Cortisol-resistant CAR-NK cells overcome steroid-induced immunosuppression in lung cancer
Summary
Tumors foster an immunosuppressive microenvironment to evade the antitumor immune response. However, the influence of intratumoral immunosuppressive steroids on tumor-infiltrating natural killer (NK) cells and their implications for effective immunotherapy has remained largely unexplored. Here, we report that the functional enrichment of glucocorticoid cortisol signaling in the lung tumor microenvironment (TME) impairs NK cell anti-tumor cytotoxicity and exacerbates hypoxic stress. Cancer-
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# Cortisol-resistant CAR-NK cells overcome steroid-induced immunosuppression in lung cancer
*Published: 2026 Apr 9*
Tumors foster an immunosuppressive microenvironment to evade the antitumor
immune response. However, the influence of intratumoral immunosuppressive
steroids on tumor-infiltrating natural killer (NK) cells and their implications
for effective immunotherapy has remained largely unexplored. Here, we report
that the functional enrichment of glucocorticoid cortisol signaling in the lung
tumor microenvironment (TME) impairs NK cell anti-tumor cytotoxicity and
exacerbates hypoxic stress. Cancer-associated fibroblasts (CAFs) and macrophages
convert inactive cortisone to active cortisol, while T cells, fibroblasts,
myeloid cells, macrophages, and cancer cells contribute to de novo steroid
biosynthesis, collectively establishing a steroid-rich niche. Pharmacological
inhibition of the glucocorticoid receptor (GR) in vivo alleviates
cortisol-mediated immune suppression, resulting in reduced tumor growth and
enhanced cytotoxicity of tumor-infiltrating NK cells. To overcome the
cortisol-induced dysfunction of solid tumor targeting immunotherapy, we
engineered chimeric antigen receptor (CAR) -NK cells specific to the
Carcinoembryonic antigen-related cell adhesion molecule 5 (CEACAM5) (highly
expressed in lung tumors) and rendered them cortisol-resistant by genetic
deletion of the cortisol receptor gene NR3C1. In cortisol-rich niches,
cortisol-resistant CAR-NK cells sustained antitumor cytotoxicity.
Mechanistically, NR3C1 deletion relieved cortisol-mediated suppression of
PI3K-AKT-NF-κB signaling, restored anti-tumor activity, and markedly reduced
hypoxic stress. In lung metastasis models, cortisol-resistant CAR-NK cells
achieved superior tumor control and significantly reduced tumor burden compared
with conventional CAR-NK cells. Together, these findings identify local cortisol
signaling as a critical barrier to solid tumor immunotherapy and establish
cortisol-resistant CAR-NK cells as a promising strategy for targeting
steroidogenic solid tumors, which can be combined with therapeutic
glucocorticoids.
DOI: 10.1038/s41392-026-02638-z