptor gene: Effects of dexamethasone and estradiol // Endocrinology. 1996. Vol. 137, N 9. P. 3891-3896
Bernabe J., Proshlyakova E., Sapronova A. et al. Pharmacological model of catecholamine depletion in the hypothalamus of fetal and neonatal rats and its application // Cell. Mol. Neurobiol. 1996. Vol. 16, N 5. P. 617-624.
Bertherat J., Dournaud P., Be'rod A. et al. Growth hormone-releasing hormone-synthe- sizing neurons are the subpopulation of somatostatin receptor-labeled cells in the arcuate nucleus: A combined in situ hybridization and receptor light-microscopic radioautographic study // Neuroendocrinology. 1992. Vol. 56. P. 25-31.
Bertherat J., Slama A., Kordon C. et al. Characterization of pericellular ['^SijjyrO 0Тф8 somatostatin binding sites in the rat arcuate nucleus by a newly developed method: Quantitative high-resolution light microscopic radioautography // Neuroscience. 1991. Vol. 41. P. 571-579.
242
Рекомендовано к изучению сайтом МедУнивер - https://meduniver.com/
Bethea C.L. Stimulatory effect of estrogen on prolactin secretion from primate pituitary cells cultured on extracellular matrix and in serum-free medium // Endocrinology. 1984. Vol. 115. P. 443-451.
Bigazzi M., Ronga R., Lancranjan /. et al. A pregnancy in an acromegalic woman during bromocriptine treatment; Effects on growth hormone and prolactin in the maternal, fetal, and amniotic compartments //J. Clin. Endocrinol. Metabol. 1979. Vol. 48. P. 9-12.
Billestrup N., Swanson L.W., Vale W. Growth hormone-releasing factor stimulates proliferation of somatotropes in vitro // Proc. Nat. Acad. Sci. US. 1986. Vol. 83. P. 6854-6857.
Bina K G., Rusak В., Semha K. Localization of cholinergic neurons in the forebrain and brainstem that project to the suprachiasmatic nucleus of the hypothalamus in rat // J. Сотр. Neurol. 1993. Vol. 335. P. 295-307.
Bjorklund A. Intracerebral neural implants; neuronal replacement and the promotion of brain repair // Neurodegenerative disorders: Mechanisms and prospects for therapy / Ed. D.L. Price, A.J. Aguayo. 1991. P. 215-230.
Bjorklund A. Dopaminergic transplants in experimental parkinsonism; Cellular mechanisms of graft-induced functional recovery // Curr. Opin. Neurol. Neurosurg. 1992. Vol. 2. P. 683-689.
Bjorklund A., Lindvall O. Dopamine-containing systems in the CNS // Handbook of chemical neuroanatomy; Classical neurotransmitters in the CNS. Amsterdam; Elsevier, 1984. Pt 1. Vol. 2. P. 55-122.
Bjorklund A., Moore R.Y., Nobin A., Stenevi U. The organization of the tubero- hypophyseal and reticulo-infundibular catecholamine neuron systems in the rat brain 11 Brain Res. 1973. Vol. 51. P. 171-192.
Bjorklund A., Stenevi U. Intracerebral neural grafting; A historical perspective 11 Neural grafting in the mammalian CNS / Ed. A. Bjorklund, U. Stenevi. Amsterdam; Elsevier, 1985. P. 3-14.
Blanchard L., Barden N. Ontogeny of receptors for thyrotropin-releasing hormone in the rat brain // Develop. Brain Res. 1986. Vol. 24. P. 85-88.
Blaustein J.D., Turcotte J. Further evidence of noradrenergic regulation of rat hypothalamic estrogen receptor concentration; Possible non-functional increase and functional decrease // Brain Res. 1987. Vol. 436. P. 253-264.
Blevins L.S., Jr., Wand G.S. Diabetus insipidus // Crit. Care Med. 1992. Vol. 20. P. 69-79.
Block В., Gaillard R.C., Brazeau P. et al. Topographical and ontogenetic study of the neurons producing growth hormone-releasing factor in human hypothalamus // Regul. Peptides. 1984. Vol. 8. P. 21-31.
