Tonaye Hinton scite author profile

Tonaye Hinton

3Publications

69Citation Statements Received

254Citation Statements Given

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University of Michigan–Ann Arbor

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Isoforms of RNF128 Regulate the Stability of Mutant P53 in Barrett's Esophageal Cells

Ray

Ferrer-Torres

et al. 2020

Gastroenterology

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BACKGROUND & AIMS: Barrett's esophagus (BE) can progress to dysplasia and esophageal adenocarcinoma (EAC), accompanied by mutations in TP53 that increase the stability of its product, p53. We analyzed BE tissues for messenger RNAs (mRNAs) that associate with BE progression and identified one that affects the stabilization of p53. METHODS:We obtained 54 BE samples collected from patients with high-grade dysplasia (HGD) or esophageal adenocarcinoma (EAC), from 1992 through 2015, and performed RNA sequence analyses, including isoform-specific analyses. We performed reverse-transcription polymerase chain reaction analyses of 166 samples and immunohistochemical analyses of tissue microarrays that contained BE tissues from 100 patients with HGD or EAC and normal esophageal squamous mucosa (controls). Proteins were expressed from transfected plasmids or knocked down with small interfering RNAs in BE cells and analyzed by immunoblots and in immunoprecipitation and ubiquitin ligase assays. Athymic nude mice bearing EAC xenograft tumors (grown from OE-33 cells) were given intraperitoneal injections of simvastatin; tumor growth was monitored and tumors were collected and analyzed by immunoblotting for levels of RNF128, p53, and acetylated p53.

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Improved prediction of radiation pneumonitis by combining biological and radiobiological parameters using a data-driven Bayesian network analysis

Hinton

Karnak

Tang

et al. 2022

Translational Oncology

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UBCH5 Family Members Differentially Impact Stabilization of Mutant p53 via RNF128 Iso1 During Barrett’s Progression to Esophageal Adenocarcinoma

Ray¹,

Nancarrow²,

Ferrer-Torres³

et al. 2022

Cellular and Molecular Gastroenterology and Hepatology

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TP53 mutations underlie Barrett's esophagus progression to dysplasia and cancer. Loss of UBCH5C but maintained UBCH5A expression cooperates with RNF128 RNF128 isoform Q9 201 to protect mutant p53. Thus, targeting RNF128 isoform 201 UBCH5A to destabilize mutant p53 may provide a therapeutic advantage. BACKGROUND & AIMS: TP53Q10 mutations underlie Barrett's esophagus (BE) progression to dysplasia and cancer. During BE progression, the ubiquitin ligase (E3) RNF128/GRAIL switches expression from isoform 2 (Iso2) to Iso1, stabilizing mutant p53. However, the ubiquitin-conjugating enzyme (E2) that partners with Iso1 to stabilize mutant p53 is unknown.METHODS: Single-cell RNA sequencing of paired normal esophagus and BE tissues identified candidate E2s, further investigated in expression data from BE to esophageal adenocarcinoma (EAC) progression samples. Biochemical and cellular studies helped clarify the role of RNF128-E2 on mutant p53 stability. RESULTS:The UBE2D family member 2D3 (UBCH5C) is the most abundant E2 in normal esophagus. However, during BE to EAC progression, loss of UBE2D3 copy number and reduced expression of RNF128 Iso2 were noted, 2 known p53 degraders. In contrast, expression of UBE2D1 (UBCH5A) and RNF128 Iso1 in dysplastic BE and EAC forms an inactive E2-E3 complex, stabilizing mutant p53. To destabilize mutant p53, we targeted RNF128 Iso1 either by mutating asparagine (N48, 59, and 101) residues to block glycosylation to facilitate b-TrCP1-mediated degradation or by mutating proline (P54 and 105) residues to restore p53 polyubiquitinating ability. In addition, either loss of UBCH5A catalytic activity, or disruption of the Iso1-UBCH5A interaction promoted Iso1 loss. Consequently, overexpression of either catalytically dead or Iso1-binding-deficient UBCH5A mutants destabilized Iso1 to degrade mutant p53, thus compromising the clonogenic survival of mutant p53-dependent BE cells. CONCLUSIONS:Loss of RNF128 Iso2-UBCH5C and persistence of the Iso1-UBCH5A complex favors mutant p53 stability to promote BE cell survival. Therefore, targeting of Iso1-UBCH5A may provide a novel therapeutic strategy to prevent BE progression.

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Tonaye Hinton

Isoforms of RNF128 Regulate the Stability of Mutant P53 in Barrett's Esophageal Cells

Improved prediction of radiation pneumonitis by combining biological and radiobiological parameters using a data-driven Bayesian network analysis

UBCH5 Family Members Differentially Impact Stabilization of Mutant p53 via RNF128 Iso1 During Barrett’s Progression to Esophageal Adenocarcinoma

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