Walker Dale M, Kajon Adriana E, Torres Salina M, Carter Meghan M, McCash Consuelo L, Swenberg James A, Upton Patricia B, Hardy Andrew W, Olivero Ofelia A, Shearer Gene M, Poirier Miriam C, Walker Vernon E
BioMosaics, Inc., Burlington, VT 05405, USA.
Environ Mol Mutagen. 2009 Jul;50(6):460-72. doi: 10.1002/em.20482.
The success of nucleoside reverse transcriptase inhibitors (NRTIs) in treating HIV-1 infection and reducing mother-to-child transmission of the virus during pregnancy is accompanied by evidence that NRTIs cause long-term health risks for cancer and mitochondrial disease. Thus, agents that mitigate toxicities of the current combination drug therapies are needed. Previous work had shown that the NRTI-drug pair zidovudine (AZT)-didanosine (ddI) was highly cytotoxic and mutagenic; thus, we conducted preliminary studies to investigate the ability of the active moiety of amifostine, WR1065, to protect against the deleterious effects of this NRTI-drug pair. In TK6 cells exposed to 100 muM AZT-ddI (equimolar) for 3 days with or without 150 muM WR1065, WR1065 enhanced long-term cell survival and significantly reduced AZT-ddI-induced mutations. Follow-up studies were conducted to determine if coexposure to AZT and WR1065 abrogated the antiretroviral efficacy of AZT. In human T-cell blasts infected with HIV-1 in culture, inhibition of p24 protein production was observed in cells treated with 10 muM AZT in the absence or presence of 5-1,000 muM WR1065. Surprisingly, WR1065 alone exhibited dose-related inhibition of HIV-1 p24 protein production. WR1065 also had antiviral efficacy against three species of adenovirus and influenza A and B. Intracellular levels of unbound WR1065 were measured following in vitro/in vivo drug exposure. These pilot study results indicate that WR1065, at low intracellular levels, has cytoprotective and antimutagenic activities against the most mutagenic pair of NRTIs and has broad spectrum antiviral effects. These findings suggest that the activities have a possible common mode of action that merits further investigation.
核苷类逆转录酶抑制剂(NRTIs)在治疗HIV-1感染以及降低孕期病毒母婴传播方面取得了成功,但同时有证据表明,NRTIs会引发癌症和线粒体疾病等长期健康风险。因此,需要能够减轻当前联合药物疗法毒性的药物。此前的研究表明,NRTI药物组合齐多夫定(AZT)-去羟肌苷(ddI)具有高度细胞毒性和致突变性;因此,我们开展了初步研究,以探究氨磷汀的活性部分WR1065预防该NRTI药物组合有害影响的能力。在TK6细胞中,无论有无150μM WR1065,将其暴露于100μM AZT-ddI(等摩尔)3天,WR1065可提高细胞长期存活率,并显著减少AZT-ddI诱导的突变。开展后续研究以确定AZT与WR1065共同暴露是否会消除AZT的抗逆转录病毒疗效。在体外培养感染HIV-1的人T细胞母细胞中,无论有无5-1,000μM WR1065,用10μM AZT处理的细胞中均观察到了 p24蛋白产生受到抑制。令人惊讶的是,单独使用WR1065也表现出与剂量相关的HIV-1 p24蛋白产生抑制作用。WR1065对三种腺病毒以及甲型和乙型流感病毒也具有抗病毒疗效。在体外/体内药物暴露后测量了未结合WR1065的细胞内水平。这些初步研究结果表明,低细胞内水平的WR1065对最具致突变性的NRTI药物组合具有细胞保护和抗诱变活性,并具有广谱抗病毒作用。这些发现表明,这些活性可能具有共同的作用模式,值得进一步研究。