Bakacs Tibor, Sandig Volker, Slavin Shimon, Gumrukcu Serhat, Hardy David, Renz Wolfgang, Kovesdi Imre
HepC, Inc, 1012 Budapest, Miko str. 3. II. fl. 11., Hungary.
ProBioGen AG, Standort HBS Herbert-Bayer-Straße 8, 13086 Berlin, Germany.
Infect Disord Drug Targets. 2022;22(7):1-6. doi: 10.2174/1871526522666220419130403.
More than 200 viruses infect humans, but treatments are available for less than ten of them. To narrow the gap between 'bugs and drugs,' a paradigm shift is required. The "one drug, one bug" approach can be expanded to a "one drug, multiple bugs" strategy such that the host's defense system is targeted rather than the virus. Viral superinfection therapy (SIT) activates interferon genes' natural, antiviral defense system of host cells following exposure to viral infection, e.g., superinfection with an attenuated infectious bursal disease virus (IBDV) with the release of its double-stranded RNA (dsRNA) cargo inside host cells. An attenuated IBDV therapeutic vaccine has successfully treated hepatitis A virus infection (HAV) in marmoset monkeys as well as acute hepatitis B and hepatitis C virus infections (HBV/HCV) in 42 patients. SIT has also been shown to be safe and effective in four patients with chronic HBV or HCV infection with hepatic decompensation. The proof-of-principle of SIT has also been demonstrated in a 43-year-old male patient with COVID-19. Three doses of orally administered IBDV (3x10 IU) alleviated most of his COVID-19 symptoms; even his sense of smell returned within a week. Two additional COVID-19 patients responded similarly to oral treatment with IBDV. Furthermore, a severe herpes zoster ophthalmicus outbreak with orbital edema responded to a combination of acyclovir and 7 doses of IBDV (7x10 IU) within a few days. IBDV is simple to manufacture and affordable, even in resource-limited settings. Acid-resistant IBDV can be orally administered in an outpatient setting, providing simple dosing and high medication adherence. Under an Emergency Use Authorization, the broad-spectrum IBDV drug candidate could be tested immediately in clinical trials and rapidly distributed to millions of early-stage patients with COVID-19. The German Paul Ehrlich Institute is currently supporting a phase I safety study for persons acutely infected with SARS‑CoV-2. An expert team of the US National Institutes of Health-sponsored ACTIV public-private partnership came to the conclusion that the IBDV drug candidate shows merit as a potential treatment for COVID19, and an FDA-approved clinical trial is in the pipelines in Los Angeles.
200多种病毒可感染人类,但针对其中不到10种病毒有可用的治疗方法。为了缩小“病原体与药物”之间的差距,需要一种范式转变。“一种药物,一种病原体”的方法可以扩展为“一种药物,多种病原体”策略,即针对宿主的防御系统而非病毒。病毒重叠感染疗法(SIT)在宿主细胞暴露于病毒感染后,例如在感染减毒传染性法氏囊病病毒(IBDV)并在宿主细胞内释放其双链RNA(dsRNA)货物后,激活干扰素基因的宿主细胞天然抗病毒防御系统。一种减毒IBDV治疗性疫苗已成功治疗了狨猴中的甲型肝炎病毒感染(HAV)以及42例患者中的急性乙型和丙型肝炎病毒感染(HBV/HCV)。SIT在4例患有慢性HBV或HCV感染并伴有肝失代偿的患者中也已显示出安全有效。SIT的原理验证也已在一名43岁的COVID-19男性患者中得到证实。三剂口服IBDV(3×10 IU)减轻了他的大部分COVID-19症状;甚至他的嗅觉在一周内就恢复了。另外两名COVID-19患者对IBDV口服治疗的反应类似。此外,一例伴有眼眶水肿的严重眼部带状疱疹暴发在几天内对阿昔洛韦和7剂IBDV(7×10 IU)的联合治疗有反应。IBDV易于生产且价格低廉,即使在资源有限的环境中也是如此。耐酸IBDV可以在门诊环境中口服给药,给药简单且药物依从性高。根据紧急使用授权,这种广谱IBDV候选药物可以立即在临床试验中进行测试,并迅速分发给数百万早期COVID-19患者。德国保罗·埃利希研究所目前正在支持一项针对急性感染SARS-CoV-2的人员的I期安全性研究。美国国立卫生研究院赞助的ACTIV公私合作的一个专家小组得出结论,IBDV候选药物作为COVID-19的潜在治疗方法具有优势,并且一项由美国食品药品监督管理局批准的临床试验正在洛杉矶筹备中。
