TRH receptor on immune cells: in vitro and in vivo stimulation of human lymphocyte and rat splenocyte DNA synthesis by TRH.

This work examined whether (1) immune cells express thyrotrophin releasing hormone (TRH) receptor mRNA and (2) TRH modulates lymphocyte activation. By Northern blot of RNA extracted from human peripheral blood mononuclear cells (PBMC) and rat splenocytes, a single TRH receptor mRNA band of about 3.8 kb (identical to that obtained from pituitary cells) was obtained, under both basal and stimulated conditions. A significant increase in DNA synthesis was observed in phytohemagglutinin-stimulated PBMC and concanavalin A (Con A) stimulated splenocytes when TRH (10(-6) M-10(-12) M) was added. After 5, 30, 60, 180 min and 24 h of TRH administration in vivo, a significant increase in the rat splenocyte proliferative response to Con A was observed. In vivo administration of anti-rat TSH antibody (1/1000) blocked the increase observed after 30 min of TRH administration on the Con A stimulated splenocyte response. TRH possess immunostimulatory functions directly via its receptor and indirectly via release of other immunostimulatory factors such as thyrotrophin.

[The central nervous system and neuroendocrine system in the regulation of the immune response]. / El sistema nervioso central y el sistema neuroendócrino en la regulación de la respuesta inmune.

There is at present a clear trend in the study of psychoneuroimmunoregulatory events. Different experimental models have demonstrated: a) the participation of stress, psychosocial factors and the central nervous system in the regulation of the immune response; b) an extensive innervation by the autonomic nervous system of the lymphatic organs; c) the presence of receptors for the neuroendocrine mediators in the mononuclear peripheral cells; d) the activity of neuropeptides, hormones and neurotransmitters in lymphocyte activation and function; e) the production of neuroendocrine substances by lymphocytes; f) the existence of feedback pathways in the immune system. In our laboratory we have contributed to these studies with the description of: a) the regulatory activity of different neuroendocrine substances on interferon-gamma production; b) the characterization of the immune regulation exercised by the muscarinic cholinergic system; c) the in vitro activity of the indoleamines, serotonin and melatonin on the immune response, and the production of these indoleamines by lymphocytes and monocytes, thus establishing a model of paracrine regulation.

El sistema nervioso central y el sistema neuroendócrino en la regulación de la respuesta inmune. / [The central nervous system and neuroendocrine system in the regulation of the immune response]

There is at present a clear trend in the study of psychoneuroimmunoregulatory events. Different experimental models have demonstrated: a) the participation of stress, psychosocial factors and the central nervous system in the regulation of the immune response; b) an extensive innervation by the autonomic nervous system of the lymphatic organs; c) the presence of receptors for the neuroendocrine mediators in the mononuclear peripheral cells; d) the activity of neuropeptides, hormones and neurotransmitters in lymphocyte activation and function; e) the production of neuroendocrine substances by lymphocytes; f) the existence of feedback pathways in the immune system. In our laboratory we have contributed to these studies with the description of: a) the regulatory activity of different neuroendocrine substances on interferon-gamma production; b) the characterization of the immune regulation exercised by the muscarinic cholinergic system; c) the in vitro activity of the indoleamines, serotonin and melatonin on the immune response, and the production of these indoleamines by lymphocytes and monocytes, thus establishing a model of paracrine regulation.