Autoantigen profiling reveals a shared post-COVID signature in fully recovered and long COVID patients
Aaron Bodansky, Chung-Yu Wang, Aditi Saxena, Anthea Mitchell, Andrew F. Kung, Saki Takahashi, Khamal Anglin, Beatrice Huang, Rebecca Hoh, Scott Lu, Sarah A. Goldberg, Justin Romero, Brandon Tran, Raushun Kirtikar, Halle Grebe, Matthew So, Bryan Greenhouse, Matthew S. Durstenfeld, Priscilla Y. Hsue, Joanna Hellmuth, J. Daniel Kelly, Jeffrey N. Martin, Mark S. Anderson, Steven G. Deeks, Timothy J. Henrich, Joseph L. DeRisi, Michael J. Peluso
Aaron Bodansky, Chung-Yu Wang, Aditi Saxena, Anthea Mitchell, Andrew F. Kung, Saki Takahashi, Khamal Anglin, Beatrice Huang, Rebecca Hoh, Scott Lu, Sarah A. Goldberg, Justin Romero, Brandon Tran, Raushun Kirtikar, Halle Grebe, Matthew So, Bryan Greenhouse, Matthew S. Durstenfeld, Priscilla Y. Hsue, Joanna Hellmuth, J. Daniel Kelly, Jeffrey N. Martin, Mark S. Anderson, Steven G. Deeks, Timothy J. Henrich, Joseph L. DeRisi, Michael J. Peluso
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Research Article COVID-19

Autoantigen profiling reveals a shared post-COVID signature in fully recovered and long COVID patients

Abstract

Some individuals do not return to baseline health following SARS-CoV-2 infection, leading to a condition known as long COVID. The underlying pathophysiology of long COVID remains unknown. Given that autoantibodies have been found to play a role in severity of SARS-CoV-2 infection and certain other post-COVID sequelae, their potential role in long COVID is important to investigate. Here, we apply a well-established, unbiased, proteome-wide autoantibody detection technology (T7 phage-display assay with immunoprecipitation and next-generation sequencing, PhIP-Seq) to a robustly phenotyped cohort of 121 individuals with long COVID, 64 individuals with prior COVID-19 who reported full recovery, and 57 pre-COVID controls. While a distinct autoreactive signature was detected that separated individuals with prior SARS-CoV-2 infection from those never exposed to SARS-CoV-2, we did not detect patterns of autoreactivity that separated individuals with long COVID from individuals fully recovered from COVID-19. These data suggest that there are robust alterations in autoreactive antibody profiles due to infection; however, no association of autoreactive antibodies and long COVID was apparent by this assay.

Authors

Aaron Bodansky, Chung-Yu Wang, Aditi Saxena, Anthea Mitchell, Andrew F. Kung, Saki Takahashi, Khamal Anglin, Beatrice Huang, Rebecca Hoh, Scott Lu, Sarah A. Goldberg, Justin Romero, Brandon Tran, Raushun Kirtikar, Halle Grebe, Matthew So, Bryan Greenhouse, Matthew S. Durstenfeld, Priscilla Y. Hsue, Joanna Hellmuth, J. Daniel Kelly, Jeffrey N. Martin, Mark S. Anderson, Steven G. Deeks, Timothy J. Henrich, Joseph L. DeRisi, Michael J. Peluso

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Figure 2

Post-COVID anti-ARHGAP31 autoreactivities target a specific region with similarity to SARS-CoV-2.

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Post-COVID anti-ARHGAP31 autoreactivities target a specific region with ...
(A) Strip plots showing distribution of ARHGAP31 autoreactivities in long COVID, individuals with prior COVID infection but without long COVID, and pre-COVID controls. Dotted line at 6 standard deviations above mean of pre-COVID controls (underlying box plots showing median, upper and lower quartiles, and whiskers representing 1.5 times the upper and lower interquartile range). (B) Distribution of anti-ARHGAP31 autoreactivity signal within ARHGAP31 full-length protein. One specific fragment is targeted. (C) Amino acid sequence of the autoreactive region of ARHGAP31 and amino acid sequence of a region of SARS-CoV-2 Orf1a with similarity. Shown below is the multiple sequence alignment (ClustalOmega; asterisk = identical amino acid; colon = strongly similar properties with Gonnet PAM 250 matrix score > 0.5; period = weakly similar with Gonnet PAM 250 matrix score between 0 and 0.5) and strong physical-chemical conservation (Jalview; amino acid physical-chemical conservation scored on a scale of 1–11, asterisk = score of 11 and identical amino acid, plus = 10, all properties conserved).