RPS4XL encoded by lnc-Rps4l inhibits hypoxia-induced pyroptosis by binding HSC70 glycosylation site

Pyroptosis is involved in pulmonary hypertension (PH); however, whether this process is regulated by long non-coding RNAs (lncRNAs) is unclear. Some lncRNAs encode peptides; therefore, whether the regulation of pyroptosis in PH depends on lncRNAs themselves or their encoded peptides needs to be explored. We aimed to characterize the role of the peptide RPS4XL encoded by lnc-Rps4l and its regulatory mechanisms during pyroptosis in PH. Transgenic mice overexpression of lnc-Rps4l was established to rescue the inhibition of hypoxia-induced pyroptosis in pulmonary artery smooth muscle cells (PASMCs). An adeno-associated virus 9 construct with a mutation in the open reading frame of lnc-Rps4l was used to verify that it could inhibit hypoxia-induced PASMCs pyroptosis through its encoded peptide RPS4XL. Glutathione S-transferase (GST) pull-down assays revealed that RPS4XL bound to HSC70, and microscale thermophoresis (MST) was performed to determine the HSC70 domain that interacted with RPS4XL. Through glycosylation site mutation, we confirmed that RPS4XL inhibited hypoxia-induced PASMCs pyroptosis by regulating HSC70 glycosylation. Our results showed that RPS4XL inhibits pyroptosis in a PH mouse model and hypoxic PASMCs by regulating HSC70 glycosylation. These results further clarify the important mechanism of vascular remodeling in PH pathology.