Yuan-Ming Song1,2,3,4, Xiao-Long Qian1,2,3,4, Xiao-Qing Xia1,2,3,4, Ya-Qing Li1,2,3,4, Yuan-Yuan Sun1,2,3,4, Yu-Mian Jia1,2,3,4, Jin Wang1,2,3,4, Hui-Qin Xue1,2,3,4, Guang-Shen Gao1,2,3,4, Xiao-Zi Wang1,2,3,4, Xin-Min Zhang5, Xiao-Jing Guo6,7,8,9. 1. Department of Breast Pathology and Lab, National Clinical Research Center of Cancer, Tianjin Medical University Cancer Institute and Hospital, West Huanhu Road, Tianjin, 300060, China. 2. Key Laboratory of Cancer Prevention and Therapy, Tianjin, 300060, China. 3. Tianjin's Clinical Research Center for Cancer, Tianjin, 300060, China. 4. Key Laboratory of Breast Cancer Prevention and Therapy, Ministry of Education, National Human Genetic Resource Sharing Service Platform, Tianjin Medical University, Tianjin, 300060, China. 5. Department of Pathology, Cooper Medical School of Rowan University, Camden, NJ, USA. 6. Department of Breast Pathology and Lab, National Clinical Research Center of Cancer, Tianjin Medical University Cancer Institute and Hospital, West Huanhu Road, Tianjin, 300060, China. guoxiaojing@tjmuch.com. 7. Key Laboratory of Cancer Prevention and Therapy, Tianjin, 300060, China. guoxiaojing@tjmuch.com. 8. Tianjin's Clinical Research Center for Cancer, Tianjin, 300060, China. guoxiaojing@tjmuch.com. 9. Key Laboratory of Breast Cancer Prevention and Therapy, Ministry of Education, National Human Genetic Resource Sharing Service Platform, Tianjin Medical University, Tianjin, 300060, China. guoxiaojing@tjmuch.com.
Abstract
INTRODUCTION: Triple-negative breast cancer (TNBC) is known for its aggressive behaviors and lacking of effective treatment. Programmed cell death ligand-1 (PD-L1) inhibitor has just been approved for using in the management of advanced TNBC. To accurately screen TNBC sensitive to anti-PD-L1 treatment and to explore the feasibility of the ataxia-telangiectasia mutation protein (ATM) inhibitor combined with PD-L1 inhibitor, radiotherapy and chemotherapy, we focus on whether ATM participates in the regulation of PD-L1 and affects the prognosis of patients through c-Src, signal transducer and activator of transcription 1&3 (STAT1 and STAT3). MATERIALS AND METHODS: We used immunohistochemical staining to explore the relationship of ATM with c-Src, STAT1, STAT3, PD-1/PD-L1, Tumor-infiltrating lymphocytes (TILs), as well as other clinicopathologic features in 86 pathological stage III TNBCs. Their impact on prognosis was also explored. RESULTS: We found ATM expression was negatively correlated with STAT1, STAT3, PD-L1, TILs and CD8 + cells in TNBC. STAT1 positively correlated the expression of PD-L1. In TNBC with ATM low expression, STAT3 was an independent factor for improved prognosis, while PD-L1 was an independent negative prognostic factor. Furthermore, in low ATM group, the phosphorylation of tyrosine at position 419 of c-Src (p-c-src Y419) was correlated with the overexpression of STAT3. CONCLUSION: Locally advanced TNBC with low ATM expression may be more likely to benefit from anti-PD-L1 inhibitors. The feasibility of ATM functional inhibitor combined with immune checkpoint blockade therapies in the treatment of TNBC is also worthy of further exploration. Our study suggests that STAT3 has different impacts on tumor progression in different tumors.
INTRODUCTION: Triple-negative breast cancer (TNBC) is known for its aggressive behaviors and lacking of effective treatment. Programmed cell death ligand-1 (PD-L1) inhibitor has just been approved for using in the management of advanced TNBC. To accurately screen TNBC sensitive to anti-PD-L1 treatment and to explore the feasibility of the ataxia-telangiectasia mutation protein (ATM) inhibitor combined with PD-L1 inhibitor, radiotherapy and chemotherapy, we focus on whether ATM participates in the regulation of PD-L1 and affects the prognosis of patients through c-Src, signal transducer and activator of transcription 1&3 (STAT1 and STAT3). MATERIALS AND METHODS: We used immunohistochemical staining to explore the relationship of ATM with c-Src, STAT1, STAT3, PD-1/PD-L1, Tumor-infiltrating lymphocytes (TILs), as well as other clinicopathologic features in 86 pathological stage III TNBCs. Their impact on prognosis was also explored. RESULTS: We found ATM expression was negatively correlated with STAT1, STAT3, PD-L1, TILs and CD8 + cells in TNBC. STAT1 positively correlated the expression of PD-L1. In TNBC with ATM low expression, STAT3 was an independent factor for improved prognosis, while PD-L1 was an independent negative prognostic factor. Furthermore, in low ATM group, the phosphorylation of tyrosine at position 419 of c-Src (p-c-src Y419) was correlated with the overexpression of STAT3. CONCLUSION: Locally advanced TNBC with low ATM expression may be more likely to benefit from anti-PD-L1 inhibitors. The feasibility of ATM functional inhibitor combined with immune checkpoint blockade therapies in the treatment of TNBC is also worthy of further exploration. Our study suggests that STAT3 has different impacts on tumor progression in different tumors.
Keywords:
Programmed cell death ligand-1 (PD-L1); STAT3; The ataxia-telangiectasia mutation gene (ATM); Triple-negative breast cancer (TNBC); p-c-src Y419
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