Neuronal substance-P drives breast cancer growth and metastasisviaan extracellular RNA-TLR7 axis

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Abstract

ABSTRACT Increased tumour innervation is associated with adverse survival outcomes in multiple cancers 1–4 . To better understand the mechanisms underlying this, we studied the impact of innervation on breast cancer metastatic progression. Metastatic mammary tumours of mice were substantially more innervated than non-metastatic isogenic tumours. Three dimensional co-cultures and in vivo models revealed that sensory dorsal root ganglion (DRG) neurons enhanced the growth, invasion, and systemic dissemination of cancer cells—thereby driving breast cancer metastasis. By in vitro screening of neuropeptides known to be secreted by DRG neurons, we identified substance-P (SP) as a mediator of these pro-metastatic functions. Neuronal SP signaled through tumoural tachykinin receptors (TACR1) to drive single-stranded RNA (ssRNA) secretion from cancer cells. Extracellular RNA acted on tumoural TLR7 receptors to activate an autocrine pro-metastatic gene expression program. In support of these findings, patient tumours with increased SP expression exhibited higher rates of lymph node metastasis. Additionally, this SP/ssRNA induced Tlr7 gene expression signature associated with reduced breast cancer survival outcomes in two independent patient cohorts. Finally, therapeutic targeting of this neuro-cancer axis with the TACR1 antagonist aprepitant, an approved anti-nausea drug, suppressed breast cancer metastasis in multiple mouse models. Our findings reveal multiple aspects of metastatic progression to be regulated by neurons via a therapeutically targetable neuropeptide/extracellular RNA sensing axis.

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europepmc
last seen: 2026-05-20T01:45:00.602351+00:00