Neurite-promoting influences of proliferating Schwann cells and target-tissues are not prerequisite for rapid axonal elongation after nerve crush

An important role in peripheral nerve regeneration has been ascribed to humoral trophic and tropic agents arising from the nonneuronal cells in the distal nerve stump and the denervated targets. In order to estimate their contribution to axonal elongation after crush injury to the rat sciatic nerve, an in vivo model was designed in which local cellular and target-derived influences were eliminated by 1) freeze-thawing of a long nerve segment distal to the crush site and 2) cutting the nerve far distally to the crush site, but within the frozen-thawed segment, and deflecting the frozen-thawed nerve stump in the opposite direction from its natural course. The sensory and motor axon elongation rate was estimated from the results of the nerve pinch test and choline acetyltransferase distribution along the nerve segment distal to the crush. The elongation rate of regenerating axons in deflected nerve segments, either non-treated or frozen-thawed, was close in magnitude to that obtained when target-derived influences were not eliminated. Neurotropism of axonal targets is therefore of little importance for axon elongation after nerve crush. In the absence of Schwann cells along the axonal path in frozen-thawed nerve segments, the elongation rate of both sensory and motor axons declined by about 40%. This implies that interactions between viable Schwann cells and growth cones of regenerating axons are not prerequisite for rapid axon elongation when Schwann cell basal lamina constitutes the growth substratum. Nevertheless, Schwann cells in Bungner bands possibly enhance the axon elongation rate by humoral or cell surface-mediated mechanisms.