HongYue Lin1, YuZhu Wu2, JinPing Chen3, ShuRong Huang3, YangQiang Wang3. 1. Department of General Surgery, Affiliated Quanzhou First Hospital to Fujian Medical University, Quanzhou, Fujian, 362200, People's Republic of China. linhongyue_fj@163.com. 2. Department of Pharmacology, Second Hospital Affiliated to Fujian Medical University, Quanzhou, Fujian, 362000, People's Republic of China. 3. Department of General Surgery, Affiliated Quanzhou First Hospital to Fujian Medical University, Quanzhou, Fujian, 362200, People's Republic of China.
Abstract
PURPOSE: Immunotherapy in the clinic has demonstrated its potential to control cancer through disinhibiting the immune system, especially for immune checkpoint inhibitors such as anti-programmed cell death protein 1/anti-programmed death-ligand 1 (anti-PD1/anti-PD-L1). However, although these new immunotherapies have resulted in durable clinical responses in various cancers, multiple mechanisms of immune resistance and suppression exist in tumors. One significant barrier to efficacy of anti-PD1 against colon cancer may be the recruitment of myeloid-derived suppressor cells (MDSCs) into the tumor microenvironment. Here we demonstrated functional inhibition of G-MDSC with (-)-4-O-(4-O-β-D-glucopyranosylcaffeoyl) quinic acid (QA), an inhibitor of PI3Kδ/γ, reshaped the tumor immune microenvironment and promoted cytotoxic T cell-mediated tumor regression, resultantly enhancing responses to anti-PD1 treatment in colon tumor model. METHODS: A syngeneic colon tumor mouse model was used to study the effects of QA on tumor immune microenvironment and its potential synergistic effects with anti-PD1 blockade. RESULTS: QA treatment inhibited G-MDSC function in the tumor tissue. Additionally, combination treatment induced CD8+ T lymphocyte-dependent tumor growth delay and prolonged survival time in colon cancer. CONCLUSIONS: Our results offered opportunities for new combination strategies using a selective small molecule PI3Kδ/γ inhibitor, to suppress MDSCs to enhance responses to immune checkpoint blockade in colon cancer.
PURPOSE: Immunotherapy in the clinic has demonstrated its potential to control cancer through disinhibiting the immune system, especially for immune checkpoint inhibitors such as anti-programmed cell death protein 1/anti-programmed death-ligand 1 (anti-PD1/anti-PD-L1). However, although these new immunotherapies have resulted in durable clinical responses in various cancers, multiple mechanisms of immune resistance and suppression exist in tumors. One significant barrier to efficacy of anti-PD1 against colon cancer may be the recruitment of myeloid-derived suppressor cells (MDSCs) into the tumor microenvironment. Here we demonstrated functional inhibition of G-MDSC with (-)-4-O-(4-O-β-D-glucopyranosylcaffeoyl) quinic acid (QA), an inhibitor of PI3Kδ/γ, reshaped the tumor immune microenvironment and promoted cytotoxic T cell-mediated tumor regression, resultantly enhancing responses to anti-PD1 treatment in colon tumor model. METHODS: A syngeneic colon tumormouse model was used to study the effects of QA on tumor immune microenvironment and its potential synergistic effects with anti-PD1 blockade. RESULTS:QA treatment inhibited G-MDSC function in the tumor tissue. Additionally, combination treatment induced CD8+ T lymphocyte-dependent tumor growth delay and prolonged survival time in colon cancer. CONCLUSIONS: Our results offered opportunities for new combination strategies using a selective small molecule PI3Kδ/γ inhibitor, to suppress MDSCs to enhance responses to immune checkpoint blockade in colon cancer.
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