A Novel Broad-Spectrum Antiviral Against Influenza A Viruses, NV-387, Could Be an Important Weapon to Fight Bird Flu H5N1, Says NanoViricides
A Novel Broad-Spectrum Antiviral Against Influenza A Viruses, NV-387, Could Be an Important Weapon to Fight Bird Flu H5N1, Says NanoViricides
SHELTON, CT / ACCESSWIRE / June 24, 2024 / NanoViricides, Inc. (NYSE Amer.:NNVC) (the "Company"), a clinical stage global leader in broad-spectrum antiviral nanomedicines, comments that the ultra-broad-spectrum antiviral NV-387 could be an important weapon against bird flu H5N1 viruses.
2024年6月24日康州谢尔顿市/ACCESSWIRE/——NanoViricides公司(纽交所美股代号:NNVC)是一家处于临床试验阶段的全球领先的广谱抗病毒纳米药品公司。该公司表示,超广谱抗病毒NV-387可能成为抗禽流感H5N1病毒的重要武器。NanoViricides最近发现,临床药物候选NV-387是灵敏度极高的抗流感药物,比已批准的抗流感药奥司他韦(达菲净、罗氏公司)、多种评估药(Rapivab, Biocryst)和Xofluza(Shionogi, 罗氏公司)在致命动物模型的H3N2流感病毒肺部感染研究中更为优越。此外,在该研究中,NV-387还被发现可以保护被感染动物的肺部免受病毒和免疫系统的损伤,支持其强效抗病毒作用。这些结果的出现正好是在禽流感H5N1的潜在威胁因其传播到多个哺乳动物物种而显著增加之际。尽管乳制品牛的感染相对较轻,但农场上的其他哺乳动物,特别是猫,死于该病毒的脑部感染。目前只发生了四起人的感染病例,其中一人在墨西哥死亡,而另外三起病例(全部发生在美国)都已痊愈。
NanoViricides has recently found that its host-mimetic clinical drug candidate NV-387 was substantially superior to the three approved drugs against influenza, namely Oseltamivir (Tamiflu, Roche), Peramivir (Rapivab, Biocryst), and Baloxavir (Xofluza, Shionogi, Roche) in a lethal animal model study of Influenza A/H3N2 virus lung infection.
NV-387有望成为一种强有力的药物候选,即使发生重大突变,它仍然能有效地对抗高致死性禽流感H5N1。这是因为有两个主要原因:
Further, in this study, NV-387 was also found to protect the lungs of the infected animals from viral damage as well as immune system damage, supporting a strong antiviral effect.
1)H5病毒中的多碱性位点(MBS)。所有高致病性禽流感都有一个带有高度阳性电荷的MBS。MBS能够与磺酸化蛋白聚糖(“S-PG”)强烈相互作用。由于NV-387是S-PG的宿主类似物,因此预计NV-387对携带MBS的高致病性禽流感H5N1具有强大的抗病毒作用。
These results have arrived just as the bird flu H5N1 threat potential has increased significantly due to its spread into several mammalian species. While dairy cattle have suffered relatively mild infections, some other mammals, particularly cats on farms have died of brain infection with this virus. Only four human cases have occurred so far with one person dying in Mexico, while the three other cases all in the USA have recovered.
2)NV-387的广谱活性。NV-387对很多极不相同的病毒都有活性,包括甲型流感病毒、RSV、COVID、季节性冠状病毒甚至痘病毒。这是因为其宿主类似物特性,其复制了所有这些病毒共有的恒定连接位点:S-PG。高致病性禽流感H5N1病毒也使用S-PG作为侵入细胞的途径,可能比H3N2更为明显,因为H5N1在MBS中。因此,尽管治疗其他药物产生耐药性,NV-387可能仍然继续对抗高致病性禽流感H5N1的感染。
NV-387 is anticipated to be a strong drug candidate that would remain effective against HPAI H5N1 even as significant mutations occur. This is because of two main reasons:
相比之下,只需几个单点突变即可使高致病性禽流感H5N1病毒抵抗现有药物。根据新闻联播报道CDC前主任Redfield博士的发言,只需在这种病毒的HA(血凝素)蛋白质中出现五个突变,该病毒就能够获得有效感染人类的能力,这可能会导致比COVID更高的致死率的大流行。禽流感病毒使用a-2,3-唾液酸受体,而人类流感病毒使用a-2,6-唾液酸受体进入细胞。病毒通常在侵入细胞之前集中于肝素硫酸盐或磺酸化蛋白聚糖(S-PG)。
The Multi-Basic Site (MBS) in the H5. All HPAI possess a MBS in the H5 which is highly positively charged. The MBS enables strong interaction with sulfated proteoglycans ("S-PG"). Since NV-387 is a host-mimetic of S-PG, it is expected that NV-387 would have a strong effect against the MBS-carrying HPAI H5N1.
