Parrinello, S and Noon, LA and Harrisingh, MC and Digby, PW and Rosenberg, LH and Cremona, CA and Echave, P and Flanagan, AM and Parada, LF and Lloyd, AC (2008) NF1 loss disrupts Schwann cell-axonal interactions: a novel role for semaphorin 4F. GENE DEV , 22 (23) 3335 - 3348. 10.1101/gad.490608.
Neurofibromatosis type 1 (NF1) patients develop neurofibromas, tumors of Schwann cell origin, as a result of loss of the Ras-GAP neurofibromin. In normal nerves, Schwann cells are found tightly associated with axons, while loss of axonal contact is a frequent and important early event in neurofibroma development. However, the molecular basis of this physical interaction or how it is disrupted in cancer remains unclear. Here we show that loss of neurofibromin in Schwann cells is sufficient to disrupt Schwann cell/axonal interactions via up-regulation of the Ras/Raf/ERK signaling pathway. Importantly, we identify down-regulation of semaphorin 4F (Sema4F) as the molecular mechanism responsible for the Ras-mediated loss of interactions. In heterotypic cocultures, Sema4F knockdown induced Schwann cell proliferation by relieving axonal contact-inhibitory signals, providing a mechanism through which loss of axonal contact contributes to tumorigenesis. Importantly, Sema4F levels were strongly reduced in a panel of human neurofibromas, confirming the relevance of these findings to the human disease. This work identifies a novel role for the guidance-molecules semaphorins in the mediation of Schwann cell/axonal interactions, and provides a molecular mechanism by which heterotypic cell-cell contacts control cell proliferation and suppress tumorigenesis. Finally, it provides a new approach for the development of therapies for NF1.
|Title:||NF1 loss disrupts Schwann cell-axonal interactions: a novel role for semaphorin 4F|
|Open access status:||An open access publication|
|Publisher version:||http://www.ncbi.nlm.nih.gov/pmc/ articles/PMC2600763/?tool=pubmed|
|Keywords:||NF1, Ras, Schwann cell/axonal interactions, heterotypic, semaphorins, tumorigenesis, TYPE-1 NEUROFIBROMATOSIS, PERIPHERAL-NERVES, PROTEIN-KINASE, N-CADHERIN, ACTIVATION, FAMILY, TRANSFORMATION, PROLIFERATION, ENSHEATHMENT, MYELINATION|
|UCL classification:||UCL > School of Life and Medical Sciences > Faculty of Life Sciences > Laboratory for Molecular Cell Biology|
UCL > School of Life and Medical Sciences > Faculty of Medical Sciences > Wolfson Institute and Cancer Institute Administration > Cancer Institute > Research Department of Pathology
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