Abstract
Neuroblastoma is a pediatric malignancy of the sympathetic ganglia and adrenal glands, hypothesized to originate from progenitors of the developing sympathetic nervous system. Amplification of the MYCN oncogene is a genetic marker of risk in this disease. Understanding the impact of oncogene expression on sympathoadrenal progenitor development may improve our knowledge of neuroblastoma initiation and progression. We isolated sympathoadrenal progenitor cells from the postnatal murine adrenal gland by sphere culture and found them to be multipotent, generating differentiated colonies of neurons, Schwann cells, and myofibroblasts. MYCN overexpression in spheres promoted commitment to the neural lineage, evidenced by an increased frequency of neuron-containing colonies. MYCN promoted proliferation of both sympathoadrenal progenitor spheres and differentiated neurons derived from these spheres, but there was also an increase in apoptosis. The proliferation, apoptosis, and neural lineage commitment induced by MYCN are tumor-like characteristics and thereby support the hypothesis that multipotent adrenal medullary progenitor cells are cells of origin for neuroblastoma. We find, however, that MYCN overexpression is not sufficient for these cells to form tumors in nude mice, suggesting that additional transforming mutations are necessary for tumorigenesis.
Highlights
Neuroblastoma is the most common cancer in infants and the most common extracranial tumor of childhood [1,2]
Sox10 expression was higher in sympathetic ganglia, where it is expressed by mature glial cells
Expression of the sympathoadrenal progenitor cells (SAPs) genes Ascl1 and Phox2b was greater in spheres, while the sympathetic neuron (SN) markers TrkA and Peripherin were more highly expressed by superior cervical ganglion (SCG)
Summary
Neuroblastoma is the most common cancer in infants and the most common extracranial tumor of childhood [1,2]. Neuroblastomas arise from the developing sympathetic nervous system, with half of tumors originating in the adrenal medulla, and the remainder arising in PLOS ONE | DOI:10.1371/journal.pone.0133897 July 29, 2015
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