Concurrent
activation of RAS/ERK and PI3K/AKT pathways is implicated in prostate cancer
progression. The negative regulators of these pathways, including sprouty2
(SPRY2), protein phosphatase 2A (PP2A), and phosphatase and tensin homolog
(PTEN), are commonly inactivated in prostate cancer. The molecular basis of
cooperation between these genetic alterations is unknown. Here, we show that
SPRY2 deficiency alone triggers activation of AKT and ERK, but this is
insufficient to drive tumorigenesis. In addition to AKT and ERK activation,
SPRY2 loss also activates a PP2A-dependent tumor suppressor checkpoint.
Mechanistically, the PP2A-mediated growth arrest depends on GSK3β and is
ultimately mediated by nuclear PTEN. In murine prostate cancer models, Pten
haploinsufficiency synergized with Spry2 deficiency to drive tumorigenesis,
including metastasis. Together, these results show that loss of Pten cooperates
with Spry2 deficiency by bypassing a novel tumor suppressor checkpoint.
Furthermore, loss of SPRY2 expression correlates strongly with loss of PTEN and/or
PP2A subunits in human prostate cancer. This underlines the cooperation between
SPRY2 deficiency and PTEN or PP2A inactivation in promoting tumorigenesis.
Overall, we propose SPRY2, PTEN, and PP2A status as an important determinant of
prostate cancer progression. Characterization of this trio may facilitate
patient stratification for targeted therapies and chemopreventive
interventions.
Source: Sprouty2, PTEN, and PP2A interact to regulate prostate
cancer progression. Patel R, Gao M, Ahmad I, Fleming J, Singh LB, Rai TS, McKie
AB, Seywright M, Barnetson RJ, Edwards J, Sansom OJ, Leung HY. J Clin Invest.
2013 Feb 22.
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