Project Goals

We propose that unregulated TrkB activation in these early neuroblasts may be an early event in the genesis of neuroblastoma, with transient activation leading to regressive tumors and prolonged activation initiating a cascade of changes culminating in transformation to aggressive tumors. In collaboration with Dr. William Weiss (UCSF) and Moses Chao (Skirball Institute, NYU) we propose to determine whether sympathetic ganglia from homozygous THMYCN mice, which spontaneously develop neuroblastoma, have altered TrkB signaling.Furthermore, in collaboration with Dr. Felix Eckenstein, we propose to develop a new mouse model of neuroblastoma in which expression of a transforming gene, constitutively active TrkB (TrkB*), together with a vital marker, enhanced green fluorescent protein (EGFP), are induced by tetracycline. The creation of an inducible model of tumorigenesis will allow us to examine in closer detail the temporal timing of gene activation necessary to achieve full transformation, and,in concert with the TH-MYCN mouse, provide a more extensive range of animal models in whichtherapeutic agents may be tested.

Accomplishing these objectives will make it possible for Dr.Nishi’s laboratory to transition from a focus on basic neural development to applying her skills and knowledge towards understanding childhood cancer. These studies will also facilitate the research of the newly formed Neuroblastoma Consortium at the University of Vermont College of Medicine, which includes Drs. G. Sholler, J. Straub, U. Wesley, and M. Bosenberg.