PATZ1 induces PP4R2 to form a negative feedback loop on IKK/ NF-κB signaling in lung cancer
Activation of IKK enhances NF-κB signaling to facilitate cancer cell migration,
invasion and metastasis. Here, we uncover the existence of a negative feedback loop
of IKK. The transcription factor PATZ1 induces protein phosphatase-4 (PP4) regulatory
subunit 2 (PP4R2) in an IKK-dependent manner. PP4R2 enhances the binding of PP4
to phosphorylated IKK to inactivate IKK/NF-κB signaling during sustained stimulation
by cellular stimuli such as growth factors and inflammatory mediators. Matched
pair studies reveal that primary lung cancers express more PATZ1 and PP4R2 than
lymph node metastases in patients. Ectopic PATZ1 decreases invasion/colonization
of lung cancers and prolongs the survival of xenograft mice. These effects of PATZ1
are reversed by downregulating PP4R2. Our results suggest that PATZ1 and PP4R2
provide negative feedback on IKK/NF-κB signaling to prevent cancer cells from
over-stimulation from cellular stimuli; a decline in PATZ1 and PP4R2 is functionally
associated with cancer migration/invasion and agents enhancing PATZ1 and PP4R2
are worth exploring to prevent invasion/metastasis of lung cancers.