Alginate self-adhesive hydrogel combined with dental pulp stem cells and FGF21 repairs hemisection spinal cord injury via apoptosis and autophagy mechanisms

Spinal cord injury (SCI) often leads to persistent functional deficits due to loss of neurons and glia after injury. Hemisection spinal cord injury (HSCI) is a special type of SCI. The most important difference between HSCI and SCI is the occurrence of spinal cord dissection. Therefore, a calcium alginate hydrogel combined with dental pulp stem cells (DPSCs) and fibroblast growth factor 21 (FGF21) was designed based on the principle that cadherin expression is regulated by calcium ion concentration. Each element in Ca2+@Alg-FGF21 + DPSC hydrogel can exert different effects 1). calcium ions can regulate cadherin to achieve self-adhesion; 2). alginic acid can absorb calcium ions to prevent calcium overload induced injury; 3) FGF21 can regulate microenvironment; 4). DPSCs can supplement exogenous neurons. The multi-factorially comprehensive effects were hypothesized to improve the HSCI recovery. It was revealed in our study that Ca2+@Alg-FGF21 + DPSC hydrogel could effectively promote the recovery after spinal cord hemisection in mice via regulating apoptosis and autophagy, providing potential clues and cues of using Ca2+@Alg-FGF21 + DPSC hydrogel for HSCI treatment.

Automated summary

A hydrogel containing calcium alginate, DPSCs, and FGF21 was designed to improve recovery after spinal cord hemisection by regulating apoptosis and autophagy in mice.