ABSTRACT
Background: Five variants of concern (VOCs) have dominated COVID-19 disease etiology since 2020-Alpha, Beta, Gamma, Delta, and Omicron-possessing over 150 defining genomic alterations. Here, we used global proteomic and genomic approaches to study the host responses and selective forces driving VOC evolution. Method(s): We infected Calu-3 human lung epithelial cells with 5 VOCs and 2 wave 1 (W1) controls and performed mass spectrometry abundance proteomics, phosphoproteomics, and mRNA sequencing at 10 and 24 hours post infection. We additionally performed affinity purification mass spectrometry (APMS) by individually expressing all VOC mutant viral proteins (52) and corresponding W1 forms in human cells to quantify differential virus-host protein-protein interactions. Data was integrated using network modeling and bioinformatics to pinpoint VOC-specific differences. Four novel mutant viruses were developed using reverse genetics technology to validate the impact of specific genomic alterations. Result(s): We discovered VOCs evolved convergent molecular strategies to remodel the host response by modulating viral RNA and protein levels (most notably of N, Orf9b, and Orf6), altering nucleocapsid phosphorylation, and rewiring virus-host protein complexes. Integrative systems analyses revealed that Alpha, Beta, Gamma, and Delta ultimately converged in the suppression of interferon stimulated genes (ISGs) relative to W1 viruses, but Omicron BA.1 did not, and Delta induced more pro-inflammatory genes compared to other VOCs. Altered regulation of ISGs correlated with the expression of viral innate immune antagonist proteins, including Orf6, N, and Orf9b;for example, Omicron BA.1 depicted a 2-fold decrease in Orf6 expression. We identified mutations that alter expression of Orf9b (N D3L and N -3A del) and the novel VOC protein N* (N R203K/G204R), and confirmed Orf6 innate immune antagonism using recombinant virus technology. Remarkably, Omicron BA.4 and BA.5 regained strengthened innate immune antagonism compared to BA.1, which again correlated with enhanced Orf6 expression, though dampened in BA.4 by a mutation (D61L) that we discovered disrupts the Orf6-nuclear pore interaction. Conclusion(s): Collectively, our findings suggest SARS-CoV-2 convergent evolution overcomes human innate immune barriers, laying the groundwork to understand future coronavirus evolution associated with immune escape and enhanced human-to-human transmission.