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Perturbed post-translational modification (PTM) network atlas of collagen I during stent-induced neointima formation. | LitMetric

Perturbed post-translational modification (PTM) network atlas of collagen I during stent-induced neointima formation.

J Proteomics

School of Biosciences and Bioengineering (SBB), Indian Institute of Technology (IIT)- Mandi, India; BioX Center, IIT-Mandi, Himachal Pradesh 175075, India. Electronic address:

Published: March 2023

AI Article Synopsis

  • * Stenting, particularly using bare metal stents (BMS) and drug-eluting stents (DES), is a common method to restore blood flow, but both types can cause neointima formation, which leads to restenosis by depositing excessive collagen in the arteries.
  • * A study analyzed post-translational modifications (PTMs) of collagen COL1A1 in neointima ECM, finding significant increases in certain hydroxylation and glycosylation sites in DES-induced neointima compared

Article Abstract

Myocardial infarction (MI) leading to heart failure contributes to almost 85% of deaths associated with CVDs. MI results from plaque formation in the coronary artery which leads to a lack of oxygen and nutrients in the myocardium. To date, stenting is a widely used gold-standard technique to maintain the proper blood flow through coronary circulation in the myocardium. Bare metal stents (BMS) and drug-eluting stents (DES) are majorly used in implantation. However, BMS and DES both can induce neointima formation by depositing excessive collagens in the coronary arteries leading to restenosis. Identification and quantitative analysis of site-specific post-translational modifications (PTMs) of deposited COL1A1 from neointima ECM are not known. Applying our in-house workflow, we re-analyzed a previously published mass-spectrometry data set to comprehensively map site-specific prolyl-hydroxylation, lysyl hydroxylation, and O-glycosylation sites in COL1A1 from neointima ECM. Furthermore, we quantitated the occupancy level of 9 3-hydroxyproline (3-HyP) sites, 2 hydroxylysine sites, and glycosylation microheterogeneity on 6 lysine sites of COL1A1. Although the total level of COL1A1 was decreased in DES-induced neointima, the occupancy levels of 2 3-HyP sites (P, and P) and 2 HyK (K and K) sites of COL1A1 were significantly (p < 0.05) elevated in DES-induced neointima compared to BMS-induced neointima. We also found O-glycosylation to be significantly elevated on 3 lysine sites (K, K, and K and K) of COL1A1 in DES-induced neointima compared to BMS-induced neointima. Taken together, our first comprehensive PTM analysis of COL1A1 reflected significant site-specific alterations that may play a very important role in the ECM remodeling during stent-induced neointima formation in MI patients. SIGNIFICANCE: The knowledge about site-specific post-translational modifications (PTMs) of collagen 1 deposited in the neointima ECM during the post-stenting restenosis process is absent. Here for the first time, we report the altered levels of COL1A1 PTMs during metal stent and drug-eluting stent-induced neointima formation. Our study showcases a novel ECM remodeling through site-specific collagen PTMs during stent-induced restenosis.

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http://dx.doi.org/10.1016/j.jprot.2023.104842DOI Listing

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