Litcius/Paper detail

Blocking Cancer–Nerve Crosstalk for Treatment of Metastatic Bone Cancer Pain

Xu Chu, Hongjun Zhuang, Yanyan Liu, Jinjin Li, Ya Wang, Yaqin Jiang, Huilin Zhang, Peiran Zhao, Yang Chen, Xingwu Jiang, Yelin Wu, Wenbo Bu

2022Advanced Materials48 citationsDOI

Abstract

Abstract The tumor microenvironment is a complex milieu where neurons constitute an important non‐neoplastic cell type. From “cancer neuroscience,” the crosstalk between tumors and neurons favors the rapid growth of both, making the cancer–nerve interaction a reciprocally beneficial process. Thus, cancer–nerve crosstalk may provide new targets for therapeutic intervention against cancer and cancer‐related symptoms. We proposed a nerve–cancer crosstalk blocking strategy for metastatic bone cancer pain treatment, achieved by Mg/Al layered‐double‐hydroxide nanoshells (Mg/Al‐LDH) with AZ‐23 loaded inside and alendronate decorated outside. The pain‐causing H + is rapidly eliminated by the LDH, with neurogenesis inhibited by the antagonist AZ‐23. As positive feedback, the decreased pain reverses the nerve‐to‐cancer Ca 2+ crosstalk‐related cell cycle, dramatically inhibiting tumor growth. All experiments confirm the improved pain threshold and enhanced tumor inhibition. The study may inspire multidisciplinary researchers to focus on cancer–nerve crosstalk for treating cancer and accompanied neuropathic diseases.

Topics & Concepts

CrosstalkCancer painCancer cellNeuropathic painBone cancerCancerTumor microenvironmentBone painCancer researchMedicineMaterials scienceNeuroscienceInternal medicinePharmacologyBiologyPhysicsOpticsPain Management and Opioid UsePain Mechanisms and TreatmentsCancer, Stress, Anesthesia, and Immune Response