Mutant p53 induces a hypoxia transcriptional program in gastric and esophageal adenocarcinoma
Nilay Sethi, Osamu Kikuchi, James McFarland, Yanxi Zhang, Max Chung, Nicholas Kafker, Mirazul Islam, Benjamin Lampson, Abhishek Chakraborty, William G. Kaelin Jr., Adam J. Bass
Nilay Sethi, Osamu Kikuchi, James McFarland, Yanxi Zhang, Max Chung, Nicholas Kafker, Mirazul Islam, Benjamin Lampson, Abhishek Chakraborty, William G. Kaelin Jr., Adam J. Bass
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Research Article Oncology

Mutant p53 induces a hypoxia transcriptional program in gastric and esophageal adenocarcinoma

Abstract

Despite the propensity for gastric and esophageal adenocarcinomas to select for recurrent missense mutations in TP53, the precise functional consequence of these mutations remains unclear. Here we report that endogenous mRNA and protein levels of mutant p53 were elevated in cell lines and patients with gastric and esophageal cancer. Functional studies showed that mutant p53 was sufficient, but not necessary, for enhancing primary tumor growth in vivo. Unbiased genome-wide transcriptome analysis revealed that hypoxia signaling was induced by mutant p53 in 2 gastric cancer cell lines. Using real-time in vivo imaging, we confirmed that hypoxia reporter activity was elevated during the initiation of mutant p53 gastric cancer xenografts. Further investigation revealed that, like mutant p53, the HIF1/ARNT hypoxia pathway was not required for the primary tumor functions of advanced mutant p53 gastric cancer. These findings indicate that recurrent p53 mutations in gastroesophageal adenocarcinoma are unlikely to serve as effective therapeutic targets in advanced cancer. However, in elucidating the contribution of missense mutant p53 and hypoxia signaling, the results suggest hypotheses regarding how these recurrent genomic events may contribute to gastric and esophageal adenocarcinoma formation.

Authors

Nilay Sethi, Osamu Kikuchi, James McFarland, Yanxi Zhang, Max Chung, Nicholas Kafker, Mirazul Islam, Benjamin Lampson, Abhishek Chakraborty, William G. Kaelin Jr., Adam J. Bass

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Figure 3

Enforced expression of mutant p53 in 2 gastric adenocarcinoma cell lines confers a growth advantage.

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Enforced expression of mutant p53 in 2 gastric adenocarcinoma cell lines...
(A) Proliferation of control (sgRNA con + GFP), p53-KO (p53 sg#1 + GFP), and p53 KO-R175H′ rescue (p53 sg#1 + R175H′) LMSU cells using a firefly luciferase assay (Fluc; top panel) and CellTiter-Glo (CTG; bottom panel). **P ≤ 0.001. (B) Low-attachment and soft agar colony formation assays of control, p53-KO, and p53 KO-R175H′ rescue LMSU cells. (C) Quantification of low-attachment colony formation assay described in B. (D) Primary tumor growth of flank xenografts of control, p53 KO, and p53 KO-R175H′ rescue LMSU cells at 6 weeks. P values were calculated by Student’s t test. (E) p53 IHC of xenografts described in D at the endpoint. (F) Immunoblot showing expression of GFP control or indicated mutant p53 in the genetically engineered HGC27 gastric cancer line (p53 null). (G) Quantification of soft agar colonies of HGC27 gastric cancer cell line expressing GFP control or the indicated p53 mutant. P value was calculated by 1-way ANOVA. (H) Crystal violet, dissection microscope, and phase-contrast images of soft agar colonies of the HGC27 gastric cancer cell line expressing GFP control or the indicated p53 mutant. All data are mean ± SD.