Activation of Nerve Growth Factor signaling limits the response to lenvatinib in hepatocellular carcinoma
Summary
Resistance to lenvatinib remains a major barrier in the treatment of advanced hepatocellular carcinoma (HCC), underscoring the urgent need to elucidate the underlying mechanisms and identify actionable therapeutic targets. In this study, we identified a neurosecretory factor derived from HCC cells, Nerve Growth Factor (NGF), as a critical mediator of lenvatinib resistance. Utilizing an innovative in vivo-in vitro cross-circulated strategy, we established a phenotypically stable lenvatinib-
Content
# Activation of Nerve Growth Factor signaling limits the response to lenvatinib in hepatocellular carcinoma
*Published: 2026 Apr 5*
Resistance to lenvatinib remains a major barrier in the treatment of advanced
hepatocellular carcinoma (HCC), underscoring the urgent need to elucidate the
underlying mechanisms and identify actionable therapeutic targets. In this
study, we identified a neurosecretory factor derived from HCC cells, Nerve
Growth Factor (NGF), as a critical mediator of lenvatinib resistance. Utilizing
an innovative in vivo-in vitro cross-circulated strategy, we established a
phenotypically stable lenvatinib-resistant HCC cell line (LenR-cells). Through
proteomic screening of conditioned media and subsequent functional validation,
we demonstrated that NGF secretion progressively increases with the acquisition
of resistance. Mechanistically, we uncovered that the SRPK1-SRSF1 axis drives
enhanced NGF production by regulating alternative splicing of its precursor
transcript, specifically promoting the expression of a shorter, translationally
efficient isoform (proNGF-B). Elevated NGF subsequently activates the
non-canonical MAPK pathway (MEK5-ERK5) via its high-affinity receptor TrkA,
thereby sustaining tumor cell viability and proliferation under sustained
tyrosine kinase inhibitor pressure. Critically, pharmacological co-targeting of
TrkA with the clinically approved inhibitor larotrectinib restored lenvatinib
sensitivity in both patient-derived organoids and xenograft models, producing
marked synergistic anti-tumor effects without evidence of exacerbated toxicity.
Clinical analyses of two independent patient cohorts further confirmed that
elevated NGF expression is significantly associated with poor response to
lenvatinib, shorter recurrence-free survival, and worse overall survival. Our
findings unveil a critical and previously underappreciated role for
tumor-derived NGF in orchestrating adaptive signaling through a precise
post-transcriptional regulatory circuit and propose a readily translatable,
biomarker-guided combination strategy to overcome lenvatinib resistance in HCC.
DOI: 10.1038/s41392-026-02649-w