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GRAIL1 stabilizes misfolded mutant p53 through a ubiquitin ligase-independent, chaperone regulatory function.

Paramita RaySangeeta JaiswalDaysha Ferrer-TorresZhuwen WangDerek NancarrowMeghan C CurtinMay San MartinhoShannon M LacySrimathi KasturiranganDafydd G ThomasJason R SpenceMatthias C TruttmannKiran H LagisettyTheodore S LawrenceThomas D WangDavid G BeerDipankar Ray
Published in: Molecular cancer research : MCR (2024)
Frequent (>70%) TP53 mutations often promote its protein stabilization, driving esophageal adenocarcinoma (EAC) development linked to poor survival and therapy resistance. We previously reported that during Barrett's (BE) progression to EAC, an isoform switch occurs in the E3 ubiquitin ligase RNF128 (aka GRAIL - gene related to anergy in lymphocytes), enriching isoform 1 (hereby GRAIL1) and, stabilizing the mutant p53 protein. Consequently, GRAIL1 knockdown degrades mutant p53. But how GRAIL1 stabilizes the mutant p53 protein remains unclear. In search for a mechanism, here we performed biochemical and cell biology studies to identify that GRAIL has a binding domain (315-PMCKCDILKA-325) for Hsp40/DNAJ. This interaction can influence DNAJ chaperone activity to modulate misfolded mutant p53 stability. As predicted, either the overexpression of a GRAIL fragment (Frag-J) encompassing the DNAJ binding domain, or a cell permeable peptide (Pep-J) encoding the above 10 amino acids, can bind and inhibit DNAJ-Hsp70 co-chaperone activity thus degrading misfolded mutant p53. Consequently, either Frag-J or Pep-J can reduce the survival of mutant p53 containing dysplastic BE and EAC cells and inhibit growth of patient-derived dysplastic BE organoids (PDOs) in 3D cultures. The misfolded mutant p53 targeting and growth inhibitory effects of Pep-J is comparable to simvastatin, a cholesterol lowering drug, that can degrade misfolded mutant p53 also via inhibiting DNAJA1, although by a distinct mechanism. Implications: We identified a novel ubiquitin ligase independent, chaperone regulating domain in GRAIL and further synthesized a first-in-class novel misfolded mutant p53 degrading peptide having future translational potential.
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