Two Distinctive POMC Promoters Modify Gene Expression in Cushing’s Disease

Context Mechanisms underlying pituitary corticotroph adenoma ACTH production are poorly understood, yet circulating ACTH levels closely correlate with adenoma phenotype and clinical outcomes. Objective We characterized the 5’ ends of proopiomelanocortin (POMC) gene transcripts, which encode the precursor polypeptide for ACTH, in order to investigate additional regulatory mechanisms of POMC gene transcription and ACTH production. Methods We examined 11 normal human pituitary tissues, 32 ACTH-secreting tumors, as well as 6 silent pituitary corticotroph adenomas (SCA) that immunostain for but do not secrete ACTH. Results We identified a novel regulatory region located near the intron2/exon3 junction in the human POMC gene, which functions as a second promoter and an enhancer. In vitro experiments demonstrated that CREB binds the second promoter and regulates its transcriptional activity. The second promoter is highly methylated in SCA, partially demethylated in normal pituitary tissue, and highly demethylated in pituitary and ectopic ACTH-secreting tumors. In contrast, the first promoter is demethylated in all POMC-expressing cells and is highly demethylated only in pituitary ACTH-secreting tumors harboring the USP8 mutation. Demethylation patterns of the second promoter correlate with clinical phenotypes of Cushing’s disease. Conclusion We identified a second POMC promoter regulated by methylation status in ACTH-secreting pituitary tumors. Our findings open new avenues for elucidating subcellular regulation of the hypothalamic-pituitary-adrenal axis and suggest the second POMC promoter may be a target for therapeutic intervention to suppress excess ACTH production.

Differential Effects of FKBP4 and FKBP5 on Regulation of the Proopiomelanocortin Gene in Murine AtT-20 Corticotroph Cells

The hypothalamic-pituitary-adrenal axis is stimulated in response to stress. When activated, it is suppressed by the negative feedback effect of glucocorticoids. Glucocorticoids directly inhibit proopiomelanocortin (Pomc) gene expression in the pituitary. Glucocorticoid signaling is mediated via glucocorticoid receptors, 11β-hydroxysteroid dehydrogenases, and the FK506-binding immunophilins, FKBP4 and FKBP5. FKBP4 and FKBP5 differentially regulate dynein interaction and nuclear translocation of the glucocorticoid receptor, resulting in modulation of the glucocorticoid action. Here, we explored the regulation of Fkbp4 and Fkbp5 genes and their proteins with dexamethasone, a major synthetic glucocorticoid drug, in murine AtT-20 corticotroph cells. To elucidate further roles of Fkbp4 and Fkbp5, we examined their effects on Pomc mRNA levels in corticotroph cells. Dexamethasone decreased Pomc mRNA levels as well as Fkpb4 mRNA levels in mouse corticotroph cells. Dexamethasone tended to decrease FKBP4 protein levels, while it increased Fkpb5 mRNA and its protein levels. The dexamethasone-induced decreases in Pomc mRNA levels were partially canceled by Fkbp4 knockdown. Alternatively, Pomc mRNA levels were further decreased by Fkbp5 knockdown. Thus, Fkbp4 contributes to the negative feedback of glucocorticoids, and Fkbp5 reduces the efficiency of the glucocorticoid effect on Pomc gene expression in pituitary corticotroph cells.

Pro-Opiomelanocortin Neural Activation and Sexual Interest in Male Mice

Pro-opiomelanocortin (POMC) neurons in the hypothalamus play a role in both the control of metabolic state and sexual behavior. Along with the fast neurotransmitters glutamate and/or GABA, POMC neurons secrete cocaine- and amphetamine-regulated transcript (CART) and products of the POMC gene, including β-endorphin and α-melanocortin stimulating hormone (α-MSH). Published data from our lab demonstrate a lack of sexual interest in male mice when both the leptin receptor and insulin receptor are deleted from POMC neurons. Furthermore, this absence of interest correlates with a decrease in the POMC product α-MSH. However, it is not known whether these effects correspond to an increase in POMC neural activation. We hypothesized that activation of POMC neurons in male mice would lead to improved sexual interest. We have crossed mice with cre-dependent expression of the excitatory designer receptor, hM3Dq, with mice expressing cre under control of the POMC promoter. When these mice are administered intraperitoneal clozapine-N-oxide (CNO), POMC neurons exhibit increased activation. We completed a comprehensive mating analysis to measure the sexual desire and erectile and ejaculatory capabilities of these male mice under CNO or saline administration. Additionally, we sacrificed the mice after injection of CNO or saline to perform immunostaining for the protein c-fos as an indicator of neural activation. As expected, activation of POMC neurons with CNO increased c-fos expression, while the impact on male sexual interest was more nuanced. These experiments emphasize the need to investigate the specific neuropeptide and transmitter output by POMC neurons that influences sexual behavior and function.