NanoViricides公司是一家开发阶段的公司,正在为抗病毒疗法创建特殊材料。我们的新型纳米杀病毒类药物候选药NV-CoV-2是用于治疗甲型流感病毒、COVID-19、长期COVID和其他呼吸道病毒感染的。我们的另一个先进的候选药物是NV-HHV-1,用于带状疱疹的治疗(先前称为NV-HHV-101)。由于依赖于许多外部合作者和顾问,公司无法预测任何药物的IND申请准确日期。公司目前专注于将NV-CoV-2推进至阶段I/II人体临床试验。
The broad-spectrum activity of NV-387. NV-387 is active against many very different viruses including Influenza A, RSV, COVID, Seasonal Coronaviruses, and even Poxviruses. This is because of its host-mimetic feature that copies the invariant attachment site common to all of these viruses, the S-PG. The HPAI H5N1 also uses S-PG for attachment, possibly more profoundly than H3N2, because of the MBS in HPAI. Thus NV-387 is likely to continue to work against the HPAI H5N1 despite mutations that cause resistance to other drugs.
NV-CoV-2是我们针对COVID-19的纳米杀病毒候选药物,不包含瑞德西韦。NV-CoV-2-R是我们的另一种针对COVID-19的纳米杀病毒候选药物,由包装了瑞德西韦的NV-CoV-2组成的聚合物微粒。公司认为,由于瑞德西韦已经获得美国FDA的批准,我们的纳米药物候选NV-CoV-2-R如果安全性相当的话,可能成为一个可批准的药物。瑞德西韦是吉利德公司研发的。公司独立开发了NV-CoV-2和NV-CoV-2-R两种药物候选品。
In contrast, very few single-point mutations could make the HPAI H5N1 virus resistant to the existing drugs.
弗吉尼亚州麦克林(Richmond) - 麦克林大学医院(VCU Health)正在进行一项研究,调查采用那种抗HIV药物奥司他韦作为瑞德西韦的替代品是否是一种可行的方法。
Only as few as five mutations in the HA (hemagglutinin) protein of this virus could enable it to gain the ability to efficiently infect humans, and this could lead to a pandemic with much greater fatality rates than with COVID, according to Dr. Redfield, ex-Director of CDC as reported in a NewsNation interview (). Bird Influenza viruses use a-2,3-sialic acid receptors whereas human influenza viruses use a-2,6-sialic acid receptors to gain entry into cells. Viruses typically concentrate at heparan sulfate or sulfated proteoglycans (S-PG) prior to gaining cell entry.
无禽流感病毒使用a-2,3-唾液酸受体,而人类流感病毒使用a-2,6-唾液酸受体进入细胞。病毒通常在侵入细胞之前集中于肝素硫酸盐或磺酸化蛋白聚糖(S-PG)。
Influenza viruses have a high rate of mutations, and further they can mix-and-match the eight segments of genome from other influenza viruses, called re-assortment, or pick portions of these segments, called recombination.
流感病毒具有高突变率,并且它们可以混搭来自其他流感病毒的基因组的八个片段,称为重新排列,或者挑选这些片段的部分进行基因重组。
A safe and effective antiviral drug that the virus would not escape by simple mutations or field evolution is the holy grail of antiviral drug development. We believe that the NanoViricides Platform technology meets this challenge.
一种安全有效的抗病毒药物,病毒不会通过简单的突变或现场演化逃逸,是抗病毒药物开发的圣杯。我们认为NanoViricides Platform技术满足这一挑战。
About NanoViricides
关于NanoViricides
NanoViricides, Inc. (the "Company") () is a development stage company that is creating special purpose nanomaterials for antiviral therapy. The Company's novel nanoviricide class of drug candidates are designed to specifically attack enveloped virus particles and to dismantle them. Our lead drug candidate is NV-CoV-2 for the treatment of RSV, COVID-19, Long COVID, and other respiratory viral infections. Our other advanced candidate is NV-HHV-1 for the treatment of Shingles (previously referred to as NV-HHV-101). The Company cannot project an exact date for filing an IND for any of its drugs because of dependence on a number of external collaborators and consultants. The Company is currently focused on advancing NV-CoV-2 into Phase I/II human clinical trials.
