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Related Experiment Video

Updated: Mar 27, 2026

Focus Formation: A Cell-based Assay to Determine the Oncogenic Potential of a Gene
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FoxO3 suppresses Myc-driven lymphomagenesis.

C J Vandenberg1,2, N Motoyama3, S Cory1,2

  • 1Molecular Genetics of Cancer Division, The Walter and Eliza Hall Institute of Medical Research, Melbourne, Victoria, Australia.

Cell Death & Disease
|January 15, 2016
PubMed
Summary
This summary is machine-generated.

Loss of the FoxO3 transcription factor accelerates cancer development in mouse models. This study reveals FoxO3

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Area of Science:

  • Oncology
  • Molecular Biology
  • Genetics

Background:

  • Transcription factors regulate gene expression and cellular processes.
  • Forkhead box class O (FoxO) proteins are key regulators of stress resistance, metabolism, and cell cycle.
  • Dysregulation of transcription factors, including FoxO, is implicated in various cancers.

Purpose of the Study:

  • To investigate the role of individual FoxO transcription factors in lymphomagenesis.
  • To determine if FoxO3 acts as a tumor suppressor in Myc-driven cancers.
  • To elucidate the mechanisms by which FoxO3 loss impacts cancer progression.

Main Methods:

  • Utilized two distinct transgenic mouse models (vavP-MYC10 and Eμ-myc).
  • Generated mice with targeted deletion of the FoxO3 gene.
  • Performed tumor analysis, including assessment of cell populations and p53 pathway mutations.
  • Conducted in vitro cell culture assays to evaluate cell survival and cell cycling.

Main Results:

  • Loss of a single FoxO transcription factor, FoxO3, promotes lymphomagenesis.
  • FoxO3 deficiency significantly accelerated myeloid and B-lymphoma development in mouse models.
  • Elevated macrophage numbers were observed in FoxO3-deficient mice with myeloid tumors.
  • In vitro studies showed enhanced survival of Myc-driven cancer cells lacking FoxO3.

Conclusions:

  • FoxO3 exhibits significant tumor-suppressor activity in Myc-driven lymphomagenesis.
  • Loss of FoxO3 enhances cancer cell survival, contributing to tumorigenesis.
  • Other FoxO family members (FoxO1/4) may not fully compensate for the loss of FoxO3's tumor-suppressive functions.