1. Academic Validation
  2. Hepatocyte expression of fetal insulin receptor isoform contributes to the promotion of liver cancer through non-cell autonomous mechanisms

Hepatocyte expression of fetal insulin receptor isoform contributes to the promotion of liver cancer through non-cell autonomous mechanisms

  • bioRxiv. 2025 Jun 5:2025.06.02.655477. doi: 10.1101/2025.06.02.655477.
Fanny Léandre Akila Iddir Cécile Godard Isabelle Lagoutte Anthony Caldiero Soumeya Souid Sandra Pinto Jérémy Augustin Vanessa Bou Malham Alexandre Alves Rowan Aubry Sandrine Imbeaud Jessica Zucman-Rossi Sabine Colnot Angélique Gougelet Christèle Desbois-Mouthon
Abstract

The Insulin Receptor (INSR) exists in two isoforms, INSR-A and INSR-B, resulting from alternative splicing of the INSR pre-mRNA. INSR-B mediates the metabolic and mitogenic effects of Insulin in the adult liver, while INSR-A is expressed during development. Recently, INSR-A has been detected in pathological murine and human livers. Here, we develop an in vivo CRISPR/Cas9 strategy to assess the impact of INSR-A on mouse liver homeostasis and susceptibility to carcinogenesis. We find that INSR-A expression in hepatocytes leads to the spontaneous development of liver tumours and also increases tumour initiation in a context of β-catenin-driven liver carcinogenesis. Mechanistically, this is attributed to the higher intrinsic capacity of INSR-A expressing hepatocytes to enter Apoptosis, rendering the microenvironment more inflammatory, thus making way for the proliferation of preneoplastic cells. Collectively, our data highlight a novel function for INSR-A in promoting liver Cancer via non-cell autonomous mechanisms.

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