KRASG12D drives immunosuppression in lung adenocarcinoma through paracrine signaling
Emily L. Lasse-Opsahl, … , Marina Pasca di Magliano, Stefanie Galban
Emily L. Lasse-Opsahl, … , Marina Pasca di Magliano, Stefanie Galban
Published January 9, 2025
Citation Information: JCI Insight. 2025;10(1):e182228. https://doi.org/10.1172/jci.insight.182228.
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Research Article Oncology

KRASG12D drives immunosuppression in lung adenocarcinoma through paracrine signaling

Abstract

Lung cancer is the leading cause of cancer deaths in the United States. New targeted therapies against the once-deemed undruggable oncogenic KRAS are changing current therapeutic paradigms. However, resistance to targeted KRAS inhibitors almost inevitably occurs; resistance can be driven by tumor cell–intrinsic changes or by changes in the microenvironment. Here, we utilized a genetically engineered mouse model of KRASG12D-driven lung cancer that allows for inducible and reversible expression of the oncogene: activation of oncogenic KRASG12D induces tumor growth; conversely, inactivation of KRASG12D causes tumor regression. We showed that in addition to regulating cancer cell growth and survival, oncogenic KRAS regulated the transcriptional status of cancer-associated fibroblasts and macrophages in this model. Utilizing ex vivo approaches, we showed that secreted factors from cancer cells induced the expression of multiple cytokines in lung fibroblasts, and in turn drove expression of immunosuppressive factors, such as arginase 1, in macrophages. In summary, fibroblasts emerged as a key source of immune regulatory signals, and a potential therapeutic target for improving the efficacy of KRAS inhibitors in lung cancer.

Authors

Emily L. Lasse-Opsahl, Ivana Barravecchia, Elyse McLintock, Jennifer M. Lee, Sarah F. Ferris, Carlos E. Espinoza, Rachael Hinshaw, Sophia Cavanaugh, Marzia Robotti, Lily Rober, Kristee Brown, Kristena Y. Abdelmalak, Craig J. Galban, Timothy L. Frankel, Yaqing Zhang, Marina Pasca di Magliano, Stefanie Galban

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Figure 1

Inducible and reversible L-iKRASG12D mouse model of lung adenocarcinoma.

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Inducible and reversible L-iKRASG12D mouse model of lung adenocarcinoma....
(A) Schematic depicting L-iKRASG12D mouse model and its inducibility and reversibility of KRASG12D expression in club cells of the lung with dox and activation of mutant Trp53 expression by ad-Cre. (B) Kaplan-Meier survival analysis comparing control mice (n = 20, Ccsp-rtTa or TetO-KrasG12D with or without Trp53–/+ allele and with and without dox or ad-Cre), KrasG12D (n = 11, Ccsp-rtTa; TetO-KrasG12D; Trp53–/+ on dox, but no ad-Cre or Ccsp-rtTa; TetO-KrasG12D on dox, with or without ad-Cre), and KrasG12D/Trp53R172H/+ (n = 23, Ccsp-rtTa; TetO-KrasG12D; Trp53LSL-R172H/+ on dox plus ad-Cre). Log-rank (Mantel-Cox) test with statistically significant P value of 0.0033. Median survival for all groups is indicated in inset. One-way ANOVA with Tukey’s post hoc test showed the median survival of the KrasG12D/Trp53R172H/+ group was significantly lower than that of the control group (P value: 0.0014) and the KrasG12D group (P value: 0.0148). (C) Timeline for KRASG12D induction (ON) and KRASG12D inhibition (OFF) in triple-transgenic and control mice (single transgenics). (D) Western blot using anti-KRASG12D antibody or anti–total RAS (T-RAS) with corresponding β-actin blots as loading control of L-iKRAS lung tissue from all groups (ON: 20 weeks, OFF: 20 weeks ON and 4 weeks OFF). (E) Representative images of H&E. Scale bars: 50 mM. ON: 17–20 weeks, OFF 1 and 4 weeks. (F) Quantification of percentage tumor area over total lung area from whole slide scanned images in control, ON (17–25 weeks) and OFF (1, 2, and 4 weeks combined). (G) Representative images of Ki67/ECAD/DAPI. Scale bars: 25 mM. (H) Quantification of percentage Ki67+ cells among total ECAD+ cells. (I) Representative images of p-ERK/ECAD/DAPI. Scale bars: 25 mM. (J) Quantification of percentage p-ERK+ cells among total ECAD+ cells. (K) Representative images of CC3/ECAD/DAPI. Scale bars: 25 mM. (L) Quantification of percentage CC3+ cells among total ECAD+ cells. Data in F, J, H, and L are presented as mean ± SEM.