PLoS ONE (Jan 2014)

NIAM-deficient mice are predisposed to the development of proliferative lesions including B-cell lymphomas.

  • Sara M Reed,
  • Jussara Hagen,
  • Viviane P Muniz,
  • Timothy R Rosean,
  • Nick Borcherding,
  • Sebastian Sciegienka,
  • J Adam Goeken,
  • Paul W Naumann,
  • Weizhou Zhang,
  • Van S Tompkins,
  • Siegfried Janz,
  • David K Meyerholz,
  • Dawn E Quelle

DOI
https://doi.org/10.1371/journal.pone.0112126
Journal volume & issue
Vol. 9, no. 11
p. e112126

Abstract

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Nuclear Interactor of ARF and Mdm2 (NIAM, gene designation Tbrg1) is a largely unstudied inhibitor of cell proliferation that helps maintain chromosomal stability. It is a novel activator of the ARF-Mdm2-Tip60-p53 tumor suppressor pathway as well as other undefined pathways important for genome maintenance. To examine its predicted role as a tumor suppressor, we generated NIAM mutant (NIAM(m/m)) mice homozygous for a β-galactosidase expressing gene-trap cassette in the endogenous gene. The mutant mice expressed significantly lower levels of NIAM protein in tissues compared to wild-type animals. Fifty percent of aged NIAM deficient mice (14 to 21 months) developed proliferative lesions, including a uterine hemangioma, pulmonary papillary adenoma, and a Harderian gland adenoma. No age-matched wild-type or NIAM(+/m) heterozygous animals developed lesions. In the spleen, NIAM(m/m) mice had prominent white pulp expansion which correlated with enhanced increased reactive lymphoid hyperplasia and evidence of systemic inflammation. Notably, 17% of NIAM mutant mice had splenic white pulp features indicating early B-cell lymphoma. This correlated with selective expansion of marginal zone B cells in the spleens of younger, tumor-free NIAM-deficient mice. Unexpectedly, basal p53 expression and activity was largely unaffected by NIAM loss in isolated splenic B cells. In sum, NIAM down-regulation in vivo results in a significant predisposition to developing benign tumors or early stage cancers. These mice represent an outstanding platform for dissecting NIAM's role in tumorigenesis and various anti-cancer pathways, including p53 signaling.