Block В., Gaillard R.C., Culler M.D., Negro-Vilar A. Immunohistochemical detection of proluteinizing hormone-releasing hormone peptides in neurons in the human hypothalamus//J. Clin. Endocrinol. Metabol. 1992. Vol. 74. P. 135-138.
Block В., Guitteny A.F., Ckoukam S. et al. Topography and ontogeny of the neurons expres sing vasopressin, oxytocin, and somatostatin genes in the rat brain; An analysis using radioactive and biotinylated oligonucleotides //Cell. Mol. Neurobiol. 1990. Vol. 10. P. 99-112.
Blumenfeld Z.,Jaffe R.B. Hypophysiotropic and neuromodulatory regulation of adrenocorticotropin in the human fetal pituitary gland //J. Clin. Invest. 1986. Vol. 78. P. 288-294.
Bodenant C., Leroux P., Gonzalez B.J., Vaudry H. Transient expression of somatostatin receptors in the rat visual system during development//Neuroscience. 1991. Vol. 41. P. 595-606.
Boer GJ. Neuropeptides; A new transmitters, a new class of functional teratogens // Functional neuroteratology of short-term exposure to drugs / Ed. T. Fujii and G.J. Boer. Tokyo: Tokyo Univ. press, 1991. P. 73-85.
Boer G.J. Vasopressin and oxytocin receptors and the developing brain II Receptors in the developing nervous system: Growth factors and hormones / Ed. L.S. Zagon and P.J. McLaughlin. N.Y.; Chapman and Hall, 1993. Vol. 1. P. 225-248.
243
Boer G.J.. DogternmPronker H.F. Pituitary content of oxytocin, vasopressin and a- melanocyte-stimulating hormone in the fetus of the rat during labour//J. Endocrinol. 1980. Vol. 86. P. 221-229.
Boer G.J., Schluter N., Gash D M. A procedure for small-volume brain grafting; va.sopressin cells in neonatal and adult Brattleboro rats // J. Neurosci. Meth. 1984. Vol. 11. P. 39-45.
Bondy СЛ., Whitnall M.H., Brady L.S., Gainer H. Coexisting peptides in hypothala- mic neuroendocrine systems: some functional implications // Cell. Mol. Neurobiol. 1989. Vol. 9. P. 427^6 .
Borisova N.A., Sapronova A.Y., Proshlyakova E.V., Ugrumov M.V. Ontogenesis of the hypothalamic catecholaminergic system in rats: Synthesis, uptake and release of catecholamines // Neuroscience. 1991. Vol. 43. P. 223-229.
Borisova N.A., Ugrumov M.V., Balan I.S., Thihault J. Development of the tuberoin- fundibular system in rats: Birthdates of the tyrosine hydroxylase-immunopositive neurons // Develop. Brain Res. 1993. Vol. 73. P. 173-176.
Borisova N., Proshlyakova E., Sapronova A., Ugrumov M. Androgen dependent sex dif- ferences in the hypothalamic serotoninergic system // Europ. J. Endocrinol. 1996. Vol. 134. P. 232-235.
Bos N.P., Mirmiran M. Effects of excitatory and inhibitory amino acids on neuronal discharges in the cultured suprachiasmatic nucleus//Brain Res. 1993. Vol. 31. P. 67-72.
Bosler O., Beaudet A. VIP neurons as prime synaptic targets for serotonin afferents in rat suprachiasmatic nucleus: A combined radioautographic and immunocytochemical study//J. Neurocytol. 1985. Vol. 14. P. 749-763.
Bouras C., Magislretti P.J., Morrison J.H. An immunohistochemical study of six bio- logically active peptides in the human brain // Human Neurobiol. 1986. Vol. 5. P. 213-226.
Bouras C., Magistretti P.J.. Morrison J.H., Constantinidis./. An immunohistochemical study of pro-somatostatin-derived peptides in the human brain II Neuro.science. 1987. Vol. 22. P. 781-800.
