Corticotropin-releasing factor receptor signaling and modulation: implications for stress response and resilience

Abstract Introduction In addition to their role in regulation of the hypothalamic-pituitary-adrenal-axis, corticotropin-releasing factor (CRF) and its related peptides, the urocortins, are important mediators of physiological and pathophysiological processes of the central nervous, cardiovascular, gastrointestinal, immune, endocrine, reproductive, and skin systems. Altered regulation of CRF-mediated adaptive responses to various stressful stimuli disrupts healthy function and might confer vulnerability to several disorders, including depression and anxiety. Methodology This narrative review was conducted through search and analysis of studies retrieved from online databases using a snowball method. Results This review covers aspects beginning with the discovery of CRF, CRF binding protein and their actions via interaction with CRF receptors type 1 and type 2. These are surface plasma membrane receptors, activation of which is associated with conformational changes and interaction with a variety of G-proteins and signaling pathways. We also reviewed the pharmacology and mechanisms of the receptor signaling modulatory activity of these receptors. Conclusion This review compiles and presents knowledge regarding the CRFergic system, including CRF related peptides, CRF binding protein, and CRF receptors, as well as some evidence that is potentially indicative of the biological roles of these entities in several physiological and pathophysiological processes.

Contrasting effects of nitric oxide and corticotropin- releasing factor within the dorsal periaqueductal gray on defensive behavior and nociception in mice

The anxiogenic and antinociceptive effects produced by glutamate N-methyl-D-aspartate receptor activation within the dorsal periaqueductal gray (dPAG) matter have been related to nitric oxide (NO) production, since injection of NO synthase (NOS) inhibitors reverses these effects. dPAG corticotropin-releasing factor receptor (CRFr) activation also induces anxiety-like behavior and antinociception, which, in turn, are selectively blocked by local infusion of the CRF type 1 receptor (CRFr1) antagonist, NBI 27914 [5-chloro-4-(N-(cyclopropyl)methyl-N-propylamino)-2-methyl-6-(2,4,6-trichlorophenyl)aminopyridine]. Here, we determined whether i) the blockade of the dPAG by CRFr1 attenuates the anxiogenic/antinociceptive effects induced by local infusion of the NO donor, NOC-9 [6-(2-hydroxy-1-methyl-2-nitrosohydrazino)-N-methyl-1-hexanamine], and ii) the anxiogenic/antinociceptive effects induced by intra-dPAG CRF are prevented by local infusion of Nω-propyl-L-arginine (NPLA), a neuronal NOS inhibitor, in mice. Male Swiss mice (12 weeks old, 25-35 g, N = 8-14/group) were stereotaxically implanted with a 7-mm cannula aimed at the dPAG. Intra-dPAG NOC-9 (75 nmol) produced defensive-like behavior (jumping and running) and antinociception (assessed by the formalin test). Both effects were reversed by prior local infusion of NBI 27914 (2 nmol). Conversely, intra-dPAG NPLA (0.4 nmol) did not modify the anxiogenic/antinociceptive effects of CRF (150 pmol). These results suggest that CRFr1 plays an important role in the defensive behavior and antinociception produced by NO within the dPAG. In contrast, the anxiogenic and antinociceptive effects produced by intra-dPAG CRF are not related to NO synthesis in this limbic midbrain structure.

Estudos dos genes Tbx19 e Crhr1 em cães da raça poodle com hipercortisolismo ACTH-dependente / Study of Tbx19 and Crhr1 genes in poodle dogs with ACTH-dependent hypercortisolism

O hipercortisolismo ACTH-dependente (HAD), também chamado de doença de Cushing, é uma das endocrinopatias mais comumente diagnosticadas na espécie canina. A sintomatologia clínica ocorre, secundariamente, aos efeitos gliconeogênicos, catabólicos, antiinflamatórios e imunossupressores dos glicocorticóides sobre vários sistemas orgânicos. Há uma marcante predisposição da doença na raça poodle e casos familiais têm sido diagnosticados sugerindo uma causa genética. As alterações moleculares que levam ao desenvolvimento do HAD em cães permanecem indefinidas. Dentre os genes implicados no desenvolvimento dos corticotrofos e na regulação do eixo corticotrófico, destacam-se o Tbx19 e o Crhr1, respectivamente. O Tbx19 é um fator de transcrição obrigatório para a transcrição do gene da proopiomelanocortina (POMC) e para a diferenciação terminal dos corticotrofos. Como está presente, exclusivamente, em corticotrofos normais e adenomatosos, foi proposto seu envolvimento na secreção excessiva de ACTH na doença de Cushing. A presença de CRHR1 nos corticotrofinomas na espécie humana e canina levantou a hipótese da sua participação na tumorigênese hipofisária, promovendo uma estimulação celular prolongada, mesmo na ausência de hormônios hipotalâmicos. Um aumento da expressão do CRHR1 foi demonstrado nos tumores corticotróficos, apesar da secreção autônoma de ACTH e dos níveis portais suprimidos de CRH em pacientes humanos e caninos com doença de Cushing. Os objetivos do presente trabalho foram pesquisar a presença de mutações germinativas nas regiões codificadoras dos genes Tbx19 e Crhr1 em cães com HAD. Para tanto, estudamos 50 cães da raça poodle com hipercortisolismo ACTH-dependente (33 fêmeas e 17 machos), com idade média de 8,71 anos e 50 cães controle da mesma raça (32 fêmeas e 18 machos) com idade superior a 6 anos (média de 9,38 anos) e sem endocrinopatias...

The ACTH-dependent hypercortisolism (ADH), also called Cushing's disease, is one of the most commonly diagnosed endocrine diseases in dogs. The symptoms occur due to glucocorticoids excess leading to gluconeogenic, catabolic, anti-inflammatory and immunosuppressive effects in multiple organs and systems. There is a high incidence of Cushing's disease in Poodles and familial disease has been identified suggesting a genetic involvement. The molecular changes that lead to the development of ACTH-dependent hypercortisolism in dogs remain undefined. Among genes implicated in corticotroph development and in corticotropic axis regulation, we would like to point out Tbx19 and Crhr1, respectively. Tbx19 gene is a transcription factor required for transcription of the proopiomelanocortin gene and for terminal differentiation of the corticotroph. Inactivating mutations in that gene are associated with human isolated ACTH deficiency. Since Tbx19 is present exclusively in normal and adenomatous corticotroph cells, its involvement in the secretion of ACTH in Cushing's disease was proposed. The presence of CRHR1 in corticotrophinomas in humans and dogs raised the possibility of its involvement in pituitary tumorigenesis, promoting prolonged cell stimulation, even in the absence of hypothalamic hormones. An increased expression of the CRHR1 mRNA was demonstrated in human and canine ACTH-secreting pituitary adenomas, despite the autonomous ACTH secretion and the low portal levels of CRH. The aim of this study was to investigate Tbx19 and Crhr1 coding region mutations in Poodle dogs with ACTH-dependent hypercortisolism. We studied 50 Poodle dogs with ADH (33 females and 17 males) with a mean age of 8.71 years and 50 control dogs of the same breed (32 females and 18 males) older than 6 years (mean 9.38 years) and without endocrinopathies. Genomic DNA was extracted from peripheral blood, amplified by the polymerase chain reaction (PCR) using specific intronic primers...