Schwann cells aid regeneration project

U nlike neurons in the central nervous system, peripheral nerves can regenerate after injury and reconnect to their target cells. Fontana et al. reveal how Schwann cells, which normally wrap an insulating myelin sheath around the axons of healthy peripheral neurons, boost the survival and regrowth of injured nerves by up-regulating the transcription factor c-Jun (1). Axel Behrens, from the London Research Institute of Cancer Research UK, is interested in why different types of nerves have different regenerative capacities. " What is the difference between nerves that can regenerate and those that can't? " Behrens asks. " What are the factors required to make a neuron regrow? " One event initiated by peripheral nerve injury is the dedifferentiation of the Schwann cells surrounding the damaged neuron into proliferative precursor cells that reactivate expression of c-Jun, a transcription factor that suppresses myelin production (2, 3). The de-differentiated Schwann cells promote axonal regrowth by altering the neuron's mi-croenvironment (4, 5), but, says Beh-rens, " the signifi cance of c-Jun up-regulation isn't known. " Collaborating with Gennadij Raivich's laboratory at University College London, Behrens and colleagues, led by Xavier Fontana and Mariya Hristova, therefore investigated neuronal regeneration in mice whose Schwann cells lacked c-Jun. In wild-type mice, the nerves that innervate facial muscles completely recover within a few weeks of being cut, restoring movement to the animals' whiskers. But regeneration was abolished in mice with c-Jun–defi cient Schwann cells. " We found defects in both neuron survival and in the ability of the damaged axons to regrow toward the muscle, " explains Fontana. As a result, the mutant mice failed to recover their whisker movements. To understand how Schwann cell c-Jun promotes neuron regeneration, Fontana et al. searched for genes that were up-regulated in wild-type, but not mutant, Schwann cells after nerve injury. The researchers identifi ed several neurotrophic factors that weren't induced in the absence of c-Jun, but they focused on two— GDNF and Artemin—that contained c-Jun binding sites in their promoter regions and that were therefore likely to be direct targets of the transcription factor (a hypothesis confi rmed by experiments in cultured Schwann cells). GDNF and Artemin are both ligands for the receptor tyrosine kinase Ret, which is expressed in neurons but not in Schwann cells. Fontana et al. found that activation of the Ret receptor was impaired in the injured neu-rons of mice whose Schwann cells lacked c-Jun, suggesting …