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Characterization of protein isoform diversity in human umbilical vein endothelial cells via long-read proteogenomics

Version 10 2024-03-22, 05:55
Version 9 2024-03-22, 02:46
Version 8 2024-03-21, 22:19
Version 7 2024-03-21, 20:26
Version 6 2024-03-21, 20:11
Version 5 2024-03-21, 17:26
Version 4 2024-03-21, 17:24
Version 3 2024-03-21, 17:22
Version 2 2023-11-20, 16:42
Version 1 2022-12-02, 05:00
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posted on 2024-03-22, 05:55 authored by Madison M. Mehlferber, Erin D. Jeffery, Jamie Saquing, Ben T. Jordan, Leon Sheynkman, Mayank Murali, Gael Genet, Bipul R. Acharya, Karen K. Hirschi, Gloria M. Sheynkman

Endothelial cells (ECs) comprise the lumenal lining of all blood vessels and are critical for the functioning of the cardiovascular system. Their phenotypes can be modulated by alternative splicing of RNA to produce distinct protein isoforms. To characterize the RNA and protein isoform landscape within ECs, we applied a long read proteogenomics approach to analyse human umbilical vein endothelial cells (HUVECs). Transcripts delineated from PacBio sequencing serve as the basis for a sample-specific protein database used for downstream mass-spectrometry (MS) analysis to infer protein isoform expression. We detected 53,863 transcript isoforms from 10,426 genes, with 22,195 of those transcripts being novel. Furthermore, the predominant isoform in HUVECs does not correspond with the accepted “reference isoform” 25% of the time, with vascular pathway-related genes among this group. We found 2,597 protein isoforms supported through unique peptides, with an additional 2,280 isoforms nominated upon incorporation of long-read transcript evidence. We characterized a novel alternative acceptor for endothelial-related gene CDH5, suggesting potential changes in its associated signalling pathways. Finally, we identified novel protein isoforms arising from a diversity of RNA splicing mechanisms supported by uniquely mapped novel peptides. Our results represent a high-resolution atlas of known and novel isoforms of potential relevance to endothelial phenotypes and function.

Funding

This work was supported by the National Heart, Lung, and Blood Institute (NHLBI) [HL146056]; National institute of Diabetes and Digestive and Kidney Diseases [DK118728]; National Heart, Lung, and Blood Institute (NHLBI) [T32HL007284].

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