TRPV1 inhibition overcomes cisplatin resistance by blocking autophagy-mediated hyperactivation of EGFR signaling pathway.
Se Jin OhJi Yeon LimMin Kyu SonJun Hyeok AhnKwon-Ho SongHyo-Jung LeeSuyeon KimEun Ho ChoJoon-Yong ChungHanbyoul ChoHyosun KimJae-Hoon KimJooyoung ParkJungmin ChoiSun Wook HwangTae Woo KimPublished in: Nature communications (2023)
Cisplatin resistance along with chemotherapy-induced neuropathic pain is an important cause of treatment failure for many cancer types and represents an unmet clinical need. Therefore, future studies should provide evidence regarding the mechanisms of potential targets that can overcome the resistance as well as alleviate pain. Here, we show that the emergence of cisplatin resistance is highly associated with EGFR hyperactivation, and that EGFR hyperactivation is arisen by a transcriptional increase in the pain-generating channel, TRPV1, via NANOG. Furthermore, TRPV1 promotes autophagy-mediated EGF secretion via Ca 2+ influx, which activates the EGFR-AKT signaling and, consequentially, the acquisition of cisplatin resistance. Importantly, TRPV1 inhibition renders tumors susceptible to cisplatin. Thus, our findings indicate a link among cisplatin resistance, EGFR hyperactivation, and TRPV1-mediated autophagic secretion, and implicate that TRPV1 could be a crucial drug target that could not only overcome cisplatin resistance but also alleviate pain in NANOG + cisplatin-resistant cancer.
Keyphrases
- neuropathic pain
- small cell lung cancer
- signaling pathway
- spinal cord
- epidermal growth factor receptor
- spinal cord injury
- tyrosine kinase
- cell death
- chronic pain
- papillary thyroid
- pain management
- emergency department
- young adults
- oxidative stress
- squamous cell carcinoma
- cell proliferation
- chemotherapy induced
- growth factor
- electronic health record
- adverse drug
- lymph node metastasis