工程化缺失的 HIV 能在条件下复制,从而减少非人类灵长类动物的疾病。
Engineered deletions of HIV replicate conditionally to reduce disease in nonhuman primates.
机构信息
Gladstone Center for Cell Circuitry, University of California, San Francisco, CA, USA.
Gladstone Institute of Virology, University of California, San Francisco, CA, USA.
出版信息
Science. 2024 Aug 9;385(6709):eadn5866. doi: 10.1126/science.adn5866.
Abstract
Antiviral therapies with reduced frequencies of administration and high barriers to resistance remain a major goal. For HIV, theories have proposed that viral-deletion variants, which conditionally replicate with a basic reproductive ratio [R] > 1 (termed "therapeutic interfering particles" or "TIPs"), could parasitize wild-type virus to constitute single-administration, escape-resistant antiviral therapies. We report the engineering of a TIP that, in rhesus macaques, reduces viremia of a highly pathogenic model of HIV by >3log following a single intravenous injection. Animal lifespan was significantly extended, TIPs conditionally replicated and were continually detected for >6 months, and sequencing data showed no evidence of viral escape. A single TIP injection also suppressed virus replication in humanized mice and cells from persons living with HIV. These data provide proof of concept for a potential new class of single-administration antiviral therapies.
摘要
减少给药频率且耐药性高的抗病毒疗法仍然是主要目标。对于 HIV,有理论提出,具有基本繁殖数 [R] > 1 的条件复制的病毒缺失变体(称为“治疗性干扰颗粒”或“TIP”)可以寄生野生型病毒,从而构成单次给药、抗逃逸抗病毒疗法。我们报告了一种 TIP 的工程设计,在恒河猴中,单次静脉注射后,该 TIP 可将高致病性 HIV 模型的病毒血症降低 >3log。动物寿命显著延长,TIP 条件性复制并持续检测 >6 个月,测序数据显示没有病毒逃逸的证据。单次 TIP 注射还抑制了人源化小鼠和 HIV 感染者细胞中的病毒复制。这些数据为潜在的新型单次给药抗病毒疗法提供了概念验证。
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