The brain hypothalamus contains certain secreted molecules that are important in regulating feeding behaviour. Here we show that nesfatin, corresponding to NEFA/nucleobindin2 (NUCB2), a secreted protein of unknown function, is expressed in the appetite-control hypothalamic nuclei in rats. Intracerebroventricular (i.c.v.) injection of NUCB2 reduces feeding. Rat cerebrospinal fluid contains nesfatin-1, an amino-terminal fragment derived from NUCB2, and its expression is decreased in the hypothalamic paraventricular nucleus under starved conditions. I.c.v. injection of nesfatin-1 decreases food intake in a dose-dependent manner, whereas injection of an antibody neutralizing nesfatin-1 stimulates appetite. In contrast, i.c.v. injection of other possible fragments processed from NUCB2 does not promote satiety, and conversion of NUCB2 to nesfatin-1 is necessary to induce feeding suppression. Chronic i.c.v. injection of nesfatin-1 reduces body weight, whereas rats gain body weight after chronic i.c.v. injection of antisense morpholino oligonucleotide against the gene encoding NUCB2. Nesfatin-1-induced anorexia occurs in Zucker rats with a leptin receptor mutation, and an anti-nesfatin-1 antibody does not block leptin-induced anorexia. In contrast, central injection of alpha-melanocyte-stimulating hormone elevates NUCB2 gene expression in the paraventricular nucleus, and satiety by nesfatin-1 is abolished by an antagonist of the melanocortin-3/4 receptor. We identify nesfatin-1 as a satiety molecule that is associated with melanocortin signalling in the hypothalamus.
The regulation of corticotropin-releasing factor (CRF) mRNA expression in the rat brain by glucocorticoids and stress was examined by Northern blot analysis and in situ hybridization histochemistry. Rats either were exposed to a single electrical footshock session and killed 2, 4, 12, or 24 hr later (acute stress), or were subjected to the same regimen twice daily for 3 or 7 d and killed on the day following the last session (chronic stress). Rats placed in the experimental chamber but not administered shock comprised a "sham-handling" group. Chronic (7 d) intermittent footshock stress resulted in an 84 +/- 26% (P less than 0.05) increase in CRF mRNA levels in the whole hypothalamus as detected by Northern blot analysis and a 97 +/- 29% (P less than 0.05) increase in the paraventricular nucleus (PVN) as detected using in situ hybridization. No significant change in CRF mRNA levels was observed in the hypothalamus at any time up to 24 hr after a single exposure to footshock stress. A different pattern of results was obtained in other CRF-expressing cell groups. In Barrington's nucleus (a pontine micturition center), both acute and chronic stress produced significant increases in CRF mRNA, while in the olfactory bulb, both paradigms resulted in decreased levels. By Northern blot analysis, CRF mRNA in the olfactory bulb declined steadily, beginning at 4 hr after acute stress, and reached significance at 24 hr (69.2 +/- 1.9% of control, P less than 0.05). Levels from chronically (7 d) stressed animals declined to 54.1 +/- 5.1% of control value (P less than 0.05). Analysis of hybridization histochemical material revealed that both the number of positively hybridized cells and the number of silver grains per cell in the mitral and external plexiform layers of the bulb decreased following acute and chronic stress. However, CRF mRNA levels in the olfactory bulb were decreased to a comparable extent in the sham-handling group, suggesting that exposure to a novel environment can effect a decrease in CRF mRNA levels in the olfactory bulb. To provide comparisons with the effects of manipulation of glucocorticoid status, comparable analyses were carried out in separate groups of animals following adrenalectomy (ADX) with and without corticosteroid replacement. After ADX, CRF mRNA levels in the whole hypothalamus increased 60 +/- 5% (P less than 0.05) and were normalized following dexamethasone replacement. In contrast to the hypothalamus, no effects of steroid manipulation on CRF mRNA levels in the olfactory bulb, midbrain, cerebral cortex, or brain stem were detected.(ABSTRACT TRUNCATED AT 400 WORDS)
