Growth hormone-releasing peptide 6 (GHRP-6) hydrogel for acute kidney injury therapy via metabolic regulation.
Xiaotong Zhao, Kai Pan, Rui Li, Meina Liu, Duo Li, Pingping Jia, Zhibo Han, Zhong-Chao Han, Zhikun Guo, Zongjin Li, Qiong Li
Abstract
Open AccessRenal tubular epithelial cells (TECs), which are highly susceptible to injury during acute kidney injury (AKI), have notable regenerative effects on renal recovery after AKI. AKI-driven metabolic reprogramming of TECs plays a critical role in determining whether kidneys recover functionally or develop fibrosis. Targeting the metabolism of TECs offers valuable insights into AKI treatment. Growth hormone-releasing hormone (GHRH) and its analog GHRH peptide (GHRP) play beneficial roles in the field of regenerative medicine. Here, we designed a self-assembling GHRP-6 peptide hydrogel, and we hypothesized that this hydrogel could reprogram the metabolism of TECs, further enhancing recovery from AKI. Metabolomic sequencing analysis revealed that spermidine, L-glutamine, and acetyl-CoA, which are involved in amino acid and fatty acid metabolism, were highly enriched in a mouse model of AKI treated with the GHRP-6 hydrogel. Further study revealed that GHRP-6 hydrogel treatment enhanced the survival of TECs in the ischemic microenvironment by activating the mTOR-P70 pathway. In conclusion, GHRP-6 hydrogel treatment has beneficial therapeutic effects on AKI through the targeting of metabolic reprogramming, which offers a novel therapeutic strategy to protect TECs in AKI treatment.