The hypothalamo-pituitary-adrenal (HPA) axis plays a central role both in the regulation of the stress response, and in the control of feeding behaviour. Sensitivity of the HPA axis to respond to stress varies both during ontogeny and between individuals, and can be altered by neonatal events. The aim of our experiments was to determine whether early events that affect the HPA axis could also induce persistent modifications in food intake (quantitatively and qualitatively), as well as alterations of anxiety-related behaviour. Twenty-four-hour maternal deprivation was introduced at two different periods of HPA maturation, on day 5 (DEP5) or day 14 (DEP14) after birth. Sequential measurements of plasma levels of adrenocorticotropin hormone (ACTH) and corticosterone showed that this deprivation altered the HPA axis of adults; the response to restraint stress was prolonged in DEP5 and a higher ACTH peak appeared in DEP14. The neonatal stress also produced long-lasting modifications of rat behaviour, as DEP14 adults became more anxious. Standard food intake decreased in both groups of deprived rats. Diet preferences also changed, as carbohydrate intake decreased in DEP5 rats. Corticosteroid receptor binding did not vary in the hippocampus of the deprived rats. The modifications of the stress response and the behaviour parameters could be due to the alteration of corticosteroid receptors in the hypothalamic paraventricular nucleus and/or corticotropin-releasing hormone or vasopressin function, but these parameters have yet to be determined. This early stress paradigm altering feeding behaviour could become an interesting model for research into human eating disorders.
The fate of monoclonal anti-vasopressin antibodies (VP-MAbs) injected in vivo into the paraventricular nucleus (PVN) of the rat brain was studied by immunocytochemistry. Depending on the post survival time, VP-MAbs contained in an ascites fluid were stained at different levels of the VP neurons: the cytoplasm of the PVN neurons, the fibres of the median eminence and the granular layer of the Gyrus Dentatus. The identification of endogenous peptides synthesized by PVN neurons showed that the VP-MAbs uptake was specific: it did not appear either in the oxytocinergic neurons or in the non immunoreactive neurons of the Brattleboro rat brain, this rat being genetically incapable of synthesizing central VP. Conversely, VP-MAbs only penetrated into the VP neurons: ascites fluid containing monoclonal antibodies prepared against bovine thyroglobulin (the carrier conjugated to VP in our immunizations) was neither stained in magnocellular neurons nor carried in nerve fibres. The neuronal uptake and transport of VP-MAbs occurred in vivo: they were totally inhibited by heating of the ascites fluid at 56 degrees C for 30 min; this treatment did not alter the VP-MAbs themselves but probably destroyed some thermic sensitive component essential to the macromolecule internalization. The biological effects of antibodies injected in vivo have been reported. The results described here suggest that some specific antibodies passively transferred into the brain could act directly on the peptide synthesis recognized by the antibodies.
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