Inrecentyears,immunotherapieshavetransformedthetreatmentlandscapeforpatientswithadvancedlung cancer and melanoma, leading to durable responses in a subset of cases but rarely curing patients of the disease.Thesetreatments,inparticular,immunecheckpointinhibitors(ICIs)thatblockinhibitorysignalsonT- cells,likeprogrammedcelldeathprotein1(PD-1),leadtoresponsesin15-20%ofunselectedpatientswithnon- small cell lung cancer (NSCLC) and up to 60% of melanoma patients. On the basis of these studies several immunecheckpointinhibitorshavebeenFDA-approvedforthetreatmentofmetastaticmelanomaandadvanced NSCLC.Increasingnumbersofpatientsarereceivingthesetherapies,howevermanyinitiallybenefitfromthem and eventually develop drug-resistant disease. To date, there is little knowledge of the molecular and cellular mechanismsthatunderlieacquiredresistancetoICIs.Asaresult,effectivetherapeuticstrategiestotreatpatients withICI-resistantdiseasearelacking.Thelong-termgoaloftheresearchproposedhereistoprovidemechanistic insightintoacquiredresistancetoICIsinlungcancerandmelanomaandthuscontributetothedevelopmentof evidence-basedapproachestoovercomeICIresistance. Our group has pioneered approaches to study mechanisms of acquired resistance to ICIs in lung cancer. Moreover, we have optimized methods for the in vivo analysis of resistance to ICIs in immunocompetent lung cancerandmelanomamousemodels.ThesestudieshaverevealedthatimpairedMHCIantigenpresentation playsacentralroleinconferringacquiredresistancetoICIs.Wehypothesizethatmultipledifferentmechanisms including genetic alterations, epigenetic changes and altered immune signaling pathways can lead to downregulation of antigen presentation causing resistance to ICIs. Further, we posit that knowledge of these mechanismsandtheirimmunologicalconsequencescanbeusedtodevisetherapeuticstrategiestoovercome ICI-resistance.Thus,weproposetoleverageouruniqueexperimentalsystemsto:1)Determinehowdefectsin MHC I antigen presentation in ICI-resistant tumors affect the immune landscape, especially natural killer (NK) cellfunction,2)ElucidatethegeneticprocessesthatleadtoimpairedMHCIantigenpresentationinICI-resistant lung cancers and 3) Determine whether epigenetic silencing of genes encoding MHC I APM components can lead to resistance to ICIs. Together, these studies will provide us with a comprehensive understanding of the mechanisms that underlie defects in MHC I antigen presentation in lung tumors and melanomas resistant to immunecheckpointinhibitorsandwillsetthestageforpotentialnewapproachestoovercomethisresistance.

Public Health Relevance

Lung cancer and melanoma are diseases with poor long-term survival rates. Over the past decade new therapies that target the immune system have transformed the treatment landscape for these cancers. However, even for patients who initially respond to these therapies the emergence of resistance is a major problem that limits their curative potential. The goal of this research is to provide insight into the mechanisms that underlie resistance and to provide insight into potential therapeutic strategies to overcome resistance to immunotherapies.

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Research Project (R01)
Project #
3R01CA230275-01A1S1
Application #
9940963
Study Section
Program Officer
Mccarthy, Susan A
Project Start
2019-09-01
Project End
2020-08-31
Budget Start
2019-09-01
Budget End
2020-08-31
Support Year
1
Fiscal Year
2019
Total Cost
Indirect Cost
Name
Yale University
Department
Internal Medicine/Medicine
Type
Schools of Medicine
DUNS #
043207562
City
New Haven
State
CT
Country
United States
Zip Code
06520