发现作为艾滋病潜伏期逆转剂的强效 DAG 内酯衍生物。

IF 4 2区医学 Q2 CHEMISTRY, MEDICINAL ACS Infectious Diseases Pub Date : 2024-05-21 DOI:10.1021/acsinfecdis.4c00194

Takahiro Ishii, Takuya Kobayakawa, Kouki Matsuda, Kiyomi Nigorikawa, Peter Bolah, Airi Noborio, Kohei Tsuji, Nami Ohashi, Kazuhisa Yoshimura, Wataru Nomura, Hiroaki Mitsuya, Kenji Maeda and Hirokazu Tamamura*,

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引用次数: 0

摘要

为了治愈人类免疫缺陷病毒 1 型（HIV-1），必须从 HIV-1 感染者体内清除潜伏感染 HIV-1 的细胞。此前，我们以 YSE028 (2) 为先导化合物，开发出了一种具有高 HIV-1 潜伏期逆转活性的蛋白激酶 C (PKC) 激活剂--二酰甘油 (DAG) 内酯衍生物 3，并发现该活性与 PKC 的结合亲和力和酯酶介导的水解稳定性相关。在此，我们合成了新的 DAG 内酯衍生物，这些衍生物不仅含有叔酯基团或异噁唑代用品，还含有多个对称的亚烷基，从而提高了逆转 HIV-1 潜伏期的活性。化合物 9a 的酯基α-位上含有二甲基，其逆转 HIV-1 潜伏期的活性比化合物 3 高出一倍，而含有异噁唑分子的化合物 26 则具有显著的活性。此外，疏水性适中、生物稳定性强的 DAG 内酯衍生物也显示出较高的生物活性。

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Discovery of Potent DAG-Lactone Derivatives as HIV Latency Reversing Agents

Toward human immunodeficiency virus type-1 (HIV-1) cure, cells latently infected with HIV-1 must be eliminated from people living with HIV-1. We previously developed a protein kinase C (PKC) activator, diacylglycerol (DAG)-lactone derivative 3, with high HIV-1 latency-reversing activity, based on YSE028 (2) as a lead compound and found that the activity was correlated with binding affinity for PKC and stability against esterase-mediated hydrolysis. Here, we synthesized new DAG-lactone derivatives not only containing a tertiary ester group or an isoxazole surrogate but also several symmetric alkylidene moieties to improve HIV-1 latency reversing activity. Compound 9a, with a dimethyl group at the α-position of the ester group, exerted twice higher HIV-1 latency reversing activity than compound 3, and compound 26, with the isoxazole moiety, was significantly active. In addition, DAG-lactone derivatives with moderate hydrophobicity and potent biostability showed high biological activity.

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来源期刊

ACS Infectious Diseases CHEMISTRY, MEDICINALINFECTIOUS DISEASES&nb-INFECTIOUS DISEASES

CiteScore

9.70

自引率

3.80%

发文量

213

期刊介绍： ACS Infectious Diseases will be the first journal to highlight chemistry and its role in this multidisciplinary and collaborative research area. The journal will cover a diverse array of topics including, but not limited to: * Discovery and development of new antimicrobial agents — identified through target- or phenotypic-based approaches as well as compounds that induce synergy with antimicrobials. * Characterization and validation of drug target or pathways — use of single target and genome-wide knockdown and knockouts, biochemical studies, structural biology, new technologies to facilitate characterization and prioritization of potential drug targets. * Mechanism of drug resistance — fundamental research that advances our understanding of resistance; strategies to prevent resistance. * Mechanisms of action — use of genetic, metabolomic, and activity- and affinity-based protein profiling to elucidate the mechanism of action of clinical and experimental antimicrobial agents. * Host-pathogen interactions — tools for studying host-pathogen interactions, cellular biochemistry of hosts and pathogens, and molecular interactions of pathogens with host microbiota. * Small molecule vaccine adjuvants for infectious disease. * Viral and bacterial biochemistry and molecular biology.