Karolinska Institutet, Center for Biosciences, Department of Biosciences and Nutrition, S-14183 Stockholm, Sweden.
Expert Opin Ther Targets. 2013 Aug;17(8):977-90. doi: 10.1517/14728222.2013.806490. Epub 2013 Jun 6.
The two oxysterol receptors, 'liver X receptors (LXRs)' LXRα and LXRβ, are amongst the emerging newer drug targets within the nuclear receptor family and targeting LXRs represents novel strategies needed for prevention and treatment of diseases where current therapeutics is inadequate.
This review discusses the current understanding of LXR biology with an emphasis on the molecular aspects of LXR signalling establishing their potential as drug targets. Recent advances of their transcriptional mechanisms in inflammatory pathways and their physiological roles in inflammation and immunity are described.
The new discoveries of LXR-regulated inflammatory pathways have ignited new promises for LXRs as drug targets. The broad physiological roles of LXRs involve a high risk of unwanted side effects. Recent insights into LXR biology of the brain indicate a highly important role in neuronal development and a clinical trial testing an LXR agonist reported adverse neurological side effects. This suggests that drug development must focus on limiting the range of LXR signalling - possibly achieved through subtype, tissue specific, promoter specific or pathway specific activation of LXRs where a successful candidate drug must be carefully studied for its effect in the central nervous system.
两种胆甾醇氧化物受体,“肝 X 受体 (LXRs)”LXRα 和 LXRβ,是核受体家族中新兴的较新药物靶点之一,针对 LXRs 代表了需要的新策略,用于预防和治疗当前治疗方法不足的疾病。
本文综述了 LXR 生物学的现有认识,重点讨论了 LXR 信号转导的分子方面,确定了它们作为药物靶点的潜力。描述了它们在炎症途径中的转录机制的最新进展及其在炎症和免疫中的生理作用。
LXR 调节的炎症途径的新发现为 LXR 作为药物靶点带来了新的希望。LXRs 的广泛生理作用涉及到产生不必要的副作用的高风险。最近对 LXR 生物学在大脑中的发现表明,它在神经元发育中具有非常重要的作用,一项正在测试 LXR 激动剂的临床试验报告了不良的神经副作用。这表明药物开发必须专注于限制 LXR 信号的范围 - 可能通过 LXR 的亚型、组织特异性、启动子特异性或途径特异性激活来实现,在这种情况下,候选药物必须经过仔细研究,以了解其对中枢神经系统的影响。
