Abstract
Background & Hypothesis: T. gondii uracil phosphoribosyltransferase (UPRT) can convert 4-thiouracil(4TUc) into 4-thiouridine (4TUd), thus incorporating into nascent RNAs, and the thio-labeled RNAs can be identified by thio-linked-biotinylation and streptavidin-affinity isolation, we hypothesize that cardiomyocyte (CM) expression of UPRT ( CM UPRT) allows labeling and tracking of CM-derived miRNAs in PB sEV and peripheral organs. Methods & Results: We generated mice that expressed T. gondii UPRT only in cardiomyocytes ( CM UPRT mice) and tested our hypothesis that CM-derived miRNAs ( CM miRs) are transferred into remote organs after myocardial infarction (MI) by PB sEV. We found that 4TUd was incorporated with high specificity and sensitivity into RNAs isolated from the hearts and PB sEV of CM UPRT mice six hours after 4TUc injection. In PB sEV, 4TUd was incorporated into CM-specific/enriched miRs including miR-208a, but not into miRs with other organ or tissue-type specificities. 4TUd-labeled miR208a was also present in lung tissues, especially lung endothelial cells (ECs), and CM-derived miR-208a ( CM miR-208a) levels peaked 12 hours after experimentally induced MI in PB sEV and 24 hours after MI in the lung. Notably, miR-208a is expressed from intron 29 of α myosin heavy chain (αMHC), but αMHC transcripts were nearly undetectable in the lung. When PB sEV from mice that underwent MI (MI- PB sEV) or sham surgery (Sham- PB sEV) were injected into intact mice, the expression of Tmbim6 and NLK, which are suppressed by miR-208a and cooperatively regulate inflammation via the NF-κB pathway, was lower in the lungs of MI- PB sEV-treated animals than the lungs of animals treated with Sham- PB sEV or saline. In MI mice, Tmbim6 and NLK were downregulated, whereas endothelial adhesion molecules and pro-inflammatory cells were upregulated in the lung; these changes were significantly attenuated when the mice were treated with miR-208a antagomirs prior to MI surgery. Conclusion: CM UPRT mice enables us to track PB sEV-mediated transport of CM miRs and identify an miR-208a-mediated mechanism by which myocardial injury alters the expression of genes and inflammatory response in the lung.
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