Abstract
This study aimed to explore the possibility of miR‐423‐5p modified adipose‐derived stem cell (ADSCs) therapy on streptozotocin (STZ)‐induced diabetes mellitus erectile dysfunction (DMED) rats. MiR‐423‐5p was knocked down in ADSCs. ADSCs, NC‐miR‐ADSCs and miR‐ADSCs were co‐cultured with human umbilical vein endothelial cells (HUVECs). Normal and high glucose media were supplemented. The supernatant and HUVECs were collected for assessment of eNOS and VEGFa expression, cell proliferation, and apoptosis. HUVECs co‐cultured with ADSCs or miR‐ADSCs exhibited higher eNOS and VEGFa protein expression levels compared to DM groups. MiR‐ADSCs enhanced HUVEC proliferation compared to the ADSCs and NC‐miR‐ADSCs. Lower apoptotic rates were observed when HUVECs were co‐cultured with miR‐ADSCs, compared to ADSCs and NC‐miR‐ADSCs. Fifteen male Sprague‐Dawley (SD) rats aged 12 weeks were induced to develop diabetes mellitus by intraperitoneal injection with STZ, and five healthy SD rats were used as normal controls. Eight weeks after developing diabetes, the rats received ADSCs and miR‐ADSCs via injection into the corpora cavernosa, whereas normal controls and DM controls were injected with saline. Erectile function and histological assessment of penile tissues were performed 8 weeks after injection. The ICP/MAP indicated that erectile function was impaired in the DM rats compared with the normal group. Injection of ADSCs and miR‐ADSCs improved erectile function significantly and was associated with the overexpression of eNOS and VEGFa. MiR‐423‐5p knockdown in ADSCs ameliorated high glucose‐mediated damage to HUVECs and improved erectile function in DM rats by inducing eNOS and VEGFa overexpression, indicating that miR‐423‐5p may be a potential target in the treatment of DMED.
Highlights
Erectile dysfunction (ED) is both physical and psychological problem to men
MiR-423-5p was successfully inhibited in adipose derived stem cells (ADSCs), and human umbilical vein endothelial cells (HUVECs) co-cultured with ADSCs or miRADSCs exhibited higher Endothelial nitric oxide synthase (eNOS) and vascular endothelial growth factor a ADSCs (VEGFa) protein expression levels compared to diabetes mellitus (DM) groups (P
MiR-423-5p knockdown in ADSCs ameliorated high glucose-mediated damage to HUVECs and improved erectile function in DM rats by inducing eNOS and VEGFa overexpression, indicating that miR-423-5p may be a potential target in the treatment of DM erectile dysfunction (DMED)
Summary
Erectile dysfunction (ED) is both physical and psychological problem to men. The treatment is still unsatisfied. This study aim to investigate if knockout of miR-423-5p in ADSCs alleviates damage to endothelial cells in high glucose conditions and improves erectile function in diabetic rats. Diabetes mellitus-induced erectile dysfunction (DMED), which has pathogenic features that include endothelial, neuropathic and microvascular damage and fibrous-muscular alterations, is usually more severe and difficult to treat than nondiabetics, in disregard of the heavy burden 6,7. Several experimental approaches for DMED have been developed, including insulin treatment 8, antioxidant therapy 9, low energy shockwave therapy 10, stem cells, and gene therapy 11,12. Among these strategies, stem cell-based therapy is considered promising due to its ability to recover functional cells and tissues. The results of studies in rats with diabetes and cavernous injury, which were treated with the intracavernous injection of ADSCs, showed that erectile function had been restored. 15-17
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