Bourguignon J.P., Gerard A., Gonzalez M.L.A., Franchimont P. Neuroendocrine me- chanisms of onset of puberty: Sequential reduction in activity of inhibitory and facilitatory N-methyl-D-asparate receptor//J. Clin. Invest. 1992. Vol. 90. P. 1736-1744.
Brabant G., Ray A.K., Wagner T.O.F. et al. Peripubertal variation of GnRH-release from vitro superfused hypothalami of male rats // Neuroendocrinol. Lett. 1985. Vol. 7. P. 197-202.
Breen S., Rees S., Walker D. The development of diumal rhythmicity in fetal suprachiasmatic neurons as demonstrated by Fos immunohistochemistry 11 Neuroscience. 1996. Vol. 74, N 3. P. 917-926.
Bresson J.-L., Clavequin M.-C., Fellmann D., Bugnon C. Anatomical and ontogenetic studies of the human paraventriculo-infundibular corticoliberin system // Ibid. 1985. Vol. 14. P. 1077-1090.
Bresson J.-L., Clavequin M.-C., Fellmann D., Bugnon C. Human corticoliberin hypo- thalamic neuroglandular system; Comparative immunocytochemical study with anti-rat and antiovine corticotropin-releasing factor sera in the early stages of development // Develop. Brain Res. 1987a. Vol. 32. P. 241-246.
Bresson J.-L., Clavequin M.-C., Fellmann D., Bugnon C. Donndes ontog^n6tiques sur la population d'intemeurons peptidergiques a immunorёactivitё de type GRF37 de I'hypothalamus postёro-latёral humain: Etudes immunocytochimiques a I'aide d'un IS anti-GRP-,7 d'un IS antiMCH (melanin-concentrating hormone) // C.r. Soc. biol. Besangon. 1987b. Vol. 181. P. 376-382.
Brinton R.E., Gruener R. Vasopressin promotes neurite growth in cultured embryonic neurons //Synapse. 1987. Vol. 1. P. 329-334.
Brodsky V.Ya., Uryvaeva I.V. Genome multiplication in growth and development: Biology of polyploid and polytene cells. Cambridge: Cambridge Univ. press, 1985. 315 p. (Devop. and Cell Biol.; Vol. 15).
244
Рекомендовано к изучению сайтом МедУнивер - https://meduniver.com/
Brooks A.N., Thomas G.B. Ontogeny and function of the pituitary-gonadal axis during fetal development in sheep // Reprod. Domestic Animals. 1995. Vol. 30. P. 158-162.
Brooks A.N.. McNeilly A.S., Thomas G.B. Role of GnRH in the ontogeny and regulation of the fetal hypothalamo-pituitary-gonadal axis in sheep //J. Reprod. Fertil. 1995. Vol. 49, suppl. P. 163-175.
Brown-Borg H.M., Zhang F.P., Huhtaniemi /., Bartke A. Developmental aspects of pro- lactin receptor gene expression in fetal and neonatal mice 11 Europ. J. Endocrinol. 1996. Vol. 134, N 6. P. 751-757.
Brownstein M.J., PalkovUs M., Tappaz M.L. et al. Effect of surgical isolation of the hypothalamus on its neurotransmitter content // Brain Res. 1976. Vol. 117. P. 287-295.
Bruinink A., Lichtensteiger W., Schlumpf M. Preand postnatal ontogeny and characterization of dopaminergic D2, serotonergic $2, and spirodecanone binding sites in rat forebrain//J. Neurochem. 1983. Vol. 40. P. 1227-1236.
Brundin P., Bjorklund A., Lindvall O. Practical aspects of the use of human fetal brain tissue for intracerebral grafting II Progr. Brain Res. 1990. Vol. 82. P. 707-714.
Bugnon C., Bloch В., Fellmann D. Cyto-immunological study of the ontogenesis of the gonadotropic hypothalamo-pituitary axis in the human fetus // J. Steroid Biochem. 1977a. Vol. 8. P. 565-575.
