Background
Owing to the delicate structure of the adipose tissue, fat necrosis accounts for 43.7% of all complications after autologous fat grafting; however, its regulation remains unclear.
Objectives
The purpose of this study was to examine the role of necroptosis in fat graft remodeling after grafting.
Methods
Clinical fat graft necrosis samples were collected, and the expression levels of the necroptosis marker phosphorylated(p)-MLKL were analyzed. Transcriptome analysis was performed on fat grafts before and one week after transplantation in C57BL/6 mouse fat grafting models. Additionally, the in vivo effects of RIPK1 inhibitor Nec-1s or RIPK3 inhibitor GSKʹ872 on the fat grafting complications including fat necrosis and fibrosis were investigated.
Results
Necroptosis markers were observed and associated with higher occurrence of fibrosis in clinical fat graft necrosis samples compared to normal fat tissue. Amplification and RNA-Seq were conducted on RNA isolated from fat grafts before and after grafting. MLKL, RIPK1 and RIPK3 expression levels were significantly upregulated in comparison to controls. Higher expression levels of necroptotic RNAs were associated with higher levels of DAMPs, including Cxcl2, HMGB1, S100a8, S100a9, Nlrp3 and IL33, and activated pro-inflammatory signaling pathways, including the TNF, NF-kappa B and chemokine signaling pathways. Necroptotic inhibitor Nec-1s and GSKʹ872 robustly suppressed the p-MLKL expression level and significantly inhibited necroptotic cell death, especially in adipocytes. Moreover, administration of Nec-1s and GSKʹ872 significantly alleviated fat necrosis and subsequent fibrosis in fat grafts.
Conclusions
Collectively, our study findings highlight the potential therapeutic applications of necroptosis inhibitors in preventing fat necrosis and fibrosis after grafting.