Mimecan Regulates Corticosterone Secretion and Plays A Critical Role in Adrenal Responses to Stress

Background: A functional hypothalamic-pituitary-adrenal (HPA) axis is critical for host defenses to outside stimuli. The adrenal cortex is seemingly endowed with distinct functional units that are regulated by adrenocorticotropic hormone (ACTH). We have found that mimecan, a small leucine-rich proteoglycan expressed in the adrenal gland, has yet to be characterized in functional terms.Results: Herein, we have demonstrated the following properties: 1) adrenal mimecan expression in mouse models is significantly downregulated under hypoglycemia and scalded stress; 2) expression of mimecan in adrenal cells may be downregulated through ACTH or upregulated by glucocorticoid via related receptors (GRs); and 3) mimecan stimulates corticosterone secretion in adrenal tissues. The latter was proven using in vivo and in vitro studies to confirm the ACTH-independent activity of mimecan-maltose-binding protein (-MBP). Relative to litter-mate mice, the basal-state diurnal rhythm of corticosterone secretion is disrupted in mimecan knockout mice, and corticosterone secretion is increased under restraint stress conditions. Conclusions: These findings offer the first evidence that mimecan is key in regulating the HPA axis, assuming a critical role in adrenal responses to stress.

Abstract P131: Jak2 Expression In Cd11c+ Myeloid Cells Plays A Role In Salt-sensitive Hypertension Through An Enac-dependent Mechanism.

Hypertension is a major risk factor for development of cardiovascular disease. Excess dietary salt contributes to inflammation and the genesis of hypertension. We recently found that gamma and alpha subunits of the epithelial sodium channel (ENaCαγ) on dendritic cells mediate NADPH oxidase-dependent formation of immunogenic isolevuglandin (IsoLG)-protein adducts leading to inflammation and salt-sensitive hypertension. We hypothesized that Jak2 expression, specifically in CD11c + myeloid cells, regulates expression of ENaCγ and promotes salt-sensitive hypertension. Our results indicate that deletion of Jak2 in CD11c + myeloid cells reduced the salt-induced expression of ENaCγ in CD11c+ cells. Moreover, mice lacking Jak2 in CD11c+ cells developed a blunted hypertensive response (123.8±4.7) during the high salt feeding phase of the N-Nitro-L-arginine methyl ester hydrochloride (L- NAME)/high salt model of salt-sensitive hypertension compared to their wildtype littermate controls (140.5±6.5). These mice also exhibited less infiltration of monocyte/macrophages in their kidneys and less volume retention (69.55±5.8) in response to high salt-feeding when compared to the wildtype litter mate controls (57.89±9.5). These results indicate that Jak2 expression in CD11c + myeloid cells plays a role in salt- sensitive hypertension through an ENaC-dependent mechanism.

Pyovagina and stump pyometra in a neutered XX sex-reversed beagle: a case report

An 18-month-old, neutered male beagle presented with acute abdominal signs and a suppurative infection of the urogenital tract. Chromosomal sex was female (78, XX), gonadal sex was male (testicles), and phenotypic sex was ambiguous, with evidence of both male and female duct systems. The internal and external genitalia consisted of epididymides, an underdeveloped uterus with an immature spermatic cord, communication between the uterus or cranial vagina and the membranous urethra, a urethrographically male urethra, a hypoplastic os penis, and a hypoplastic penis with hypospadia. Based on these findings and the familial history of a similarly affected litter mate, the dog was diagnosed as having the XX male syndrome with pyovagina and uterine stump pyometra. Radiographic and ultrasonographic investigations are described, and abnormalities of chromosomal sex, gonadal sex, and phenotypic sex are discussed.

Growth of the Cranial Vault in Rabbits with Congenital Coronal Suture Synostosis

Craniofacial growth data from craniosynostotic children have shown that suture immobilization results in predictable restrictions of cranial vault growth in a direction perpendicular to the affected suture and compensatory growth at sutures perpendicular to the affected one. This study tests these predictions by using rabbits with nonsyndromic congenital coronal suture synostosis. Data were collected from 96 rabbits divided into three groups: 42 unaffected litter mate controls, 33 partially synostosed rabbits, and 21 completely synostosed rabbits. Markers were placed bilaterally on either side of the vault sutures at 1.5 weeks of age. Serial radiographs were taken at 1.5, 6, 12, and 18 weeks of age for assessment of growth at the vault sutures and of various cranial landmarks. Results revealed that completely synostosed animals had significantly (p <.05) shorter cranial vaults, reduced growth at the coronal suture, and increased growth at the sagittal, frontal, and squamosal sutures compared with unaffected rabbits. Results also showed that the calvarial growth observed in this craniosynostotic rabbit model closely reflects predicted compensatory patterns seen in human clinical populations and that this rabbit model is valuable for understanding the pathogeneses and craniofacial growth patterns of humans with premature cranial suture synostosis.