Experimental cell research
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In order to assess the requirement for matrix metalloproteinases in neuronal regeneration, in vitro neurite outgrowth by chick dorsal root ganglionic neurons (DRGn) was examined within a reconstituted extracellular matrix. For these studies, cultured neurons were treated with a synthetic peptide inhibitor of metalloproteinases (spIMP), LMHKPRCGVPDVGG. spIMP inhibited all neuronal metalloproteinase activities in zymography and substrate-release assays and was used to examine the role of metalloproteinases in neurite outgrowth by DRGn. Cultures of dissociated DRGn rapidly extended neurites on planar extracellular matrix substrates and this rate of outgrowth was not affected by adding NGF or spIMP. ⋯ Furthermore, after high NGF treatment, DRGn media contained sixfold more metalloproteinase activity in assays of matrix degradation. In summary, these results indicate that NGF enhanced metalloproteinase-dependent neurite outgrowth of DRGn within a reconstituted extracellular matrix. Also, NGF increased the expression and activation of 72-kDa type IV collagenase, suggesting a role for this matrix-degrading metalloproteinase in neuronal regeneration.