Bugnon C., Fellmann D., Bloch B. Immunocytochemical study of the ontogenesis of the hypothalamic somatostatin-containing neurons in the human fetus 11 Cell Tissue Res. 1977b. Vol. 183. P. 319-328.
Bugnon C., Fellmann D., Bloch B. et al. Apport de I'immunocytochimie a Гёtude du дёуе1орретеп1 de systemes neuroglandulaires peptidergiques I'hypothalamus foetal humain//Ann. endocrinol. 1987. Vol. 48. P. 343-351.
Bugnon C.. Fellmann D., Bresson J.-L., Clavequin M.-C. Etude immunocytochimique de I'ontogenese du systёme neuroglandulaire a CRF chez I'Homme // C.r. Acad. .sci. A.D. 1982a. Vol. 294. P. 491-496.
Bugnon C., Fellmann D., Gouget A., Cardot./. Ontogeny of the corticoliberin neuroglandular system in rat brain // Nature. 1982b. Vo!. 298. P. 159-161.
Bugnon C., Fellmann D., Gouget A. et al. Corticoliberin neurons: Cytophysiology, phyiogeny and ontogeny // J. Steroid Biochem. 1984. Vol. 20. P. 183-195.
Buijs R.M. The development of vasopressin and oxytocin systems in the brain // Handbook of chemical neuroanatomy: Ontogeny of transmitters and peptides in the CNS / Ed. A. Bjorklund, T. Hokfelt. Amsterdam: Elsevier, 1992. Vol. 10. P. 547-569.
Buijs R.M., Velis D.N., Swaab D.F. Ontogeny of vasopressin and oxytocin in the fetal rat Early vasopressinergic innervation of the fetal brain // Peptides. 1980. Vol. 1. P. 315-324.
Bulant M., Delfour A., Vaudry H., Nicolas P. Processing of thyrotropin-releasing hor- mone prohormone (pro-TRH) generates pro-TRH-connecting peptides // J. Biol. Chem. 1988. Vol. 263. P. 17189-17196.
Burford G.H., Robinson I.C.A.F. Oxytocin, vasopressin and neurophysins in the hypo- thalamo-neurohypophysial system of the human fetus // J. Endocrinol. 1982. Vol. 95. P. 403^08.
Burgunder J.M. Prenatal ontogeny of growth hormone releasing hormone expression in rat hypothalamus // Develop. Neurosci. 1991. Vol. 13. P. 397—402.
Burgunder J.M. Ontogeny of somatostatin gene expression in rat forebrain // Develop. Brain Res. 1994. Vol. 78. P. Г109-1122.
Burgunder J.M.. Taylor T. Ontogeny of thyrotropin-releasing hormone gene expression in the rat diencephalon // Neuroendocrinology. 1989. P. 631-640.
Burgus R., Dunn T.F., Desiderio D., Guillemin R. Structure moleculaire du facteur hypothalamique hypophysiotrope TRE d'origine ovine: Mise en 6vidence par spectrom€trie
de masse de la sdquence PCA-His-Pro-NH2 // C.r. Acad. sci. D. 1969. Vol. 269. P. 1870-1873.
245
Burnside Buckland P.R., Chin W.W. Isolation and characterization of the gene encoding the a-subunit of the rat pituitary glycoprotein hormones 11 Gene. 1988. Vol. 70. P. 67-74.
Burrows H.L., Birkmeier T.S., Seasholtz A.F., Camper S.A. Targeted ablation of cells in the pituitary primordia of transgenic mice// Mol. Endocrinol. 1996. Vol. 10. P. 1467-1477.
Buznikov G.A. Neurotransmitters in embryogenesis. L.: Harwood, 1991.
Cahranes J.A., Almoguera I., Del Olmo ./. et al. Evidence of abnormal dopaminergi control of prolactin in patients with hypothalamic and pituitary tumors // J. Med. 1986. Vol. 17. P. 25-39.
Calas A. La versatilitii neuronale//Vie sci. 1994. Vol. 1 1. P. 271-285.
