Abstract 52P
Background
Lung cancer's multiple resistance to tyrosine kinase inhibitors is inexorable and often unexplained in many NSLCs with EGFR mutations or other oncogenes and epigenetic changes. This suggests the need for new treatment strategies.
Methods
We generated second-generation CD28-costimulated EGFR-specific CAR constructs using lentiviral vectors to modify NK92 cells. We evaluated the utility of NK92 cells expressing a CAR-EGFR against TKI-resistant lung cancer cells at a low effector-to-target ratio to allow possible escape or evolution of select lung cancer cells. EGFR expression was analyzed by flow cytometry.
Results
We evaluated the utility of NK92 cells expressing a CAR-EGFR against TKI-resistant lung cancer cells. Our approach used a low effector-to-target ratio to allow possible escape or evolution of select lung cancer cells. We found that Gefitinib-resistant lung cancer cells HCC827GR6 and TKI-sensitive HCC827 are equally attacked by NK92 cells. However, TKI-resistant HCC827GR6 were more sensitive to EGFR-CAR NK cell attacks than parental HCC827. Predictably, EGFR-CAR NK cell attacks led to reduced EGFR expression in HCC827 and growth without increasing resistance to naïve NK92 attacks. However, the EGFR-CAR NK cell attack caused an increase in EGFR expression in gefitinib-resistant HCC827GR6 cells with a slight reduction in growth. This paradoxical increased EGFR protein expression suggests a positive selection of mutant EGFR, reducing their chance of escaping new EGFR-CAR NK cell attacks. Indeed, in co-culture experiments of TKI-sensitive and TKI-resistant cells, the latter were more efficiently eliminated, suggesting the preferential killing of TKI-resistant lung cancer cells by EGFR-CAR NK.
Conclusions
Our data indicate that TKI-resistant lung cancer cells, which evolved to depend on the expression of a mutated EGFR, are targeted more efficiently by EGFR-CAR NK cells than TKI-sensitive cells.
Legal entity responsible for the study
Sumei Chen and Youssef Jounaidi.
Funding
Has not received any funding.
Disclosure
All authors have declared no conflicts of interest.
Resources from the same session
170P - Targeting myeloid cells in non-small cell lung cancer and hepatocellular carcinoma: a window-of-opportunity trial of nivolumab with BMS-813160 (CCR2/5i) or BMS-986253 (anti-IL8)
Presenter: Nicholas Venturini
Session: Poster Display
171P - Immune landscape and CLEVER-1 expression in hepatoblastoma
Presenter: Ville Väyrynen
Session: Poster Display
172P - PLCE1 stabilizes ENO1 to enhance glycolysis in esophageal squamous cell carcinoma (ESCC) and induces an immune-suppressive tumor microenvironment
Presenter: Ju Yang
Session: Poster Display
173P - Depleting resident peritoneal macrophages is an effective treatment for peritoneal metastasized colorectal cancer
Presenter: Job Saris
Session: Poster Display
174P - Targeting SPHK1 in macrophages suppresses liver metastasis of colorectal cancer and decouples anti-tumor immunity from immunotherapy toxicity
Presenter: Yizhi Zhan
Session: Poster Display
175P - MicroRNA-548c: An Immune-Activator microRNA at the Tumor Microenvironment and Immune Milieu of Breast Cancer
Presenter: Alyaa Dawoud
Session: Poster Display
176P - Multiplex-immunoflourescence spatial patterns to predict triple-negative breast cancer molecular subtypes in the IMMUcan study
Presenter: Andrea Joaquin Garcia
Session: Poster Display
177P - The Immune-microenvironment Confers Chemoresistance in Breast cancer through activation of VEGFR2/STAT3/BIRC5 signaling
Presenter: Bhawna Deswal
Session: Poster Display
178P - Dynamics of breast cancer T cell repertoire during neoadjuvant chemotherapy / immunotherapy.
Presenter: Charlotte Birchall
Session: Poster Display
179P - Integrating multiplex immunofluorescence with gene expression data in the IMMUcan HER2-positive breast cancer cohort
Presenter: Mattia Rediti
Session: Poster Display