Advanced Science (Aug 2024)
Targeting Adenosine A2b Receptor Promotes Penile Rehabilitation of Refractory Erectile Dysfunction
Abstract
Abstract The mechanisms of adenosine and specific adenosine receptor subtypes in promoting penile rehabilitation remain unclear. Single‐cell RNA sequencing of human corpus cavernosum, adenosine deaminase (ADA) and adenosine receptors knock‐out mice (ADA−/−, A1−/−, A2a−/−, A2b−/−, and A3−/−), and primary corpus cavernosum smooth muscle cells are used to determine receptor subtypes responsible for adenosine‐induced erection. Three rat models are established to characterize refractory erectile dysfunction (ED): age‐related ED, bilateral cavernous nerve crush related ED (BCNC), and diabetes mellitus‐induced ED. In single‐cell RNA sequencing data, the corpus cavernosum of ED patients show a decrease in adenosine A1, A2a and A2b receptors. In vivo, A2b receptor knock‐out abolishes adenosine‐induced erection but not that of A1, A2a, or A3 receptor. Under hypoxic conditions in vitro, activating the A2b receptor increases HIF‐1α and decreases PDE5 expression. In refractory ED models, activating the A2b receptor with Bay 60–6583 improves erectile function and down‐regulates HIF‐1α and TGF‐β. Administering Dipyridamole (40 mg Kg−1) to BCNC rats improve penile adenosine levels and erectile function. Our study reveals that the A2b receptor mediates adenosine‐induced penile erection. Activating the A2b receptor promotes penile rehabilitation of refractory ED by alleviating hypoxia and fibrosis.
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