AI Article Synopsis

  • The IL-17RB receptor has a unique role in promoting tumor growth and metastasis when stimulated by IL-17B, differing from other IL-17 receptors that mainly mediate inflammation.
  • Recent findings show that IL-17RB forms a homodimer and recruits the kinase MLK4 for phosphorylation, with increased IL-17RB phosphorylation linked to worse outcomes in pancreatic cancer patients.
  • Targeting the interaction between IL-17RB and MLK4 with a specific peptide can inhibit tumor growth and extend survival in mouse models of pancreatic cancer, highlighting a potential therapeutic approach.

Article Abstract

The members of the interleukin-17 (IL-17) cytokine family and their receptors were identified decades ago. Unlike IL-17 receptor A (IL-17RA), which heterodimerizes with IL-17RB, IL-17RC, and IL-17RD and mediates proinflammatory gene expression, IL-17RB plays a distinct role in promoting tumor growth and metastasis upon stimulation with IL-17B. However, the molecular basis by which IL-17RB promotes oncogenesis is unknown. Here, we report that IL-17RB forms a homodimer and recruits mixed-lineage kinase 4 (MLK4), a dual kinase, to phosphorylate it at tyrosine-447 upon treatment with IL-17B in vitro. Higher amounts of phosphorylated IL-17RB in tumor specimens obtained from patients with pancreatic cancer correlated with worse prognosis. Phosphorylated IL-17RB recruits the ubiquitin ligase tripartite motif containing 56 to add lysine-63-linked ubiquitin chains to lysine-470 of IL-17RB, which further assembles NF-κB activator 1 (ACT1) and other factors to propagate downstream oncogenic signaling. Consequentially, IL-17RB mutants with substitution at either tyrosine-447 or lysine-470 lose their oncogenic activity. Treatment with a peptide consisting of amino acids 403 to 416 of IL-17RB blocks MLK4 binding, tyrosine-477 phosphorylation, and lysine-470 ubiquitination in vivo, thereby inhibiting tumorigenesis and metastasis and prolonging the life span of mice bearing pancreatic tumors. These results establish a clear pathway of how proximal signaling of IL-17RB occurs and provides insight into how this pathway provides a therapeutic target for pancreatic cancer.

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Source
http://dx.doi.org/10.1126/scitranslmed.abc2823DOI Listing

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