Hapln1-HA signaling promotes progenitor cell proliferation and spinal cord regeneration

Adult zebrafish exhibit scarless repair and functional recovery following spinal cord injury. Their regenerative capacity is attributed to potent stem-like progenitors that mediate neuronal and glial repair. Zebrafish are thought to lack anti-regenerative extracellular matrix (ECM) components abundant in mammalian SCI, but the positive contributions of ECM to spontaneous spinal cord repair are less understood. By employing cross-species single-cell transcriptomics, we found the hyaluran modifying enzyme Hapln1 is upregulated in zebrafish progenitors but not in mouse progenitors following injury. Loss-of-function of hapln1a/b and ablation of hapln1 ⁺ cells reduce progenitor cell activation and hinder spontaneous recovery from injury. Using a series of in vivo and in vitro assays, we show that Hapln1 is required for hyaluran- cd44b mediated progenitor cell proliferation. This study reveals that, in addition to lacking anti-regenerative ECM components around SC lesions, zebrafish can also leverage pro-regenerative ECM molecules to enhance progenitor cell potency and promote repair.