Browsing by Author "Huang, Tianhe"

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    Effective combinatorial immunotherapy for penile squamous cell carcinoma
    (Springer Nature, 2020-05-01) Huang, Tianhe; Cheng, Xi; Chahoud, Jad; Sarhan, Ahmed; Tamboli, Pheroze; Rao, Priya; Guo, Ming; Manyam, Ganiraju; Zhang, Li; Xiang, Yu; Han, Leng; Shang, Xiaoying; Deng, Pingna; Luo, Yanting; Lu, Xuemin; Feng, Shan; Ferrer, Magaly Martinez; Wang, Y. Alan; DePinho, Ronald A.; Pettaway, Curtis A.; Lu, Xin; Medicine, School of Medicine
    Penile squamous cell carcinoma (PSCC) accounts for over 95% of penile malignancies and causes significant mortality and morbidity in developing countries. Molecular mechanisms and therapies of PSCC are understudied, owing to scarcity of laboratory models. Herein, we describe a genetically engineered mouse model of PSCC, by co-deletion of Smad4 and Apc in the androgen-responsive epithelium of the penis. Mouse PSCC fosters an immunosuppressive microenvironment with myeloid-derived suppressor cells (MDSCs) as a dominant population. Preclinical trials in the model demonstrate synergistic efficacy of immune checkpoint blockade with the MDSC-diminishing drugs cabozantinib or celecoxib. A critical clinical problem of PSCC is chemoresistance to cisplatin, which is induced by Pten deficiency on the backdrop of Smad4/Apc co-deletion. Drug screen studies informed by targeted proteomics identify a few potential therapeutic strategies for PSCC. Our studies have established what we believe to be essential resources for studying PSCC biology and developing therapeutic strategies.
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    Targeting the chromatin effector Pygo2 promotes cytotoxic T cell responses and overcomes immunotherapy resistance in prostate cancer
    (American Association for the Advancement of Science, 2023) Zhu, Yini; Zhao, Yun; Wen, Jiling; Liu, Sheng; Huang, Tianhe; Hatial, Ishita; Peng, Xiaoxia; Al Janabi, Hawraa; Huang, Gang; Mittlesteadt, Jackson; Cheng, Michael; Bhardwaj, Atul; Ashfeld, Brandon L.; Kao, Kenneth R.; Maeda, Dean Y.; Dai, Xing; Wiest, Olaf; Blagg, Brian S. J.; Lu, Xuemin; Cheng, Liang; Wan, Jun; Lu, Xin; Medical and Molecular Genetics, School of Medicine
    The noninflamed microenvironment in prostate cancer represents a barrier to immunotherapy. Genetic alterations underlying cancer cell-intrinsic oncogenic signaling are increasingly appreciated for their role in shaping the immune landscape. Recently, we identified Pygopus 2 (PYGO2) as the driver oncogene for the amplicon at 1q21.3 in prostate cancer. Here, using transgenic mouse models of metastatic prostate adenocarcinoma, we found that Pygo2 deletion decelerated tumor progression, diminished metastases, and extended survival. Pygo2 loss augmented the activation and infiltration of cytotoxic T lymphocytes (CTLs) and sensitized tumor cells to T cell killing. Mechanistically, Pygo2 orchestrated a p53/Sp1/Kit/Ido1 signaling network to foster a microenvironment hostile to CTLs. Genetic or pharmacological inhibition of Pygo2 enhanced the antitumor efficacy of immunotherapies using immune checkpoint blockade (ICB), adoptive cell transfer, or agents inhibiting myeloid-derived suppressor cells. In human prostate cancer samples, Pygo2 expression was inversely correlated with the infiltration of CD8+ T cells. Analysis of the ICB clinical data showed association between high PYGO2 level and worse outcome. Together, our results highlight a potential path to improve immunotherapy using Pygo2-targeted therapy for advanced prostate cancer.