Chronic psychosocial stress induces morphological alterations in hippocampal pyramidal neurons of the tree shrew

The effect of sustained psychosocial stress on the morphology of hippocampal pyramidal neurons was analysed in male tree shrews after 14, 20, and 28 days of social confrontation. A variety of physiological changes such as constantly elevated levels of urinary cortisol and norepinephrine and reduced body weight, which are indicative of chronic stress were observed in the subordinate, but not in the dominant males. Light microscopic analysis of Nissl-stained hippocampal sections showed that the staining intensity of the nucleoplasm in the CA1 and CA3 pyramidal neurons was increased after prolonged psychosocial stress, indicating a change in the nuclear chromatin structure. These alterations were observed only in subordinate animals and increased in a time dependent manner in accordance with the length of the stress period. There was, however, neither a reduction in density nor a degeneration of pyramidal neurons in chronically stressed animals. Mechanisms which may possibly account for the observed alterations are discussed.

[1]  M. Schumacher,et al.  Psychosocial stress affects pineal function in the tree shrew (Tupaia belangeri) , 1990, Physiology & Behavior.

[2]  R. Martin Primate origins and evolution , 1990 .

[3]  E. Fuchs,et al.  [3H]Rauwolscine binding sites in the brains of male tree shrews are related to social status , 1992, Brain Research.

[4]  R. Sapolsky,et al.  Hippocampal damage associated with prolonged and fatal stress in primates , 1989, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[5]  M. Joëls,et al.  Control of neuronal excitability by corticosteroid hormones , 1992, Trends in Neurosciences.

[6]  D. Kerr,et al.  Chronic stress-induced acceleration of electrophysiologic and morphometric biomarkers of hippocampal aging , 1991, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[7]  R. Sapolsky,et al.  Glucocortcoids mediate the stress-induced extracellular accumulation of glutamate , 1994, Brain Research.

[8]  H. Cameron,et al.  Phenytoin prevents stress‐ and corticosterone‐induced atrophy of CA3 pyramidal neurons , 1992, Hippocampus.

[9]  D. Pfaff,et al.  Early estrogen‐induced nuclear changes in rat hypothalamic ventromedial neurons: An ultrastructural and morphometric analysis , 1985, The Journal of comparative neurology.

[10]  D. Holst Psychosocial Stress and Its Pathophysiological Effects in Tree Shrews ( Tupaia belangeri ) , 1986 .

[11]  B. McEwen,et al.  Re-examination of the glucocorticoid hypothesis of stress and aging. , 1992, Progress in brain research.

[12]  T. Dembroski,et al.  Biobehavioral bases of coronary heart disease , 1983 .

[13]  Eberhard Fuchs,et al.  Modulation of binding sites for corticotropin-releasing hormone by chronic psychosocial stress , 1995, Psychoneuroendocrinology.

[14]  E. R. Kloet,et al.  Two receptor systems for corticosterone in rat brain: microdistribution and differential occupation. , 1985, Endocrinology.

[15]  S. Berent,et al.  Hippocampal formation volume, memory dysfunction, and cortisol levels in patients with Cushing's syndrome , 1992, Biological Psychiatry.

[16]  Bruce S. McEwen,et al.  Stress induces atrophy of apical dendrites of hippocampal CA3 pyramidal neurons , 1992, Brain Research.

[17]  B. McEwen,et al.  Adrenal steroid receptors and actions in the nervous system. , 1986, Physiological reviews.

[18]  M. West,et al.  An allometric study of hippocampal components. A comparative study of the brains of the European hedgehog (Erinaceus europaeus), the tree shrew (Tupaia glis), and the marmoset monkey (Callithrix jacchus). , 1985, Brain, Behavior and Evolution.

[19]  R. Weiner Complexities of Stress. (Book Reviews: Perturbing the Organism. The Biology of Stressful Experience.) , 1992 .

[20]  F. Gallyas,et al.  Trauma‐induced golgi‐like staining of neurons: A new approach to neuronal organization and response to injury , 1990, The Journal of comparative neurology.

[21]  T. Tabira,et al.  Stress induces neuronal death in the hippocampus of castrated rats , 1992, Neuroscience Letters.

[22]  N. Holbrook,et al.  Physiological functions of glucocorticoids in stress and their relation to pharmacological actions. , 1984, Endocrine reviews.

[23]  E. Fuchs,et al.  Psychosocial conflict in the tree shrew: Effects on sympathoadrenal activity and blood pressure , 1993, Psychoneuroendocrinology.

[24]  E. D. Kloet,et al.  Brain corticosteroid receptor balance and homeostatic control , 1991 .

[25]  B. McEwen,et al.  The neuroendocrinology of stress and aging: the glucocorticoid cascade hypothesis. , 1986, Endocrine reviews.

[26]  S. Ting,et al.  Characterization of a glucocorticoid-sensitive hippocampal protein , 1990, Brain Research.

[27]  J. Henry,et al.  Stress, Health, and the Social Environment: A Sociobiologic Approach to Medicine , 1977 .

[28]  C. Nemeroff,et al.  Hypercortisolemia and hippocampal changes in depression , 1993, Psychiatry Research.

[29]  M. Mattson,et al.  Stress exacerbates neuron loss and cytoskeletal pathology in the hippocampus , 1994, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[30]  Nicholas O. Vamvakopoulos Tissue-specific expression of heat shock proteins 70 and 90: potential implication for differential sensitivity of tissues to glucocorticoids , 1993, Molecular and Cellular Endocrinology.

[31]  R. Sapolsky,et al.  Glucocorticoids Exacerbate Hypoxic and Hypoglycemic Hippocampal Injury In Vitro: Biochemical Correlates and a Role for Astrocytes , 1992, Journal of neurochemistry.

[32]  T. Dembroski,et al.  Biological and Psychological Factors in Cardiovascular Disease , 1986, Springer Berlin Heidelberg.

[33]  E. Hall Steroids and neuronal destruction or stabilization. , 1990, Ciba Foundation symposium.

[34]  P. Landfield,et al.  Evolving aspects of the glucocorticoid hypothesis of brain aging: Hormonal modulation of neuronal calcium homeostasis , 1994, Neurobiology of Aging.

[35]  A. Náray-Fejes-Tóth,et al.  The ups and downs of glucocorticoid physiology Permissive and suppressive effects revisited , 1992, Molecular and Cellular Endocrinology.

[36]  B. McEwen,et al.  Prolonged glucocorticoid exposure reduces hippocampal neuron number: implications for aging , 1985, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[37]  J. Skerritt,et al.  INHIBITION OF AMINO ACID TRANSMITTER RELEASE FROM RAT BRAIN SLICES BY PHENYTOIN AND RELATED ANTICONVULSANTS , 1983, Clinical and experimental pharmacology & physiology.