Evidence of an Increased Burden of Humoral Autoimmunity in the CSF and plasma of COVID-19 Patients with Comorbid Neurologic Dysfunction – Newswise

Newswise Background: Coronavirus disease 19 (COVID-19) is the most globally impactful pandemic of the past century. The causative pathogen, SARS-CoV-2, infects ACE2-expressing cells and leads to pulmonary disease and a systemic immune response. In patients with severe COVID-19, a dysregulated immune response is associated with secondary extrapulmonary dysfunction, including neurological symptoms. Neurologic complications of SARS-CoV-2 infection are increasingly recognized, yet it is unknown to what degree humoral autoimmunity is a feature of neurological impairment in COVID-19.

Objectives: To perform an unbiased survey of peripheral and central humoral autoimmunity in COVID-19 patients with neurologic dysfunction.

Methods: Paired cerebrospinal fluid (CSF) and plasma biospecimens were collected from nasopharyngeal (NP) SARS-CoV-2 PCR positive patients with comorbid neurologic impairment (n = 5). Additional unpaired CSF biospecimens were collected from neurologically impaired NP PCR positive patients (n = 3). All COVID-19 patients were PCR negative for SARS-CoV-2 in the CSF. CSF and plasma were also collected from SARS-CoV-2 uninfected healthy control volunteers. Neurologic syndromes were diverse and included myositis, seizures, and encephalopathy. Biospecimens were screened in replicate by mouse brain immunostaining, immunoprecipitation mass spectrometry (IP-MS), and human peptidome phage display immunoprecipitation sequencing (PhIP-Seq). IP-MS spectra were analyzed by both spectral counting and MS1 peak area. For PhIP-Seq, proteins with overlapping peptides that were enriched at least 10-fold above control samples, or single peptides enriched 100-fold above controls were considered candidate autoantigens. Candidate autoantigens identified by at least two of three methods (PhIP-Seq, spectral counting, and peak area) were carried forward for validation.

Results: Unexpectedly, seven of eight COVID-19 CSF samples had evidence of humoral autoimmunity by tissue staining (n = 7), and IP-MS (n = 6), PhIP-Seq (n = 7), or both (n = 6). By IP-MS, significantly more candidate autoantigens were identified in COVID-19 biospecimens than in uninfected controls. PhIP-Seq identified twice as many candidate autoantigens in COVID-19 biospecimens than in controls. Notably, COVID-19 biospecimens were enriched for clinically relevant candidate autoantigens including those associated with dermatomyositis, and myasthenia gravis (none known to be pre-existing comorbidities). Additionally, COVID-19 biospecimens were enriched for candidate autoantigens with prima facie clinical relevance as they targeted proteins enriched in skeletal muscle, endothelial cells, and at the synapse. One candidate autoantibody targeted a ciliary protein implicated in syndromic anosmia.

Conclusions: We identified evidence of an increased burden of humoral autoimmunity in COVID-19 patients with comorbid neurologic dysfunction.

Presenter:M.D., Ph.D. Christopher Bartley, University of California San Francisco, Department of Psychiatry and Behavioral Sciences, 401 Parnassus Avenue, Room LP-263, 94143, San Francisco, US

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Evidence of an Increased Burden of Humoral Autoimmunity in the CSF and plasma of COVID-19 Patients with Comorbid Neurologic Dysfunction - Newswise