The missing influence of estrogen on endothelial nitric oxide (NO) synthase often forms the basis for a worsening of the cardiac risk profile for women in postmenopause. Various studies have shown that decreasing estrogen levels also directly effect the expression of PTHrP and TGFbeta1. PTHrP is involved in the endothelium-dependent regulation of coronary resistance and cardiac function. The current study investigates to what extent chronic NO deficit affects the cardiac effects of PTHrP. NO deficit was achieved in female adult rats by feeding them the NO synthase inhibitor N-omega-nitro-L-arginine methyl ester over a period of 4 wk. Isolated hearts of the conditioned animals were investigated in Langendorff technique and perfused for 3 min with 100 nM PTHrP. The contraction behavior of isolated cardiomyocytes was registered in a cell-edge detection system. Hearts from untreated animals displayed a significant drop in left ventricular developed pressure and a pronounced increase in heart rate in consequence of short term PTHrP stimulation. In hearts from NO-deficient rats PTHrP no longer affected the inotropy and chronotropy. The vasodilating effect of PTHrP on coronary vessels was, however, independent of the NO level. These changes were accompanied by a differing expression of the PTH1 receptor. TGFbeta1 was identified as an important mediator for the regulation of the PTH1 receptor in myocytic but not endothelial cells. These results indicate that chronic NO deficit down-regulates the PTH1 receptor in a TGFbeta1-dependent way. These findings are important with respect to the relatively new therapy of postmenopausal osteoporosis with PTHrP analogs.
Aims: The study was aimed to investigate whether nicotine affects endothelial expression of PTHrP and PTHrP receptor, a peptide system involved in endothelial protection against apoptosis. Methods: Isolated and cultured rat coronary endothelial cells were used. Immunoblot techniques were used to study activation of mitogen-activated protein (MAP) kinases and to quantify PTHrP and PTHrP receptor expression. Real-time RT-PCR was used to quantify PTHrP, PTHrP-receptor, bcl-2, and bax mRNA expression. The rate of apoptosis was determined by HOE33258 staining and confirmed by quantification of the bcl-2-to-bax ratio. In vitro data were compared to hearts from rats exposed to cigarette smoking. Results: Nicotine induced PTHrP protein expression at nanomolar levels and small increases of PTHrP release (≈8%). Antagonists directed against the α7 subunit of cholinergic receptors, the most prominent isoform, attenuated nicotine-dependent increases of PTHrP expression. This effect of nicotine was p38 MAPK dependent. Nicotine at micromolar concentrations reduced PTHrP receptor expression. In vitro and in vivo we found a correlation between PTHrP receptor expression and bcl-2 expression. Conclusion: Nicotine induces PTHrP expression in endothelial cells but excessive concentrations of nicotine reduce PTHrP receptor expression thereby attenuating any protective effects of PTHrP against apoptosis.
Eight members of a family of Working Kelpies were presented with signs compatible with dermatomyositis. Alopecia, crusts, ulcerations of the skin, depigmentation of nasal planum and lips, onychodystrophy and atrophy of the masticatory muscles were present with varying degree. Histopathology of the skin, but not from muscles was performed in three dogs and confirmed the clinical diagnosis. Different immunomodulating drugs (steroids, cyclosporine, mycophenolate mofetil, pentoxifylline, doxycyline/niacinamid, omega-3 fatty acids and vitamin E) were used with variable success. Dermatomyositis is an immune-mediated disease and a genetic predisposition is known in humans and certain canine breeds, mainly Shetland Sheepdogs and Collies, but also for the Beauceron. The responsible genes have not been identified so far. It is assumed that the Working Kelpie derives from the Collie which could explain a hereditary predisposition in the Kelpie.
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