Recruitment of Corticotropin-releasing Hormone CRH Neurons in response ton Categorically Distinct Stress Challenges in the Mouse Brain

1.Corticotropin-releasing hormone (CRH) neurons in the paraventricular hypothalamic nucleus (Pa) are in the position to integrate stress-related information and initiate adaptive neuroendocrine-, autonomic-, metabolic- and behavioral responses. In addition to hypophyseotropic cells, CRH is widely expressed in the CNS, however their involvement in organization of the stress response is not fully understood. In these experiments, we took the advantage of recently available Crh-IRES-Cre; Ai9 mouse line to study the recruitment of hypothalamic and extrahypothalamic CRH neurons in categorically distinct, acute stress reactions. Reporter mice were exposed to restraint, ether, high salt and lipopolisacharide stress. The induced activation of CRH neurons was detected by colocalization of immediate early gene c-Fos in Td tomato expressing cells. We found differential activation of CRH neurons in central amygdaloid nucleus (Ce), bed nucleus stria terminalis lateral division, ventral posterior (BSTLVP), medial preoptic nucleus (MPO), ventromedial hypothalamic nucleus (VMH), premammillary nucleus (PM) and prepositus hypoglossal nucleus (Pr) in response to physiological (ether, high salt and LPS) and psychological (restraint) stressors. CRH positive cells in Pa became activated, however in the Barringtons nucleus and locus coeruleus no actiovation could be observed due to most tested stressors. Furthermore no CRH neuron activation occured in dorsal (BSTLD) and posterior (BSTLP) region of lateral division of bed nucleus stria terminalis after restraint stress. In the inferior olive only ether exposition resulted in CRH neuron activation. These results confirm activation of CRH neurons in the Pa, reveals new subset of stress-related CRH cells through the mouse brain and disprove the recruitment of CRH cells in the SOL and in the Barringtons nucleus to acute psychological stress in mice.