PO.CL07.05 · 临床研究

Targeting YAP/TEAD signaling disturbs RNA polymerase II activity and enhances immunotherapy response via activated cytosolic DNA sensing pathway in gastroesophageal cancer

海报缩略图:Targeting YAP/TEAD signaling disturbs RNA polymerase II activity and enhances immunotherapy response via activated cytosolic DNA sensing pathway in gastroesophageal cancer
编号 2663 展板 15 时间 4/20 09:00–12:00 区域 Section 49 主讲 Yanting Zhang, PhD
分会场 Targeted Antigen Therapies and Immunity
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作者与单位

Yanting Yann Zhang1, Ayna Mammedova1, Dipti Athavale1, Curt Balch1, Mikel Ghelfi1, Xiaodan Yao1, Gennaro Calendo1, Songjie Liu1, David Pulipati1, Yahui Li2, Xiaoxin Chen1, Francis Spitz2, Generosa Grana2, Vladimir Khazak3, Shumei Song1

1Coriell Institute for Medical Research, Camden, NJ,2Cooper University Hospital, Camden, NJ,3NexusPharma Inc, Hamilton, NJ

摘要 Abstract

Gastroesophageal adenocarcinoma (GEAC) is a significant global cancer burden. Our previous studies demonstrated that YAP/TEAD are highly expressed in GEAC, and play a critical role in tumor progression, therapy resistance and metastasis. Thus, targeting YAP/TEAD signaling presents a promising therapeutic strategy. Here, we tested a novel YAP/TEAD inhibitor VT00278, a chemical analog of CA3, and showed that VT00278 strongly downregulated YAP/TEAD transcriptional activity, and potently suppressed tumor-promoting phenotypes including proliferation, invasion, tumor sphere formation; induced apoptosis and inhibited tumor growth in vivo especially in radiation resistant FLO-1 XTR GEAC cells. Mechanistically, in addition to impairing YAP/TEAD signaling, VT00278 or YAP depletion repressed RNA polymerase II (RNAPII) transcriptional regulators, reduced RNAPII S2 phosphorylation and decreased anti-apoptosis MCL-1 expression. More interestingly, VT00278 strongly induced DNA damage, activated cytosolic DNA sensing pathway, upregulated innate immune genes (e.g., INFbeta) and PD-L1 expression. In a syngeneic mouse model, combining VT00278 with anti-PD-1 therapy strongly inhibited tumor growth, increased CD3 + and CD8 + T cell infiltration, and induced the production of INFgamma from CD3 and CD8 cells. These findings support VT00278 as a promising candidate for GEAC treatment, either alone or in combination with immunotherapy.
利益披露 Disclosure
Y. Y. Zhang, None.. A. Mammedova, None.. D. Athavale, None.. C. Balch, None.. M. Ghelfi, None.. X. Yao, None.. G. Calendo, None.. S. Liu, None.. D. Pulipati, None.. Y. Li, None.. X. Chen, None.. F. Spitz, None.. G. Grana, None.. V. Khazak, None.. S. Song, None.

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