Campbell G.T., Southard J.N., Talamantes F., Blake C.A. Gonadotropin-releasing hor- mone-induced accumulation of follicle-stimulating hormone beta-subunit messenger ribonucleic acid in adenohypophysial cells developing in an ectopic position // Endocrinology. 1992. Vol. 130. P. 1180-1184.
Canheyli R.S., Lehman M., Silver R. Tracing SCN graft efferents with Dil // Brain 1991. Vol. 554. P. 15-21.
Canick J.A., Tohet S.A., Baum M..I. et al. Studies on the role of catecholamines in regulation of the developmental pattern of hypothalamic aromatase // Steroids. 1987. Vol. 50. P. 509-521.
Card J.P., Brecha N., Karten |
Moore R.Y. Immunocytochemical localization of |
vasoactive intestinal polypeptide-containing cells and processes in the suprachiasmatic nucleus of the rat: Light and electron microscopic analysis // J. Neurosci. 1981. Vol. 1. P. 1289-1303.
Card J.P., Fitzpatrick-McElligoii S., Cozes I., Baldino F. Localization of vasopressin-, vasoactive intestinal polypeptide-, peptide histidine isoleucineand somatostatin-mRNA in rat suprachiasmatic nucleus//Cell Tissue. Res. 1988. Vol. 252. P. 307-315.
Castel M., Femstein N., Cohen S., Harari N. Vasopresinergic innervation of the mouse suprachiasmatic nucleus: An immuno-electron microscopic analysis // J. Сотр. Neurol. 1990. Vol. 298. P. 172-187.
Castillo R.H., Matteri R.L., Dumesic D.A. Luteinizing hormone synthesis in culture fetal human pituitary cells exposed to gonadotropin-releasing hormone // J. Clin. Endocrinol. Metabol. 1992. Vol. 75. P. 318-322.
Castro R., Brito В., Segovia J. et al. Prenatal haloperidol induces a selective reduction in the expression of plasticity-related genes in neonate rat forebrain // Mol. Brain Res. 1994. Vol. 26. P. 74-80.
Calalani A., Marinelli M., Scaccianoce S. et al. Progeny of mothers drinking cortico sterone during lactation has lower stress-induced corticosterone secretion and better cognitive performance // Brain Res. 1993. Vol. 624. P. 209-215.
Cattanach B.M., Iddon C.A., Charlton H.M. et al. Gonadotrophin-releasing hormone deficiency in a mutant mouse with hypogonadism 11 Nature. 1977. Vol. 269. P. 338-340.
Ceccatelli S., Erikson M., Hdkfelt T. Distribution and coexistence of CRF-, neurotens enkephalin-, cholecystokinin-, galalninand VlP/PHI-like peptides in the parvocellular part of the paraventricular nucleus // Neuroendocrinology. 1989. Vol. 49. P. 309-323.
Cella S.G., De Gennaro Colonna V., Locatelli V. et al. Growth hormone (GH) auto- feedback action in the neonatal rat: Involement of GH-releasing hormone and somatostatin// J. Endocrinol. 1990a. Vol. 124. P. 199^205.
Cella S C., Locatelli V., Broccia M.L. et al. Long-term changes of somatotrophic fun tion induced by deprivation of growth hormone-releasing hormone during the fetal life of the rat // [bid. 1994. Vol. 140. P. 111-117.
Cella S.G., Mennini Т., Miari A. et al. Down-regulation of a2"2drenoceptors involve in growth hormone control in the hypothalamus of infant rats receiving short-term clonidine administration//Develop. Brain Res. 1990b. Vol. 53. P. 151-156.
246
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Chan v., Clayton R.N., Knox C., Call K..I. Ontogeny of pituitary GnRH receptors in th rat//Endocrinology. 1981. Vol. 108. P. 2086-2092.
Chang A.S., Chang S.M., Starnes D.M. et al. Cloning and expression of the mouse serotonin transporter// Mol. Brain Res. 1996. Vol. 43, N 1/2. P. 185-192.
Chan-Palay V., Zahorszky L., Kohler C. et al. Distribution of the tyrosine-hydroxylase- immunoreactive neurons in the hypothalamus of rats // J. Сотр. Neurol. 1984. Vol. 227. P. 467^96.
