Endothelial dysfunction is an early marker for transplant atherosclerosis. Potential mechanisms for allograft endothelial dysfunction include stimulation of alloimmune-dependent pathways, ischemia/reperfusion injury, metabolic alterations, chronic infections, as well as direct endothelial cell activation by immunosuppressive drugs. Thus far, no study has directly compared different immunosuppressive drugs with respect to their potential to modulate endothelial function under normoxic and hypoxic conditions. We examined human microvascular endothelial cells (HMEC-1) in vitro after stimulation with therapeutic concentrations of methylprednisolone (MP), mycophenolic acid (MMF), cyclosporine A (CS), rapamycin (Rapa), and tacrolimus (Tac) to designate the corresponding induction of oxidative stress, apoptosis, metabolic activity, proliferation, endothelin (ET-1) release, and nitric oxide (NO) production. HMEC-1 stimulation with CS, MMF, and Rapa resulted in a stronger induction of oxidative stress compared with MP and Tac. Induction of oxidative stress by immunosuppressives correlated with metabolic activity and apoptosis. Low- and high-dose MMF significantly inhibited cell proliferation under hypoxic conditions, whereas low-dose CS and MP increased endothelial cell proliferation. ET-1 release was significantly elevated by Rapa, Tac, and MP. NO production was significantly enhanced by all immunosuppressive drugs except Tac. Quality and quantity of immunosuppression modify endothelial function and lead to a dose-dependent and oxygenation-state-related endothelial activation. MP and MMF induced minor changes in endothelial function compared with CS, Rapa, and Tac.
Cardiovascular disease is rare in premenopausal women compared to men. The authors investigate sex hormone-induced endothelin-1 (ET-1) release and the involvement of classic sex hormone receptors as well as the ability of sigma-1/cocaine receptors to respond to sex hormones. ET-1 release was measured in the supernatant of endothelial cells after treatment with beta-estradiol, progesterone, testosterone, or combined with their antagonists, and with the sigma-1 receptor ligand ditolylguanidine (DTG), or haloperidol, a sigma-1 receptor antagonist. Binding assays were performed using 2.5 x 10(-8) M [3H]DTG. Female sex hormones decreased ET-1 release whereas testosterone increased it, sex hormone antagonists only slightly attenuated or had no effect on the respective hormone's effect. DTG totally blocked the female sex hormone-induced inhibition on ET-1 release, whereas testosterone-induced stimulation was not affected. However, haloperidol blocked both. [3H]DTG binding was displaced by beta -estradiol but not by testosterone. DTG-binding sites account for 513 +/- 114 per cell, KD 8.79 nM. These data suggest that besides classic steroid hormone receptors, sigma-1/cocaine receptors mediate the effects of female sex hormones on ET-1 release, an up to now unknown signalling pathway. Results also suggest that female and male sex hormones may bind to different sites on sigma-1 receptors, exerting opposite pharmacological effects.
Observations have been made linking the presence of psychosocial factors associated with elevated beta-endorphin concentrations with atherosclerosis. In this study, the authors assume an important role of the stress hormone beta-endorphin in several mechanisms that contribute to a dysbalance of human endothelial and monocytic endothelin (ET)-1 and nitric oxide (NO) release, mediated by mu1-opioid receptors. ET-1 and NO release were quantified via enzyme-linked immunosorbent assay (ELISA) or fluorometrically. mu1-Opioid receptors were identified by polymerase chain reaction (PCR) after stimulation with beta-endorphin. beta-Endorphin significantly increased endothelial and monocytic ET-1 release. The effect was mediated by mu1-opioid receptors and abolished by naloxonazine, a selective mu1-opioid receptor antagonist. In contrast, NO release was decreased under the influence of beta-endorphin. mu1-Opioid receptors on human monocytes and endothelial cells mediated a beta-endorphin-induced stimulation of ET-1 release, whereas NO release was decreased. Thus, the authors hypothesize a role of beta-Endorphin in the pathogenesis of stress-induced endothelial dysfunction through peripherally circulating beta-endorphin, which may offset the balance of vasoactive mediators, leading to an unopposed vasoconstriction. The data may also provide a new concept of mu1-opioid receptor antagonists, preventing beta-endorphin-induced disorders of vascular biology.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.