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Akt Is Controlled by Bag5 through a Monoubiquitination to Polyubiquitination Switch.

Ismael Bracho-ValdésRodolfo Daniel Cervantes-VillagranaYarely Mabell Beltrán-NavarroAdán Olguín-OlguínEstanislao Escobar-IslasJorge Carretero-OrtegaJesus Alberto Olivares-ReyesGuadalupe Reyes-CruzJ Silvio GutkindJosé Vázquez-Prado
Published in: International journal of molecular sciences (2023)
The serine-threonine kinase Akt plays a fundamental role in cell survival, metabolism, proliferation, and migration. To keep these essential processes under control, Akt activity and stability must be tightly regulated; otherwise, life-threatening conditions might prevail. Although it is well understood that phosphorylation regulates Akt activity, much remains to be known about how its stability is maintained. Here, we characterize BAG5, a chaperone regulator, as a novel Akt-interactor and substrate that attenuates Akt stability together with Hsp70. BAG5 switches monoubiquitination to polyubiquitination of Akt and increases its degradation caused by Hsp90 inhibition and Hsp70 overexpression. Akt interacts with BAG5 at the linker region that joins the first and second BAG domains and phosphorylates the first BAG domain. The Akt-BAG5 complex is formed in serum-starved conditions and dissociates in response to HGF, coincident with BAG5 phosphorylation. BAG5 knockdown attenuated Akt degradation and facilitated its activation, whereas the opposite effect was caused by BAG5 overexpression. Altogether, our results indicate that Akt stability and signaling are dynamically regulated by BAG5, depending on growth factor availability.
Keyphrases
  • cell proliferation
  • signaling pathway
  • growth factor
  • heat shock protein
  • protein kinase
  • heat shock
  • oxidative stress
  • tyrosine kinase
  • endoplasmic reticulum