1. Academic Validation
  2. Activated Alk triggers prolonged neurogenesis and Ret upregulation providing a therapeutic target in ALK-mutated neuroblastoma

Activated Alk triggers prolonged neurogenesis and Ret upregulation providing a therapeutic target in ALK-mutated neuroblastoma

  • Oncotarget. 2014 May 15;5(9):2688-702. doi: 10.18632/oncotarget.1883.
Alex Cazes 1 Lucille Lopez-Delisle Konstantina Tsarovina Cécile Pierre-Eugène Katleen De Preter Michel Peuchmaur André Nicolas Claire Provost Caroline Louis-Brennetot Romain Daveau Candy Kumps Ilaria Cascone Gudrun Schleiermacher Aurélie Prignon Frank Speleman Hermann Rohrer Olivier Delattre Isabelle Janoueix-Lerosey
Affiliations

Affiliation

  • 1 Inserm U830, 26 rue d'Ulm, 75005 Paris, France.
Abstract

Activating mutations of the ALK (Anaplastic lymphoma Kinase) gene have been identified in sporadic and familial cases of neuroblastoma, a Cancer of early childhood arising from the sympathetic nervous system (SNS). To decipher ALK function in neuroblastoma predisposition and oncogenesis, we have characterized knock-in (KI) mice bearing the two most frequent mutations observed in neuroblastoma patients. A dramatic enlargement of sympathetic ganglia is observed in AlkF1178L mice from embryonic to adult stages associated with an increased proliferation of sympathetic neuroblasts from E14.5 to birth. In a MYCN transgenic context, the F1178L mutation displays a higher oncogenic potential than the R1279Q mutation as evident from a shorter latency of tumor onset. We show that tumors expressing the R1279Q mutation are sensitive to ALK inhibition upon crizotinib treatment. Furthermore, our data provide evidence that activated ALK triggers RET upregulation in mouse sympathetic ganglia at birth as well as in murine and human neuroblastoma. Using vandetanib, we show that RET inhibition strongly impairs tumor growth in vivo in both MYCN/KI AlkR1279Q and MYCN/KI AlkF1178L mice. Altogether, our findings demonstrate the critical role of activated ALK in SNS development and pathogenesis and identify RET as a therapeutic target in ALK mutated neuroblastoma.

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