NanoViricides, Inc.(本公司)()是一家开发阶段的公司,正在为抗病毒疗法创建特殊材料。公司的新型纳米杀病毒类药物候选药NV-CoV-2专门攻击衣壳病毒颗粒并拆解病毒颗粒。我们的先导药物候选药是NV-CoV-2,用于治疗RSV、COVID-19、长期COVID和其他呼吸道病毒感染。我们的其他先进药物是NV-HHV-1,用于治疗带状疱疹(先前称为NV-HHV-101)。公司无法预测任何药物的IND申请准确日期,因为它依赖于许多外部合作者和顾问。公司目前专注于将NV-CoV-2推进至阶段I/II人体临床试验中。
NV-CoV-2 is our nanoviricide drug candidate for COVID-19 that does not encapsulate remdesivir. NV-CoV-2-R is our other drug candidate for COVID-19 that is made up of NV-CoV-2 with remdesivir encapsulated within its polymeric micelles. The Company believes that since remdesivir is already US FDA approved, our drug candidate encapsulating remdesivir is likely to be an approvable drug, if safety is comparable. Remdesivir is developed by Gilead. The Company has developed both of its own drug candidates NV-CoV-2 and NV-CoV-2-R independently.
NV-CoV-2是我们针对COVID-19的纳米杀病毒候选药物,不包含瑞德西韦。NV-CoV-2-R是我们的另一种针对COVID-19的纳米杀病毒候选药物,由包装了瑞德西韦的NV-CoV-2组成的聚合物微粒。公司认为,由于瑞德西韦已经获得美国FDA的批准,如果我们的纳米药物候选NV-CoV-2-R安全性相当,那么它很可能成为可批准的药物。瑞德西韦是吉利德公司研发的。公司独立开发了NV-CoV-2和NV-CoV-2-R两种药物候选品。
The Company is also developing drugs against a number of viral diseases including oral and genital Herpes, viral diseases of the eye including EKC and herpes keratitis, H1N1 swine flu, H5N1 bird flu, seasonal Influenza, HIV, Hepatitis C, Rabies, Dengue fever, and Ebola virus, among others. NanoViricides' platform technology and programs are based on the TheraCour nanomedicine technology of TheraCour, which TheraCour licenses from AllExcel. NanoViricides holds a worldwide exclusive perpetual license to this technology for several drugs with specific targeting mechanisms in perpetuity for the treatment of the following human viral diseases: Human Immunodeficiency Virus (HIV/AIDS), Hepatitis B Virus (HBV), Hepatitis C Virus (HCV), Rabies, Herpes Simplex Virus (HSV-1 and HSV-2), Varicella-Zoster Virus (VZV), Influenza and Asian Bird Flu Virus, Dengue viruses, Japanese Encephalitis virus, West Nile Virus, Ebola/Marburg viruses, and certain Coronaviruses. The Company intends to obtain a license for poxviruses and/or enteroviruses if the initial research is successful. The Company's technology is based on broad, exclusive, sub-licensable, field licenses to drugs developed in these areas from TheraCour Pharma, Inc. The Company's business model is based on licensing technology from TheraCour Pharma Inc. for specific application verticals of specific viruses, as established at its foundation in 2005.
公司还正在开发针对许多病毒疾病的药物,包括口服和生殖器疱疹,包括EKC和角膜炎的眼部病毒疾病,H1N1猪流感,H5N1禽流感,季节性流感,HIV,肝炎C型,狂犬病,登革热和埃博拉病毒等。NanoViricides的平台技术和计划基于TheraCour公司的TheraCour纳米医学技术,该公司从AllExcel处获得了该技术的许可。NanoViricides持有此技术的全球独家永久许可证,用于治疗以下人类病毒性疾病的几种特定靶向机制的药物:人类免疫缺陷病毒(HIV / AIDS),乙型肝炎病毒(HBV) ,丙型肝炎病毒(HCV),狂犬病,单纯疱疹病毒(HSV-1和HSV-2),带状疱疹- 病毒性水痘- 病毒(VZV),流感和亚洲禽流感病毒,登革病毒,日本脑炎病毒,西尼罗河病毒,埃博拉/马尔堡病毒和某些冠状病毒。如果初步研究成功,公司打算为痘病毒和/或肠道病毒获得许可证。公司的技术基于TheraCour Pharma,Inc.的广泛,专有的可分许可,并从中获得了这些领域的药物许可证。公司的商业模式是基于从TheraCour Pharma Inc.获得特定病毒的特定应用垂直领域的技术。
As is customary, the Company must state the risk factor that the path to typical drug development of any pharmaceutical product is extremely lengthy and requires substantial capital. As with any drug development efforts by any company, there can be no assurance at this time that any of the Company's pharmaceutical candidates would show sufficient effectiveness and safety for human clinical development. Further, there can be no assurance at this time that successful results against coronavirus in our lab will lead to successful clinical trials or a successful pharmaceutical product.
