Elevated matrix metalloproteinase 9 supports peripheral nerve regeneration via promoting Schwann cell migration

Abstract

Matrix metalloproteinases (MMPs) are important contributing factors of tissue remodeling and wound healing. MMP9, a predominant soluble MMP, has been discovered as one of the most up-regulated genes in peripheral nerves after nerve injury, implying the potential regulatory roles of MMP9 during peripheral nerve regeneration. Considering that Schwann cell is a main cell population in peripheral nerves and MMP9 is secreted by Schwann cells, here, we investigated the biological functions of MMP9 on Schwann cell phenotype modulation. MMP9 gene knockdown or MMP9 recombinant protein exposure significantly hinders or elevates the migration ability of cultured Schwann cells, respectively. Direct application of MMP9 recombinant protein to sciatic nerve injured rats promotes Schwann cell migration, blood vessel formation, axon elongation, and myelin wrapping. Genetic exploration of MMP9-induced changes indicates that MMP9 regulates the extracellular region as well as the intracellular metabolism of Schwann cells. Our present study illuminates the importance of elevated MMP9 after nerve injury from the functional aspect and enhances our comprehension of the mechanisms underlying peripheral nerve regeneration.