Design and Synthesis of Brain Penetrant Glycopeptide Analogues of PACAP With Neuroprotective Potential for Traumatic Brain Injury and Parkinsonism

Christopher R. Apostol, K. Bernard, Parthasaradhireddy Tanguturi, G. Molnar, M. J. Bartlett, L. Szábo, Chenxi Liu, J. B. Ortiz, Maha Saber, K. Giordano, T. Green, James Melvin, Helena W. Morrison, L. Madhavan, R. Rowe, J. Streicher, M. Heien, T. Falk, R. Polt
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引用次数: 6

Abstract

There is an unmet clinical need for curative therapies to treat neurodegenerative disorders. Most mainstay treatments currently on the market only alleviate specific symptoms and do not reverse disease progression. The Pituitary adenylate cyclase-activating polypeptide (PACAP), an endogenous neuropeptide hormone, has been extensively studied as a potential regenerative therapeutic. PACAP is widely distributed in the central nervous system (CNS) and exerts its neuroprotective and neurotrophic effects via the related Class B GPCRs PAC1, VPAC1, and VPAC2, at which the hormone shows roughly equal activity. Vasoactive intestinal peptide (VIP) also activates these receptors, and this close analogue of PACAP has also shown to promote neuronal survival in various animal models of acute and progressive neurodegenerative diseases. However, PACAP’s poor pharmacokinetic profile (non-linear PK/PD), and more importantly its limited blood-brain barrier (BBB) permeability has hampered development of this peptide as a therapeutic. We have demonstrated that glycosylation of PACAP and related peptides promotes penetration of the BBB and improves PK properties while retaining efficacy and potency in the low nanomolar range at its target receptors. Furthermore, judicious structure-activity relationship (SAR) studies revealed key motifs that can be modulated to afford compounds with diverse selectivity profiles. Most importantly, we have demonstrated that select PACAP glycopeptide analogues (2LS80Mel and 2LS98Lac) exert potent neuroprotective effects and anti-inflammatory activity in animal models of traumatic brain injury and in a mild-toxin lesion model of Parkinson’s disease, highlighting glycosylation as a viable strategy for converting endogenous peptides into robust and efficacious drug candidates.
具有创伤性脑损伤和帕金森病神经保护作用的PACAP脑渗透糖肽类似物的设计与合成
对治疗神经退行性疾病的治疗疗法的临床需求尚未得到满足。目前市场上的大多数主要治疗方法只能缓解特定症状,不能逆转疾病进展。垂体腺苷酸环化酶激活多肽(PACAP)是一种内源性神经肽激素,作为一种潜在的再生治疗药物,已被广泛研究。PACAP广泛分布在中枢神经系统(CNS)中,并通过相关的B类GPCR PAC1、VPAC1和VPAC2发挥其神经保护和神经营养作用,在这些作用下,激素表现出大致相同的活性。血管活性肠肽(VIP)也激活这些受体,这种PACAP的紧密类似物也显示出在急性和进行性神经退行性疾病的各种动物模型中促进神经元存活。然而,PACAP较差的药代动力学特征(非线性PK/PD),更重要的是其有限的血脑屏障(BBB)通透性阻碍了该肽作为治疗药物的开发。我们已经证明,PACAP和相关肽的糖基化促进血脑屏障的渗透并改善PK特性,同时在其靶受体处保持低纳摩尔范围内的效力和效力。此外,明智的结构-活性关系(SAR)研究揭示了可以调节的关键基序,以提供具有不同选择性的化合物。最重要的是,我们已经证明,选择的PACAP糖肽类似物(2LS80Mel和2LS98Lac)在创伤性脑损伤的动物模型和帕金森病的轻度毒素损伤模型中发挥强大的神经保护作用和抗炎活性,强调糖基化是将内源性肽转化为强健有效的候选药物的可行策略。
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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