Multilateral in vivo and in vitro protective effects of the novel heat shock protein coinducer, bimoclomol: results of preclinical studies.

P. Nanasi, Andrea Jednakovits
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引用次数: 40

Abstract

Bimoclomol, the recently developed non-toxic heat shock protein (HSP) coinducer, was shown to display multilateral protective activities against various forms of stress or injuries at the level of the cell, tissue or organism. The compound enhanced the transcription, translation and expression of the 70 kD heat shock protein (HSP-70) in myogenic and HeLa cell lines exposed to heat stress, and increased cell survival on exposure to otherwise lethal thermal injury. Bimoclomol increased contractility of the working mammalian heart, this effect was associated with the increased intracellular calcium transients due to increased probability of opening of ryanodine receptors in the sarcoplasmic reticulum (SR). In healthy tissues these cardiac effects were evident only at relatively high concentrations of the drug, while in the ischemic myocardium bimoclomol exerted significant cardioprotective and antiarrhythmic effects at submicromolar concentrations. It decreased ischemia-induced reduction of contractility and of cardiac output, and dramatically decreased the elevation of the ST-segment during ischemia as well as the occurrence of ventricular fibrillation upon reperfusion. Bimoclomol was also active in various pathological animal models subjected to acute or chronic stress. In the spontaneously hypertensive rats chronic pretreatment with bimoclomol restored sensitivity of aortic rings to acetylcholine; this effect was accompanied by accumulation of HSP-70 in the tissues. Bimoclomol pretreatment significantly diminished the consequences of vascular disorders associated with diabetes mellitus. Diabetic neuropathy, retinopathy, and nephropathy were prevented or diminished, while wound healing was enhanced by bimoclomol. Enhancement of wound healing by bimoclomol was observed after thermal injury as well as following ultraviolet (UV) irradiation. In addition to the beneficial effects on peripheral angiopathies, bimoclomol antagonized the increase in permeability of blood-brain barrier induced by subarachnoid hemorrhager or arachidonic acid. A general and very important feature of the above effects of bimoclomol was that the drug failed to cause alterations under physiological conditions (except the enhanced calcium release from cardiac sarcoplasmic reticulum). Bimoclomol was effective only under conditions of stress. Consistent with its HSP-coinducer property, bimoclomol alone had very little effect on HSP production. Its protective activity became apparent only in the presence of cell damage. Currently, bimoclomol reached the end of the Phase II clinical trial in a group of 410 patients with diabetic complications. Results of this trial will answer the question, whether a compound with promising in vitro and in vivo preclinical findings will produce the anticipated beneficial effects in humans. In the event of a positive outcome of this trial, the indications for bimoclomol will be substantially extended.
新型热休克蛋白共诱导剂双氯酚的体内外多重保护作用:临床前研究结果。
bimoclool是最近开发的无毒热休克蛋白(HSP)共诱导剂,在细胞、组织或生物体水平上显示出对各种形式的应激或损伤的多边保护活性。该化合物可增强热应激下的肌源性和HeLa细胞系70 kD热休克蛋白(HSP-70)的转录、翻译和表达,并提高细胞在致命热损伤下的存活率。双氯洛酚增加了哺乳动物心脏的收缩力,这种作用与细胞内钙瞬态增加有关,这是由于肌浆网(SR)中ryanodine受体打开的可能性增加。在健康组织中,这些心脏作用仅在相对高浓度的药物下才明显,而在缺血心肌中,双氯酚在亚微摩尔浓度下具有显著的心脏保护和抗心律失常作用。它降低了缺血引起的收缩力和心输出量的减少,并显著降低了缺血时st段的升高以及再灌注时心室颤动的发生。双氯洛酚在各种急性或慢性应激的病理动物模型中也有活性。在自发性高血压大鼠中,双氯酚慢性预处理可恢复主动脉环对乙酰胆碱的敏感性;这种效应伴随着组织中热休克蛋白70的积累。双氯酚预处理可显著降低糖尿病相关血管疾病的后果。双氯酚可预防或减轻糖尿病性神经病变、视网膜病变和肾病,同时促进伤口愈合。热损伤后及紫外线照射后,双氯苯酚均能促进创面愈合。除了对外周血管病变的有益作用外,双氯酚还能拮抗蛛网膜下腔出血或花生四烯酸引起的血脑屏障通透性增加。双氯苯酚上述作用的一个普遍和非常重要的特点是,该药物在生理条件下不能引起改变(除了增强钙从心肌肌浆网的释放)。双氯霉素仅在应激条件下有效。单用双氯酚对热sp的产生影响很小,这与双氯酚的热sp共诱导剂性质一致。它的保护作用只有在细胞受损时才显现出来。目前,bimoclool在一组410例糖尿病并发症患者中的II期临床试验已经结束。这项试验的结果将回答这样一个问题,即一种具有体外和体内临床前研究结果的化合物是否会对人类产生预期的有益作用。如果这项试验的结果是积极的,双氯霉素的适应症将大大延长。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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