A deep learning approach predicting the activity of COVID-19 therapeutics and vaccines against emerging variants

利用深度学习方法预测新冠病毒治疗药物和疫苗对新出现的变异株的活性

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作者：Matson,Robert P,Comba,Isin Y,Silvert,Eli,Niesen,Michiel J M,Murugadoss,Karthik,Patwardhan,Dhruti,Suratekar,Rohit,Goel,Elizabeth-Grace,Poelaert,Brittany J,Wan,Kanny K,Brimacombe,Kyle R,Venkatakrishnan,A J,Soundararajan,Venky

期刊：	npj Systems Biology and Applications	影响因子：	3.500
时间：	2024	起止号：	2024 Nov 27;10(1):138
doi：	10.1038/s41540-024-00471-0	研究方向：	微生物学
疾病类型：	新冠

Abstract

Understanding which viral variants evade neutralization is crucial for improving antibody-based treatments, especially with rapidly evolving viruses like SARS-CoV-2. Yet, conventional assays are labor intensive and cannot capture the full spectrum of variants. We present a deep learning approach to predict changes in neutralizing antibody activity of COVID-19 therapeutics and vaccine-elicited sera/plasma against emerging viral variants. Our approach leverages data of 67,885 unique SARS-CoV-2 Spike sequences and 7,069 in vitro assays. The resulting model accurately predicted fold changes in neutralizing activity (R(2) = 0.77) for a test set (N = 980) of data collected up to eight months after the training data. Next, the model was used to predict changes in activity of current therapeutic and vaccine-induced antibodies against emerging SARS-CoV-2 lineages. Consistent with other work, we found significantly reduced activity against newer XBB descendants, notably EG.5, FL.1.5.1, and XBB.1.16; primarily attributed to the F456L spike mutation.

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