STAT3 phosphorylation in central leptin resistance

Mechanism exploitation of energy homeostasis is urgently required because of the worldwide prevailing of obesity-related metabolic disorders in human being. Although it is well known that leptin plays a central role in regulating energy balance by suppressing food intake and promoting energy expenditure, the existence of leptin resistance in majority of obese individuals hampers the utilization of leptin therapy against these disorders. However, the mechanism of leptin resistance is largely unknown in spite of the globally enormous endeavors. Current theories to interpret leptin resistance include the impairment of leptin transport, attenuation of leptin signaling, chronic inflammation, ER tress, deficiency of autophagy, as well as leptin itself. Leptin-activated leptin receptor (LepRb) signals in hypothalamus via several pathways, in which JAK2-STAT3 pathway, the most extensively investigated one, is considered to mediate the major action of leptin in energy regulation. Upon leptin stimulation the phosphorylation of STAT3 is one of the key events in JAK2-STAT3 pathway, followed by the dimerization and nuclear translocation of this molecule. Phosphorylated STAT3 (p-STAT3), as a transcription factor, binds to and regulates its target gene such as POMC gene, playing the physiological function of leptin. Regarding POMC gene in hypothalamus however little is known about the detail of its interaction with STAT3. Moreover the status of p-STAT3 and its significance in hypothalamus of DIO mice needs to be well elucidated. This review comprehends literatures on leptin and leptin resistance and especially discusses what STAT3 phosphorylation would contribute to central leptin resistance.

OR19-06 Sepsis-Induced Critical Illness in Mice Alters Key Regulators of ACTH Production and Secretion Within the Anterior Pituitary Gland

Introduction Critical illness is hallmarked by high plasma cortisol without elevated ACTH. This is partly explained by low cortisol-binding proteins and reduced binding affinity and by suppressed cortisol metabolism, 3 peripheral drivers of increased free cortisol (corticosterone (CORT) in rodents).1 We hypothesized that lack of elevated plasma ACTH is explained by CORT-induced feed-back inhibition either due to suppressed CRH or AVP pituitary signaling or to direct glucocorticoid receptor (GR)-mediated action within corticotrophs. To test this hypothesis, we documented alterations in ACTH precursors and key enzymes controlling ACTH maturation and secretion in a mouse model of sepsis-induced critical illness. Methods C57Bl/6 mice were randomly allocated to a healthy control group or to 4 critically ill groups sacrificed after increasing illness duration (30 hours (H), 3 days (D), 5D or 7D). Critical illness was induced by sepsis brought about by cecal-ligation and puncture followed by fluid-resuscitation and antibiotics treatment. The study was continued until 15 surviving animals per time cohort were reached (n=120). We quantified pituitary pro-opiomelanocortin (POMC) gene/protein expression and POMC plasma concentrations, pituitary POMC intracellular trafficking and cleavage via intracellular POMC sorting/trafficking receptor Carboxypeptidase E (CPE) and prohormone convertase 1 (PC1/3) gene/protein expression. Gene expression of Annexin A1, an inhibitor of mature ACTH secretion, was quantified as marker of GR-mediated CORT-induced feedback inhibition at corticotroph level. Results Plasma CORT concentrations were median 3-fold increased during critical illness (p<0.001 for all time cohorts) in the face of normal (for 30H, 3D and 5D cohorts) to low (7D time cohort; p=0.01) plasma ACTH concentrations. Plasma POMC concentrations were higher in critically ill than in control mice (p=0.05). POMC gene expression (but not protein, P=0.8) was a median 55% higher in critically ill mice than in controls (p<0.05 for all time cohorts). In contrast, pituitary mature ACTH protein concentration was median 61% lower in critically ill than in control mice (p<0.01). CPE gene expression was only increased in 30H time cohort (p<0.001). PC1/3 gene and protein expression were positively correlated (R2 0.1; p=0.001) and were reduced (by 37% and 43%, respectively) during the entire course of critical illness (p<0.01). Annexin A1 gene expression was increased during critical illness (p<0.05 for all time cohorts). Conclusion Suppressed CRH or AVP signaling and GR-mediated action within corticotrophs explained lack of elevated plasma ACTH in critical illness, as indicated by impaired POMC processing and ACTH maturation. However, increased POMC gene expression suggests ongoing corticotroph activation, the driver of which needs to be identified. 1. Teblick A et al. Nat Rev Endocrinol 2019