如同常规操作,公司必须声明任何医药产品的典型药物开发路径的风险因素是极其漫长且需要大量资金。与任何公司的任何药物开发努力一样,目前无法保证公司的任何药物候选者在人类临床开发中显示出足够的功效和安全性。此外,目前无法保证我们实验室对冠状病毒的成功结果将导致成功的临床试验或成功的制药产品。
This press release contains forward-looking statements that reflect the Company's current expectation regarding future events. Actual events could differ materially and substantially from those projected herein and depend on a number of factors. Certain statements in this release, and other written or oral statements made by NanoViricides, Inc. are "forward-looking statements" within the meaning of Section 27A of the Securities Act of 1933 and Section 21E of the Securities Exchange Act of 1934. You should not place undue reliance on forward-looking statements since they involve known and unknown risks, uncertainties and other factors which are, in some cases, beyond the Company's control and which could, and likely will, materially affect actual results, levels of activity, performance or achievements. The Company assumes no obligation to publicly update or revise these forward-looking statements for any reason, or to update the reasons actual results could differ materially from those anticipated in these forward-looking statements, even if new information becomes available in the future. Important factors that could cause actual results to differ materially from the company's expectations include, but are not limited to, those factors that are disclosed under the heading "Risk Factors" and elsewhere in documents filed by the company from time to time with the United States Securities and Exchange Commission and other regulatory authorities. Although it is not possible to predict or identify all such factors, they may include the following: demonstration and proof of principle in preclinical trials that a nanoviricide is safe and effective; successful development of our product candidates; our ability to seek and obtain regulatory approvals, including with respect to the indications we are seeking; the successful commercialization of our product candidates; and market acceptance of our products.
本新闻稿包含反映公司目前关于未来事件的期望的前瞻性语句。实际事件可能会大大不同于本文所述,并取决于许多因素。NanoViricides,Inc.的某些声明,以及其他书面或口头声明都是“前瞻性语句”,其含义在1933年证券法第27A节和1934年证券交易法第21E节中。由于它们涉及已知和未知的风险,不确定性和其他因素,因此您不应过分依赖前瞻性语句,并且这些因素在某些情况下超出了公司的控制并且可能会很可能,实质性地影响实际结果,活动水平,性能或成就。公司不承担公开更新或修正这些前瞻性语句的义务,出于任何原因,或更新原因实际结果可能与这些前瞻性语句中所预期的结果不同,即使将来出现新信息。导致实际结果与公司预期有所不同的重要因素包括但不限于那些文件中披露的“风险因素”和其他监管机构的公司从时间到时间提交的其他文件中披露的那些因素。虽然不可能预测或识别所有这些因素,但它们可能包括以下因素:在临床前试验中演示和原则证明纳米病毒灭活剂是安全和有效的;成功开发我们的产品候选品;我们能否寻求并获得监管批准,包括我们正在寻求的适应症;我们产品候选品的成功商业化;以及我们的产品市场接受度。
The phrases "safety", "effectiveness" and equivalent phrases as used in this press release refer to research findings including clinical trials as the customary research usage and do not indicate evaluation of safety or effectiveness by the US FDA.
本新闻稿中使用的“安全性”,“有效性”及其等效短语指研究发现,包括临床试验,作为惯常的研究用途,其不表示由美国FDA评估的安全性或有效性。
FDA refers to US Food and Drug Administration. IND application refers to "Investigational New Drug" application. cGMP refers to current Good Manufacturing Practices. CMC refers to "Chemistry, Manufacture, and Controls". CHMP refers to the Committee for Medicinal Products for Human Use, which is the European Medicines Agency's (EMA) committee responsible for human medicines. API stands for "Active Pharmaceutical Ingredient".
FDA指美国食品和药物管理局。IND申请指“研究新药物”申请。cGMP指当今的良好制造规范。CMC指“化学,制造和控制”。CHMP是负责人类药物的欧洲药品管理局(EMA)委员会。API代表“活性药物成分”。
Contact:
NanoViricides, Inc.
info@nanoviricides.com
联系方式:
NanoViricides,Inc.
info@nanoviricides.com
Public Relations Contact:
MJ Clyburn
TraDigital IR
clyburn@tradigitalir.com
公共关系联系方式:
MJ Clyburn
TraDigital IR
clyburn@tradigitalir.com
SOURCE: NanoViricides, Inc.
消息来源:NanoViricides,Inc。