Characterization of single neurons reprogrammed by pancreatic cancer

Vera Thiel; Simon Renders; Jasper Panten; Nicolas Dross; Katharina Bauer; Daniel Azorín; Vanessa Henriques; Vanessa Vogel; Corinna Klein; Aino‐Maija Leppä; Isabel Barriuso-Ortega; Jonas Schwickert; Iordanis Ourailidis; Julian Mochayedi; Jan‐Philipp Mallm; Carsten Müller‐Tidow; Hannah Monyer; John P. Neoptolemos; Thilo Hackert; Oliver Stegle; Duncan T. Odom; Rienk Offringa; Albrecht Stenzinger; Frank Winkler; Martin R. Sprick; Andreas Trumpp

doi:10.1038/s41586-025-08735-3

Characterization of single neurons reprogrammed by pancreatic cancer

Vera Thiel(German Cancer Research Center), Simon Renders(German Cancer Research Center), Jasper Panten(German Cancer Research Center), Nicolas Dross(Heidelberg University), Katharina Bauer(German Cancer Research Center), Daniel Azorín(German Cancer Research Center), Vanessa Henriques(Heidelberg University), Vanessa Vogel(Heidelberg University), Corinna Klein(German Cancer Research Center), Aino‐Maija Leppä(German Cancer Research Center), Isabel Barriuso-Ortega(German Cancer Research Center), Jonas Schwickert(German Cancer Research Center), Iordanis Ourailidis(Heidelberg University), Julian Mochayedi(German Cancer Research Center), Jan‐Philipp Mallm(German Cancer Research Center), Carsten Müller‐Tidow(German Cancer Research Center), Hannah Monyer(German Cancer Research Center), John P. Neoptolemos(Heidelberg University), Thilo Hackert(Heidelberg University), Oliver Stegle(German Cancer Research Center), Duncan T. Odom(German Cancer Research Center), Rienk Offringa(German Cancer Research Center), Albrecht Stenzinger(Heidelberg University), Frank Winkler(German Cancer Research Center), Martin R. Sprick(German Cancer Research Center), Andreas Trumpp(German Cancer Research Center)

Nature

February 17, 2025

10.1038/s41586-025-08735-3

Cited by 92Open Access

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Abstract

. However, neuronal cell bodies reside in various PNS ganglia, far from the tumour mass. Thus, cancer-innervating or healthy-organ-innervating neurons are lacking in current tissue-sequencing datasets. To molecularly characterize pancreas- and PDAC-innervating neurons at single-cell resolution, we developed Trace-n-Seq. This method uses retrograde tracing of axons from tissues to their respective ganglia, followed by single-cell isolation and transcriptomic analysis. By characterizing more than 5,000 individual sympathetic and sensory neurons, with about 4,000 innervating PDAC or healthy pancreas, we reveal novel neuronal cell types and molecular networks that are distinct to the pancreas, pancreatitis, PDAC or melanoma metastasis. We integrate single-cell datasets of innervating neurons and the TME to establish a neuron-cancer-microenvironment interactome, delineate cancer-driven neuronal reprogramming and generate a pancreatic-cancer nerve signature. Pharmacological denervation induces a pro-inflammatory TME and increases the effectiveness of immune-checkpoint inhibitors. The taxane nab-paclitaxel causes intratumoral neuropathy, which attenuates PDAC growth and, in combination with sympathetic denervation, results in synergistic tumour regression. Our multi-dimensional data provide insights into the networks and functions of PDAC-innervating neurons, and support the inclusion of denervation in future therapies.

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