University of Toronto , 124 Edward Street, Toronto, Ontario M5G 1G6 , Canada
Expert Opin Drug Discov. 2014 May;9(5):505-22. doi: 10.1517/17460441.2014.902155.
Bone loss occurs in many diseases, including osteoporosis, rheumatoid arthritis and periodontal disease. For osteoporosis alone, it is estimated that 75 million people are afflicted worldwide, with high risks of fractures and increased morbidity and mortality. The demand for treatment consumes an ever-increasing share of healthcare resources. Successive generations of antiresorptive bisphosphonate drugs have reduced side effects, minimized frequency of dosing, and increased efficacy in halting osteoporotic bone loss, but their shortcomings have remained significant to the extent that a monoclonal antibody antiresorptive has recently taken a significant market share. Yet this latter, paradigm-shifting approach has its own drawbacks.
This review summarizes recent literature on bone-remodeling cell and molecular biology and the background for existing approaches and emerging therapeutics and targets for treating osteoporosis. The authors discuss vacuolar H(+)-ATPase (V-ATPase) molecular biology and the recent advances in targeting the osteoclast ruffled-border V-ATPase (ORV) for the development of novel antiresorptive drugs. They also cover examples from the V-ATPase-targeted drug discovery literature, including conventional molecular biology methods, in silico drug discovery, and gene therapy in more detail as proofs of concept.
Existing therapeutic options for osteoporosis have limitations and inherent drawbacks. Thus, the search for novel approaches to osteoporosis drug discovery remains relevant. Targeting the ORV may be one of the more selective means of regulating bone resorption. Furthermore, this approach may be effective without removing active osteoclasts from the finely balanced osteoclast-osteoblast coupling required for normal bone remodeling.
许多疾病都会导致骨质流失,包括骨质疏松症、类风湿性关节炎和牙周病。仅就骨质疏松症而言,据估计全世界有 7500 万人受到影响,骨折风险高,发病率和死亡率增加。对治疗的需求消耗了越来越多的医疗保健资源。一代又一代的抗吸收双膦酸盐药物降低了副作用,减少了给药频率,并提高了阻止骨质疏松性骨质流失的疗效,但它们的缺点仍然很显著,以至于最近一种单克隆抗体抗吸收药物占据了很大的市场份额。然而,这种具有划时代意义的方法也有其自身的缺陷。
本文综述了骨重塑细胞和分子生物学的最新文献,以及现有方法和新兴治疗方法以及骨质疏松症治疗靶点的背景。作者讨论了空泡质子泵(V-ATPase)分子生物学以及最近针对破骨细胞皱褶边缘 V-ATPase(ORV)的靶向研究进展,为开发新型抗吸收药物提供了新的思路。还详细介绍了 V-ATPase 靶向药物发现文献中的一些例子,包括常规分子生物学方法、计算药物发现和基因治疗,作为概念验证。
骨质疏松症的现有治疗选择存在局限性和固有缺陷。因此,寻找骨质疏松症药物发现的新方法仍然具有现实意义。靶向 ORV 可能是调节骨吸收的更具选择性方法之一。此外,这种方法可能有效,而无需从正常骨重塑所需的精细平衡的破骨细胞-成骨细胞偶联中去除活性破骨细胞。