Charii J.L., Faivre-Bauman A., Loudes C., Kordon C. Co-culture of rat melanotrophs with hypothalamic cells enhances differentiation of dopaminergic neurons // Mol. Cell. Res. 1993. Vol. 4. P. 55-63.
Charlton H.M. Neural grafts and restoration of pituitary and gonadal function in hypogonadal (HPG) mice // Ann. Endocrinol. 1987. Vol. 48. P. 378-384.
Сhatelain A., Boudouresque F., Chautard T. et al. Corticotrophin-releasing factor immunoreactivity in the hypothalamus of the rat during the perinatal period // J. Endocrinol. 1988. Vol. 11. P. 59-64.
Chatelain A., Dupouy J.P. Activity of the pituitary-adrenal system in rat fetuses subjected to encephalectomy in early or late stages of pregnancy // Neuroendocrinology. 1981. Vol. 33. P. 148-152.
Chatelain A., Dupouy J.P., Allaume P. Fetal-matemal adrenocorticotropin and corticosterone relationships in the rat: Effects of maternal adrenalectomy // Endocrinology. 1980. Vol. 106 P. 1297-1303.
Chatelain A., Dupouy J.P., Dubois M.P. Ontogenesis of cells producting polypeptide hormones (ACTH, MSH, LPH, GH, prolactin) in the fetal hypophysis of the rat; Influence of the hypothalamus //Cell Tissue. Res. 1979. Vol. 196. P. 409^27.
Chauvet M.-T., Chauvet J., Acher R. Ontogeny of the bovine neurohypophyseal hor- mone precursors: Foetal neurohormones and neurophysins // Intern. J. Peptide Protein Res. 1984. Vol. 24. P. 6^73.
Chen H.T. Postnatal development of pituitary lactotropes in the rat measured by reverse hemolytic plaque assay//Endocrinology. 1987. Vol. 120. P. 247-253.
Chen X.F., Chen Z.F., Liu R.Y., Du Y.C. Neonatal administration of a vasopressin ana log (DDAVP) and hypertonic saline enhance learning behavior in rats 11 Peptides. 1988. Vol. 9. P. 717-721.
Chiappa S.A., Fink G. Releasing factor and hormonal changes in the hypothalamic- pituitary-gonadotropin and adrenocorticotropin systems before and after birth and puberty in male, female and androgenized female rats // J. Endocrinol. 1977. Vol. 72. P. 211-224.
Chihhar R., Toma J.G., Mitchell B.F.. Miller F. Regulation of neural oxytocin gene expr sion by gonadal steroids in pubertal rats // Mol. Endocrinol. 1990. Vol. 4. P. 2030-2038.
Childs G.V. Fluidity of gonadotropin storage in cycling female rats II Hormonal control of the hypothalamo-pituitary-gonadal axis / Ed. K.W. McKems, Z. Naor. N.Y.: Plenum press, 1984. P. 181-198.
Childs G.V. Shifts in gonadotropin storage in cultured gonadotropes following GnRH stimulation, in vitro // Peptides. 1985. Vol. 6. P. 103-107.
Childs G.V. Functional ultrastructure of gonadotropes: A review 11 Curr. Topics Neuroendocrinol. 1986. Vol. 7. P. 49-97.
Childs G.V. Multipotential pituitary cells that contain adrenocorticotropin (ACTH) and other pituitary hormones//Trends Endocrinol. Metabol. 1991. Vol. 2. P. 112-117.
Childs (Moriarty) G.V., Ellison D.G., Lorenzen J R. et al. Immunocytochemical studies of gonadotropin storage in developing castraction cells // Endocrinology. 1982a. Vol. 110. P. 1318-1328.
Childs (Moriarty) G.V., Ellison D.G., Ramaley J.A. Storage of anterior lobe adrenocorticotropin in corticotropes and a subpopulation of gonadotropes during the stress-nonre- sponsive period in the neonatal male rat // Ibid. 1982b. Vol. 110. P. 1676-1692.
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