The serum from critical COVID-19 patients induces proteomic changes in olfactory neuroepithelial cells that resemble post-covid neurological complications
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Abstract
ABSTRACT Post-acute sequelae of SARS-CoV-2 infection (PASC), commonly referred to as Long COVID, comprise a constellation of persistent, recurrent, or newly emerging symptoms that may endure for months or years following acute infection. Beyond respiratory impairment, PASC is characterized by a wide spectrum of extrapulmonary manifestations, among which neurological and neuropsychiatric symptoms are highly prevalent. Reported features include olfactory dysfunction with loss of smell and taste, fatigue, neuroinflammation, cognitive and memory impairment, depression, and anxiety, with some symptoms persisting up to one year post-infection. Despite increasing recognition of these complications, the molecular mechanisms underlying post-COVID neurological sequelae remain poorly defined. In this study, we employed a label-free quantitative (LFQ) proteomics approach to investigate protein alterations in olfactory neuroepithelium–derived stem cells (ONEs), a unique population of neural progenitors located in the olfactory mucosa at the interface between the respiratory system and both the peripheral and central nervous systems. Due to their anatomical exposure and susceptibility to SARS-CoV-2, ONEs represent a highly relevant translational model for exploring virus-associated neurobiological processes. ONEs derived from healthy donors were incubated with serum from either asymptomatic PCR-positive individuals (AS; n=4) or critically ill hospitalized patients (CR; n=6). Proteomic profiling revealed a distinct differential protein expression pattern in ONEs exposed to CR serum compared with AS serum. Altered pathways were associated with viral infection responses, respiratory and cardiovascular dysfunction, and notably, cerebrovascular and nervous system disorders. These findings highlight the vulnerability of ONEs to systemic factors associated with severe COVID-19 and provide molecular insight into mechanisms potentially contributing to persistent neurological sequelae in PASC. GRAPHICAL ABSTRACT
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- last seen: 2026-05-20T01:45:00.602351+00:00