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AMOTL2 mono-ubiquitination by WWP1 promotes contact inhibition by facilitating LATS activation.

Daehee HwangMiju KimSoyeon KimMi Ra KwonYe-Seul KangDahyun KimHo-Chul KangDae-Sik Lim
Published in: Life science alliance (2021)
Contact inhibition is a key cellular phenomenon that prevents cells from hyper-proliferating upon reaching confluence. Although not fully characterized, a critical driver of this process is the Hippo signaling pathway, whose downstream effector yes-associated protein plays pivotal roles in cell growth and differentiation. Here, we provide evidence that the E3 ligase WWP1 (WW-domain containing protein 1) mono-ubiquitinates AMOTL2 (angiomotin-like 2) at K347 and K408. Mono-ubiquitinated AMOTL2, in turn, interacts with the kinase LATS2, which facilitates recruitment of the upstream Hippo pathway component SAV1 and ultimately promotes yes-associated protein phosphorylation and subsequent cytoplasmic sequestration and/or degradation. Furthermore, contact inhibition induced by high cell density promoted the localization and stabilization of WWP1 at cell junctions, where it interacted with Crumbs polarity proteins. Notably, the Crumbs complex was functionally important for AMOTL2 mono-ubiquitination and LATS activation under high cell density conditions. These findings delineate a functionally important molecular mechanism in which AMOTL2 mono-ubiquitination by WWP1 at cell junctions and LATS activation are tightly coupled to upstream cell density cues.
Keyphrases
  • single cell
  • cell therapy
  • signaling pathway
  • single molecule
  • oxidative stress
  • immune response
  • regulatory t cells
  • mouse model
  • cell proliferation
  • endoplasmic reticulum stress