mTOR signaling in neural stem cells: from basic biology to disease

L Magri, R Galli - Cellular and molecular life sciences, 2013 - Springer
L Magri, R Galli
Cellular and molecular life sciences, 2013Springer
The mammalian target of rapamycin (mTOR) pathway is a central controller of growth and
homeostasis, and, as such, is implicated in disease states where growth is deregulated,
namely cancer, metabolic diseases, and hamartoma syndromes like tuberous sclerosis
complex (TSC). Accordingly, mTOR is also a pivotal regulator of the homeostasis of several
distinct stem cell pools in which it finely tunes the balance between stem cell self-renewal
and differentiation. mTOR hyperactivation in neural stem cells (NSCs) has been etiologically …
Abstract
The mammalian target of rapamycin (mTOR) pathway is a central controller of growth and homeostasis, and, as such, is implicated in disease states where growth is deregulated, namely cancer, metabolic diseases, and hamartoma syndromes like tuberous sclerosis complex (TSC). Accordingly, mTOR is also a pivotal regulator of the homeostasis of several distinct stem cell pools in which it finely tunes the balance between stem cell self-renewal and differentiation. mTOR hyperactivation in neural stem cells (NSCs) has been etiologically linked to the development of TSC-associated neurological lesions, such as brain hamartomas and benign tumors. Animal models generated by deletion of mTOR upstream regulators in different types of NSCs reproduce faithfully some of the TSC neurological alterations. Thus, mTOR dysregulation in NSCs seems to be responsible for the derangement of their homeostasis, thus leading to TSC development. Here we review recent advances in the molecular dissection of the mTOR cascade, its involvement in the maintenance of stem cell compartments, and in particular the implications of mTOR hyperactivation in NSCs in vivo and in vitro.
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