Distinct roles for PTEN in prevention of T cell lymphoma and autoimmunity in mice
Xiaohe Liu, … , Craig H. Bassing, Laurence A. Turka
Xiaohe Liu, … , Craig H. Bassing, Laurence A. Turka
Published June 1, 2010
Citation Information: J Clin Invest. 2010;120(7):2497-2507. https://doi.org/10.1172/JCI42382.
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Research Article Immunology

Distinct roles for PTEN in prevention of T cell lymphoma and autoimmunity in mice

Abstract

Mutations in the tumor-suppressor gene phosphatase and tensin homolog deleted on chromosome 10 (Pten) are associated with multiple cancers in humans, including T cell malignancies. Targeted deletion of Pten in T cells induces both a disseminated “mature phenotype” lymphoma and a lymphoproliferative autoimmune syndrome in mice. Here, we have shown that these two diseases are separable and mediated by T lineage cells of distinct developmental stages. Loss of PTEN was found to be a powerful driver of lymphomagenesis within the thymus characterized by overexpression of the c-myc oncogene. In an otherwise normal thymic environment, PTEN-deficient T cell lymphomas invariably harbored RAG-dependent reciprocal t(14:15) chromosomal translocations involving the T cell receptor alpha/delta locus and c-myc, and their survival and growth was TCR dependent, but Notch independent. However, lymphomas occurred even if TCR recombination was prevented, although these lymphomas were less mature, arose later in life, and, importantly, were dependent upon Notch pathways to upregulate c-myc expression. In contrast, using the complementary methods of early thymectomy and adoptive transfers, we found that PTEN-deficient mature T cells were unable to undergo malignant transformation but were sufficient for the development of autoimmunity. These data suggest multiple and distinct regulatory roles for PTEN in the molecular pathogenesis of lymphoma and autoimmunity.

Authors

Xiaohe Liu, Jodi L. Karnell, Bu Yin, Ruan Zhang, Jidong Zhang, Peiying Li, Yongwon Choi, Jonathan S. Maltzman, Warren S. Pear, Craig H. Bassing, Laurence A. Turka

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Figure 4

Activated Notch signaling in t(14;15)-negative lymphoma cells.

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Activated Notch signaling in t(14;15)-negative lymphoma cells. (A) RT-PC...
(A) RT-PCR analysis of pre-Tα (pTα) expression in RNA isolated from the indicated cells. (B) Quantitative RT-PCR for Hes-1 and c-myc in WT thymocytes or indicated primary lymphoma cells normalized to Gapdh. (C) Flow cytometric analysis of CD25 expression in cell lines derived from the indicated primary lymphomas. (D) Growth suppression by GSI. The tumor cell lines derived from the indicated primary lymphoma cells were cultured with or without 1 μM GSI in a 24-well plate for 72 hours. Graph shows the number of trypan blue–negative cells per well. (E) Impaired proliferation, cell cycle arrest, and apoptosis in t(14;15)-negative tumor cell lines treated with GSI. (F) Western blot analysis of the activated form of Notch1 protein in the indicated cell lines. All experiments described in CF are representative of 6 or more different cell lines derived from at least 2 individual primary lymphomas.