Transcriptomic analysis reveals the mechanism of isorhamnetin in the treatment of diabetes mellitus erectile dysfunction

Exploring the therapeutic effect and mechanism of isorhamnetin in the treatment of DMED. Using a high glucose environment to induce endothelial cells damage in the corpus cavernosum, and combining with intervention agents such as ferroptosis inhibitors to observe the process of cell damage and repair, evaluating cell status through CCK-8 and DAPI; To establish the STZ-induced diabetes rat model and detect the erectile function and tissue changes; Perform transcriptome sequencing on rat models and samples treated with isorhamnetin to analyze differentially expressed genes and their GO functions; Identify critical pathways by combining with the ferroptosis database; Flow cytometry was used to detect ROS and mitochondrial membrane potential, and RT-PCR was used to verify gene expression, Seahorse detects mitochondrial oxygen consumption rate, revealing the mechanism of action of isorhamnetin. Ferroptosis inhibitors and isorhamnetin can effectively reverse the damage of corpus cavernosum endothelial cells induced by high glucose and ferroptosis agonists. Isorhamnetin has the ability to reinstate the erectile function of diabetic rats, while enhancing the quantity of endothelial cells and refining the morphology of collagen fibers. Immunohistochemistry revealed that ferroptosis existed in the penis tissue of diabetes rats. Transcriptomic analysis showed that isorhamnetin improves gene expression in DM rats by regulating genes such as GFER, IGHM, GPX4 and HMOX1, involving multiple pathways and biological processes. Flow cytometry and RT-PCR confirmed that isorhamnetin can reduce reactive oxygen species levels, restore essential gene expression, improve mitochondrial membrane potential, and alleviate oxidative stress and ferroptosis. Seahorse detection found that isorhamnetin can restore mitochondrial oxygen consumption rate Isorhamnetin attenuates high glucose damage to cavernous endothelial cells by inhibiting ferroptosis and oxidative stress, restores erectile function and improves tissue morphology in diabetic rats, and its multi-pathway and multi-targeting regulatory mechanism suggests that it is promising to be an effective drug for the treatment of DMED.