Invivyd Shares New Data on Pemivibart's Neutralization of COVID Variants, Details Virus Evolution
Invivyd Shares New Data on Pemivibart's Neutralization of COVID Variants, Details Virus Evolution
Invivyd, Inc. (NASDAQ:IVVD), a biopharmaceutical company devoted to delivering protection from serious viral infectious diseases, today provided detailed virology data supporting previously communicated neutralization activity results, along with a genetic and structural analysis of past and present SARS-CoV-2 variant spike proteins, including the established molecular target of pemivibart.
Invivyd,Inc.(納斯達克:IVVD),一家專注於提供對嚴重病毒傳染病的防護的生物製藥公司,今日提供了詳細的病毒學數據,支持先前公佈的中和活性結果,以及對過去和現在的SARS-CoV-2變異尖刺蛋白的遺傳和結構分析,包括pemivibart的已建立的分子靶點。
As part of Invivyd's ongoing monitoring of antiviral activity, Invivyd contracts with LabCorp's Monogram Biosciences lab to provide independent, robust virology assessments in a consistent lineal chain that allows for consideration of potential changing pemivibart potency as SARS-CoV-2 evolves. Pemivibart potency against contemporary viruses KP.3.1.1 and LB.1 remains in-line with the totality of predominant variants dating back to 2022, including isolates identified during the conduct of the CANOPY Phase 3 clinical trial from late 2023 to early 2024. Data Table 1, below, provides relevant comparative values drawn from the PEMGARDA Healthcare Providers Fact Sheet.
作爲Invivyd對抗病毒活動的持續監測的一部分,Invivyd與LabCorp的Monogram Biosciences實驗室簽訂合同,提供獨立、強有力的病毒學評估,形成一致的線性鏈,以考慮SARS-CoV-2不斷演變可能改變pemivibart效力。針對當代病毒KP.3.1.1和Lb.1,pemivibart的效力與追溯至2022年以來的主要變異體整體保持一致,包括在2023年底至2024年初進行的CANOPY第3期臨床試驗期間確定的分離株。下面的表格1提供了從PEMGARDA醫療保健提供者資料表中提取的相關比較數值。
"Quantitative neutralization assays exhibit marked intrinsic variability. Since discovery, pemivibart has exhibited impressively stable neutralization results across a wide range of SARS-CoV-2 variants, including and through contemporary variants tested," said Robert Allen, Ph.D., Chief Scientific Officer of Invivyd. "The values we observe thus far generally fall within the expected variability of the assay systems we employ."
「定量中和測定展示出明顯的內在變異性。自發現以來,pemivibart表現出了在廣泛範圍的SARS-CoV-2變異體中顯著穩定的中和結果,包括和通過測試的當代變異體,」Invivyd的首席科學官Robert Allen博士說道。「到目前爲止,我們觀察到的數值普遍在我們使用的測定系統的預期變異性範圍內。」
Invivyd also provided an update to ongoing structural analysis showing no meaningful mutational change in the pemivibart binding site since the Omicron shift late in 2021. These data are presented in Figure 1 below. The pemivibart binding site is defined as a region of amino acid residues on the spike protein within 5 angstroms (5 Å) of the interaction between pemivibart and spike protein in a crystal structure and consists of 19 key amino acids. Invivyd's ongoing genetic and structural analyses of these residues provide the underlying biological rationale for the company's ongoing expectation for neutralization activity of pemivibart in the face of constant and convergent mutation in the SARS-CoV-2 spike protein. Analysis to date of all 19 amino acids presented below shows de minimis mutational change with ongoing stability to the binding site since the Omicron shift.
Invivyd還提供了繼續進行中的結構分析的更新,顯示自2021年底奧密克戎變種以來,pemivibart結合位點沒有實質性的突變變化。這些數據在下面的圖1中呈現。pemivibart結合位點被定義爲尖刺蛋白上一個區域,其中包括與晶體結構中pemivibart和尖刺蛋白交互作用的5埃(5 Å)以內的氨基酸殘基,由19個關鍵氨基酸組成。Invivyd對這些殘基的持續的遺傳和結構分析提供了公司對pemivibart在面對SARS-CoV-2尖刺蛋白的持續和趨同突變的中和活性的預期的基礎生物學理由。迄今對所有19個氨基酸的分析顯示自奧密克戎變種以來結合位點的變異變化很小且持續穩定。”
"To stay ahead of the curve, it is necessary to integrate data across multiple sources, including clinical and wastewater surveillance, as well as functional genomics. Invivyd's work over the last few years has achieved exactly that," said Kristian Andersen, Ph.D., a professor in the Department of Immunology and Microbiology at Scripps Research and member of Invivyd's scientific advisory board. "Continued surveillance of SARS-CoV-2 evolution is critically important to ensure that we can effectively counter the threat posed by the virus."
「爲了保持領先優勢,有必要整合來自臨床、污水監測以及功能基因組學等多個來源的數據。多年來,Invivyd的工作正是實現了這一目標。」斯克裏普斯研究所免疫與微生物學系教授、Invivyd科學顧問委員會成員Kristian Andersen博士表示。「持續監測SARS-CoV-2病毒的演變對於確保我們能有效應對該病毒帶來的威脅至關重要。」