Abstract
Toward the goal of generating a mouse medulloblastoma model with increased tumor incidence, we developed a homozygous version of our ND2:SmoA1 model. Medulloblastomas form in 94% of homozygous Smo/Smo mice by 2 months of age. Tumor formation is, thus, predictable by age, before the symptomatic appearance of larger lesions. This high incidence and early onset of tumors is ideal for preclinical studies because mice can be enrolled before symptom onset and with a greater latency period before late-stage disease. Smo/Smo tumors also display leptomeningeal dissemination of neoplastic cells to the brain and spine, which occurs in many human cases. Despite an extended proliferation of granule neuron precursors (GNP) in the postnatal external granular layer (EGL), the internal granular layer formed normally in Smo/Smo mice and tumor formation occurred only in localized foci on the superficial surface of the molecular layer. Thus, tumor formation is not simply the result of over proliferation of GNPs within the EGL. Moreover, Smo/Smo medulloblastomas were transplantable and serially passaged in vivo, demonstrating the aggressiveness of tumor cells and their transformation beyond a hyperplastic state. The Smo/Smo model is the first mouse medulloblastoma model to show leptomeningeal spread. The adherence to human pathology, high incidence, and early onset of tumors thus make Smo/Smo mice an efficient model for preclinical studies.
Highlights
Medulloblastomas are the most common nervous system malignancy in children
Medulloblastomas are generally thought to derive, at least in part, from primitive neuroepithelial cells on the roof of the fourth ventricle. These precursor cells migrate over the cerebellar surface to form the external granular layer (EGL) and migrate inward to form the internal granular layer (IGL)
Migration occurs during the formation and growth of the cerebellar folia [1], a process that is complete by f12 months of age in humans [2] and by postnatal day 21 (P21) in mice [3]
Summary
Medulloblastomas are generally thought to derive, at least in part, from primitive neuroepithelial cells on the roof of the fourth ventricle. During development, these precursor cells migrate over the cerebellar surface to form the external granular layer (EGL) and migrate inward to form the internal granular layer (IGL). Migration occurs during the formation and growth of the cerebellar folia [1], a process that is complete by f12 months of age in humans [2] and by postnatal day 21 (P21) in mice [3]. Note: Supplementary data for this article are available at Cancer Research Online (http://cancerres.aacrjournals.org/).
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