Journal ArticleDOI
Immunity, emotions and stress with special reference to the mechanisms of stress effects on the immune system.
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This paper found that stress and central nervous system lesions affect thymus-derived lymphocytes (T-cells) and play a role in cell-cell interaction or the release of mediators from reacting lymphocytes.Abstract:
Evidence from a variety of sources supports the notion that stress and emotional distress may relate to dysfunction and hypofunction of the immunologic system. We have experimental evidence that some forms of stress reduce primary and secondary antibody response to low dose antigen stimulation in rats and that adult immunologic responsivity may be altered by early infantile experience. Mixed-sex group housing at high male-female ratios increases severity of adjuvant-induced arthritis in the male rat. Graft-versus-host reactions are diminished by food-limitation stress to recipient animals. Sex segregated group-housed mice show larger murine virus-induced sarcomas when inoculated at 6 and 9 months of age than males housed individually with two or more females. Electric shock stress for 3 days prior to inoculation with virus reduces incidence and size of MSV tumors, while shock administered 3 days following inoculation increases tumor size. Female mice that develop spontaneous fighting behavior show significantly greater resistance to MSV tumors. Acutely ill schizophrenic patients with relatively high levels of IgA and IgG have a poorer short-term prognosis. Electrolytic lesions of the ventromedial and posterior nuclei of the hypothalamus of recipient and possibly also of donor animals impair the GVH reaction. Our experimental findings suggest that stress and central nervous system lesions affect thymus-derived lymphocytes (T-cells) and play a role in cell-cell interaction or the release of mediators from reacting lymphocytes. Ultimately, we may find that stress affects the macrophage, a hormone-sensitive cell that plays a role in afferent, central and efferent limbs of the immune system.read more
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Influence of brain and behavior on the immune system
TL;DR: It is indicated that there is no single mediating factor in the role of the hypothalamus in immune responses, and various processes may participate, including the autonomic nervous system and neuroendocrine activity.
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Involvement of peripheral and central catecholamine systems in neural-immune interactions
TL;DR: The findings demonstrate clearly that the regions in which lymphocytes (mainly T cells) reside, and through which they recirculate, receive direct sympathetic neural input, and the immune system can be considered 'hard-wired' to the brain.
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Exercise and the Immune Response
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Premorbid psychological factors as related to cancer incidence
TL;DR: In planning for studies relating psychological factors and/or stress (PF&/0S) to cancer, one should be aware of epidemiological findings that might contribute to or even account wholly for any found relationships.
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The influence of the psyche and the brain on immunity and disease susceptibility: a critical review.
TL;DR: The authors include a brief review of current knowledge of the immune system, its interactions with the neuroendocrine system, and other factors influencing its regulation, which include developmental stages, aging, rhythmicity, and a variety of exogenous influences.