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. 2025 Feb;417(4):733-746.
doi: 10.1007/s00216-024-05684-0. Epub 2024 Dec 7.

Long-term dysregulation of plasma peptidome in mild and multiple COVID-19 recovered patients revealed by a novel efficient peptidomics workflow

Zhijing Song  1   2   3 Chaoran Liu  1 Yaozhou Liu  1   4 Zheng Bian  1   2   4 Qing Sun  1   2   4 Ting He  5 Rong Su  6 Shengchun Huang  6 Ningbin Dai  7 Ke Li Zhao  2   8 Yan Li  1   2   4 Kai Liang  9   10   11
Affiliations

Long-term dysregulation of plasma peptidome in mild and multiple COVID-19 recovered patients revealed by a novel efficient peptidomics workflow

Zhijing Song et al. Anal Bioanal Chem. 2025 Feb.

Abstract

After recovering from COVID-19, many patients experience "long COVID" symptoms. Existing research has predominantly focused on moderate to severe cases, with limited studies examining mild cases and recurrent infections. The circulating low-molecular-weight (LMW) peptidome, involving lipid metabolism, coagulation, and immune pathways, is crucial for understanding COVID-19's long-term effects. We developed a peptidomics workflow utilizing solid-phase extraction with highly wrinkled GO-Fe3O4 composite materials (HWGO-F) and nanoLC-MS/MS detection. By altering the pH, HWGO-F enhances plasma peptide adsorption and purification. Compared to traditional methods, our workflow offers improved detection depth and reproducibility for over 70% of peptide signals with CV < 20%. We investigated plasma peptide profiles in mild COVID-19 patients post-recovery from single or second infections. The findings indicate persistent abnormalities in initial COVID-19 infections' plasma peptide profiles, gradually diminishing over time. Secondary infections prolong recovery. Disrupted functions include lipid metabolism, coagulation and complement cascades, and infection-related pathways. Lipid metabolism may normalize within 3 months, while coagulation and immune abnormalities can last 3-6 months. After secondary infections, lipid metabolism irregularities may last at least 1 month, with extended coagulation and immune imbalances. These results provide a theoretical foundation for understanding the widespread occurrence of long COVID and guide recovery care for mild cases.

Keywords: Circulating peptidomics; HWGO-F; Long COVID assessment; Mild and multiple infection; Solid-phase extraction.

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Conflict of interest statement

Declarations. Ethics approval: The plasma samples were collected and organized from Suzhou Center for Disease Control and Prevention after approval by the Ethics Committee (approval number: SZJKYBK2023-002). Written informed consent was obtained from all participation. Conflict of interest: The authors declare no competing interests.

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