Lethality of Drosophila lacking TSC tumor suppressor function rescued by reducing dS6K signaling
T Radimerski, J Montagne… - Genes & …, 2002 - genesdev.cshlp.org
T Radimerski, J Montagne, M Hemmings-Mieszczak, G Thomas
Genes & development, 2002•genesdev.cshlp.orgTuberous sclerosis complex (TSC) is a genetic disorder caused by mutations in one of two
tumor suppressor genes, TSC1 and TSC2. Here, we show that absence of Drosophila
Tsc1/2 leads to constitutive dS6K activation and inhibition of dPKB, the latter effect being
relieved by loss of dS6K. In contrast, the dPTEN tumor suppressor, a negative effector of
PI3K, has little effect on dS6K, but negatively regulates dPKB. More importantly, we
demonstrate that reducing dS6K signaling rescues early larval lethality associated with loss …
tumor suppressor genes, TSC1 and TSC2. Here, we show that absence of Drosophila
Tsc1/2 leads to constitutive dS6K activation and inhibition of dPKB, the latter effect being
relieved by loss of dS6K. In contrast, the dPTEN tumor suppressor, a negative effector of
PI3K, has little effect on dS6K, but negatively regulates dPKB. More importantly, we
demonstrate that reducing dS6K signaling rescues early larval lethality associated with loss …
Tuberous sclerosis complex (TSC) is a genetic disorder caused by mutations in one of two tumor suppressor genes, TSC1 andTSC2. Here, we show that absence of Drosophila Tsc1/2 leads to constitutive dS6K activation and inhibition of dPKB, the latter effect being relieved by loss of dS6K. In contrast, the dPTEN tumor suppressor, a negative effector of PI3K, has little effect on dS6K, but negatively regulates dPKB. More importantly, we demonstrate that reducing dS6K signaling rescues early larval lethality associated with loss of dTsc1/2 function, arguing that the S6K pathway is a promising target for the treatment of TSC.
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