ACTH (i.e., corticotropin) is the principal regulator of the hypothalamus-pituitary-adrenal axis and stimulates steroidogenesis in the adrenal gland via the specific cell-surface melanocortin 2 receptor (MC2R). Here, we generated mice with an inactivation mutation of the MC2R gene to elucidate the roles of MC2R in adrenal development, steroidogenesis, and carbohydrate metabolism. These mice, the last of the knockout (KO) mice to be generated for melanocortin family receptors, provide the opportunity to compare the phenotype of proopiomelanocortin KO mice with that of MC1R-MC5R KO mice. We found that the MC2R KO mutation led to neonatal lethality in three-quarters of the mice, possibly as a result of hypoglycemia. Those surviving to adulthood exhibited macroscopically detectable adrenal glands with markedly atrophied zona fasciculata, whereas the zona glomerulosa and the medulla remained fairly intact. Mutations of MC2R have been reported to be responsible for 25% of familial glucocorticoid deficiency (FGD) cases. Adult MC2R KO mice resembled FGD patients in several aspects, such as undetectable levels of corticosterone despite high levels of ACTH, unresponsiveness to ACTH, and hypoglycemia after prolonged (36 h) fasting. However, MC2R KO mice differ from patients with MC2R-null mutations in several aspects, such as low aldosterone levels and unaltered body length. These results indicate that MC2R is required for postnatal adrenal development and adrenal steroidogenesis and that MC2R KO mice provide a useful animal model by which to study FGD.adrenocorticotropic hormone (ACTH) ͉ familial glucocorticoid deficiency (FGD) ͉ hypothalamus-pituitary-adrenal ͉ zona fasciculata T he adrenal gland regulates a number of essential physiological functions in adult organisms through the production of steroids and catecholamines. Maintenance of adrenal structure and function is regulated through the integration of extra-and intracellular signals. The pituitary hormone ACTH (i.e., adrenocorticotropic hormone), which is derived from the proopiomelanocortin (POMC) polypeptide precursor, is the principal regulator that stimulates adrenal glucocorticoid (GC) biosynthesis and secretion via the membrane-bound specific receptor for ACTH, ACTH receptor/melanocortin 2 receptor (MC2R) (1).It was previously demonstrated that, although POMC knockout (KO) mice are born at the expected Mendelian frequency, three-quarters of POMC KO mice undergo neonatal death. Furthermore, those mice surviving to adulthood exhibit obesity, pigmentation defects, and adrenal insufficiency (2-4). POMC KO mice possess macroscopically detectable adrenal glands that lack normal architecture (2, 4, 5). These results demonstrate the importance of POMC-derived peptides in regulating the hypothalamus-pituitary-adrenal axis and adrenal development.Familial glucocorticoid deficiency (FGD), or hereditary unresponsiveness to ACTH [Online Mendelian Inheritance in Man (OMIM) no. 202200; www.ncbi.nlm.nih.gov/entrez/dispomim.cgi?idϭ202200], is an autosomal recessive disorder ...
An increased plasma aldosterone concentration (PAC) with decreased plasma renin activity (PRA) is the abnormal endocrine finding in primary aldosteronism (PA). However, it remains unknown whether this profile is universal when blood samples are obtained in a random manner. We retrospectively evaluated the renin/aldosterone profile in 71 patients with PA due to unilateral adrenal adenoma. Blood samples were obtained randomly at an out-patient clinic and under standardized conditions during hospitalization before surgery. The frequency of PAC above 15 ng/dl, PRA below 0.5 ng angiotensin I/ml x h, and a PAC/PRA ratio greater than 35 was determined. These three variables showed a large intra- and interpatient variation. At least one measurement of PAC, PRA, and PAC/PRA ratio was in the normal range in 39%, 48%, and 31% of patients, respectively. Only 37% of patients always had the characteristic profile associated with PA. The mean values of PAC at the out-patient clinic were slightly, but significantly, lower than those in the hospital. These results clearly demonstrated that the renin/aldosterone profile in PA is not always abnormal due in part to conditions for blood sampling. We conclude that a single normal PAC, PRA, or PAC/PRA ratio does not excluded the diagnosis of PA in a hypertensive patient, but repeated measurements yields one or more abnormal parameters in the vast majority of patients. The PAC/PRA ratio is recommended to use as a screening, but other testing is required to arrive at the correct diagnosis.
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