Effect of P. gingivalis on osimertinib resistance in EGFR-mutant lung cancer.

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e20511 Background: While most patients with EGFR-mutant lung cancers respond to osimertinib, resistance inevitably develops. Mechanisms of osimertinib resistance remain inadequately understood. Recent studies suggest a potential link between intra-tumoral bacteria and therapy resistance in cancer. Our previous studies found that the pre-conditioned medium (PCM) of certain bacteria in the Bacteroidetes phylum conferred resistance of all EGFR-TKIs tested. In this study, we specifically investigate the effect of Porphyromonas gingivalis, a common component of the human oral microbiome and the main pathogen responsible for periodontal disease, on osimertinib sensitivity in EGFR mutant lung cancer. Methods: P. gingivalis PCM (P-CM) was applied to EGFR-mutant lung cancer cell lines for 3 days and cell viability was measured. Western blot and receptor tyrosine kinase (RTKs) assay were used to analyze the changes of cell signaling pathways, and the contribution of identified signaling pathway to P. gingivalis-mediated resistance to osimertinib were further validated by rescue experiments. To investigate the existence of P. gingivalis in human lung cancer tissues, we used Fluorescence In Situ Hybridization (FISH) probes specific to P. gingivalis and hybridized probes to a tissue microarray (TMA) containing 3 mm punches of lung adenocarcinoma tissue from 30 patients in duplicate. The underlying mechanisms of osimertinib resistance conferred by P. gingivalis were explored by a combination of bacterial genomic and cellular proteomic approaches. Results: P-PCM led to osimertinib resistance in all EGFR-mutant lung cancer cell lines tested. Both Western blot and RTKs assay showed that phosphorylated insulin-like growth factor 1 receptor (pIGF1R) level significantly increased when P-PCM was applied to PC9 EGFR mutant lung cancer cells. We found that both IGF1R inhibitor (linsitinib) and IGF1R knockdown with siRNA eliminated the effect of P-PCM-mediated osimertinib resistance. We found that two cysteine proteases secreted by P. gingivalis, lysine-specific gingipain (Kgp) and arginine-specific gingipain A (RgpA) led to osimertinib, whereas arginine-specific gingipain B (RgpB), which lacks haemagglutinin/adhesin (HA) region of RgpA had no effect on osimertinib response. We also found that gingipains-mediated osimertinib resistance is independent of enzymatic activity. We detected intra-tumoral P. gingivalis in tumor tissue of 9 (30%) patients by using FISH probes specific to P. gingivalis. Conclusions: Our studies demonstrate that P. gingivalis can induce osimertinib resistance in EGFR-mutant lung cancer cells through secreted gingipains that activate the IGF1R pathway through an enzymatic- independent mechanism. P. gingivalis is frequently detected in human lung cancer tissues , suggesting that therapies targeting P. gingivalis may improve EGFR-TKI response in certain patients with EGFR-mutant lung cancer.