El-Gowelli Hanan M, El-Mas Mahmoud M
Department of Pharmacology and Toxicology, Faculty of Pharmacy, Alexandria University, Alexandria, Egypt.
Naunyn Schmiedebergs Arch Pharmacol. 2015 Mar;388(3):351-61. doi: 10.1007/s00210-014-1074-1. Epub 2014 Nov 29.
Arterial hypertension is a considerable side effect that accompanies the clinical use of immunosuppressant drugs such as cyclosporine (CSA). In addition to promoting graft rejection, uncontrolled hypertension is a major risk factor for atherosclerosis, left ventricular hypertrophy, heart failure, and premature death. Most, if not all, reports that reviewed the hypertensive effect of CSA and underlying mechanisms focused on the roles of peripheral vasoactive machinaries, perhaps because of the limited capacity of CSA to diffuse to brain tissues and the lack of any appreciable effect for centrally administered CSA on blood pressure (BP) or central sympathetic outflow. This review focuses primarily on evidence that supports a modulatory role for central neural pathways, as go-between afferent and efferent sympathetic circuits, in the elicitation of the hypertensive action of CSA. Other areas covered briefly in the review include (1) an outline of peripheral mechanisms that contribute to the hypertensive action of CSA, and (2) comparisons of the BP effects of CSA and other calcineurin-dependent (tacrolimus) and independent (sirolimus) immunosuppressants. The knowledge of these mechanisms, central and peripheral, may permit the identification of new therapeutic strategies against CSA hypertension.
动脉高血压是环孢素(CSA)等免疫抑制剂临床使用时伴随出现的一种相当严重的副作用。除了会促进移植排斥反应外,未得到控制的高血压还是动脉粥样硬化、左心室肥厚、心力衰竭和过早死亡的主要危险因素。大多数(即便不是全部)回顾CSA高血压效应及其潜在机制的报告都聚焦于外周血管活性机制的作用,这可能是因为CSA扩散至脑组织的能力有限,且中枢给予CSA对血压(BP)或中枢交感神经输出没有明显影响。本综述主要关注支持中枢神经通路作为传入和传出交感神经回路之间的媒介在引发CSA高血压作用中起调节作用的证据。本综述还简要涵盖了其他方面,包括(1)促成CSA高血压作用的外周机制概述,以及(2)CSA与其他钙调神经磷酸酶依赖性(他克莫司)和非依赖性(西罗莫司)免疫抑制剂的血压效应比较。了解这些中枢和外周机制可能有助于确定针对CSA高血压的新治疗策略。
