COVID-19 Alters Inflammatory, Mitochondrial, and Protein Clearance Pathway Genes: Potential Implications for New-onset Parkinsonism in Patients.

Abstract

Several preclinical and clinical studies have shown that SARS-CoV-2 infection is associated with new-onset Parkinson's disease (PD). The overall goal of this study is to uncover how the COVID-19 severity gradient impacts the conventional pathological pathway of PD to inform the identification of at-risk patients and the development of personalized treatment strategies. Transcriptomics analysis of 43 PD pathogenic genes was conducted on nasopharyngeal swabs from 50 COVID-19 patients with varying severity including 17 outpatients, 16 non-ICU, and 17 ICU patients, compared to 13 SARS-CoV-2 negative individuals. The study shows that COVID-19 severity gradient differentially dysregulates PD pathological genes. Dysfunctional lysosomal and mitochondrial processes in outpatients and non-ICU COVID-19 patients was identified as the convergent network of COVID-19-PD interactions. These dysfunctions were later abrogated by the upregulation of the ubiquitin-proteasome system and autophagy-lysosome system in ICU COVID-19 patients. A potential synergistic co-expression and clustering of protein clearance pathway genes with other pathological genes was observed in ICU patients, indicating a possible overlap in biological pathways. Dysregulation of the PD pathopharmacogene, SLC6A3 was observed in ICU patients, suggesting potential COVID-19-gene-drug interactions. Nasopharyngeal swabs express major PD pathological genes as well as clinically relevant drug processing genes, which could advance studies on PD, including diagnosis, pathogenesis, and the development of disease-modifying treatments. Outpatients and non-ICU COVID-19 patients may face a higher risk of developing new-onset PD, whereas ICU COVID-19 patients may be more susceptible to COVID-19-gene-drug interactions.