Immune checkpoint blockade therapies(ICBs)are a prominent breakthrough in cancer immunotherapy in recent years(named the 2013“Breakthrough of the Year”by the Science magazine).Thus far,FDA-approved ICBs primarily ta...Immune checkpoint blockade therapies(ICBs)are a prominent breakthrough in cancer immunotherapy in recent years(named the 2013“Breakthrough of the Year”by the Science magazine).Thus far,FDA-approved ICBs primarily target immune checkpoints CTLA-4,PD-1,and PD-L1.Notwithstanding their impressive long-term therapeutic benefits,their efficacy is limited to a small subset of cancer patients.In addition,ICBs induce inadvertent immune-related adverse events(irAEs)and can be costly for long-term use.To overcome these limitations,two strategies are actively being pursued:identification of predictive biomarkers for clinical response to ICBs and multi-pronged combination therapies.Biomarkers will allow clinicians to practice a precision medicine approach in ICBs(biomarker-based patient selection)such as treating triple-negative breast cancer patients that exhibit PD-L1 staining of tumor-infiltrating immune cells in1%of the tumor area with nanoparticle albumin-bound(nab)epaclitaxel plus anti-PD-L1 and treating patients of MSI-H or MMR deficient unresectable or metastatic solid tumors with pembrolizumab(anti-PD-1).Importantly,the insights gained from these biomarker studies can guide rational combinatorial strategies such as CDK4/6 inhibitor/fractionated radiotherapy/HDACi in conjunction with ICBs to maximize therapeutic benefits.Further,with the rapid technological advents(e.g.,ATCT-Seq),we predict more reliable biomarkers will be identified,which in turn will inspire more promising combination therapies.展开更多
基金Work in our lab has been funded by the V Foundation Scholar Award(V2018-023)ACS-IRG(91-022-19)R21(1R21CA230475-01A1)to L.S.All authors contributed to writing.L.S.was responsible for the overall construction and final editing of this manuscript.
文摘Immune checkpoint blockade therapies(ICBs)are a prominent breakthrough in cancer immunotherapy in recent years(named the 2013“Breakthrough of the Year”by the Science magazine).Thus far,FDA-approved ICBs primarily target immune checkpoints CTLA-4,PD-1,and PD-L1.Notwithstanding their impressive long-term therapeutic benefits,their efficacy is limited to a small subset of cancer patients.In addition,ICBs induce inadvertent immune-related adverse events(irAEs)and can be costly for long-term use.To overcome these limitations,two strategies are actively being pursued:identification of predictive biomarkers for clinical response to ICBs and multi-pronged combination therapies.Biomarkers will allow clinicians to practice a precision medicine approach in ICBs(biomarker-based patient selection)such as treating triple-negative breast cancer patients that exhibit PD-L1 staining of tumor-infiltrating immune cells in1%of the tumor area with nanoparticle albumin-bound(nab)epaclitaxel plus anti-PD-L1 and treating patients of MSI-H or MMR deficient unresectable or metastatic solid tumors with pembrolizumab(anti-PD-1).Importantly,the insights gained from these biomarker studies can guide rational combinatorial strategies such as CDK4/6 inhibitor/fractionated radiotherapy/HDACi in conjunction with ICBs to maximize therapeutic benefits.Further,with the rapid technological advents(e.g.,ATCT-Seq),we predict more reliable biomarkers will be identified,which in turn will inspire more promising combination therapies.