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  • Title: Impaired thymopoiesis occurring during the thymic involution of tumor-bearing mice is associated with a down-regulation of the antiapoptotic proteins Bcl-XL and A1.
    Author: Carrio R, Lopez DM.
    Journal: Int J Mol Med; 2009 Jan; 23(1):89-98. PubMed ID: 19082511.
    Abstract:
    The thymus is a central lymphoid organ in which T lymphocytes undergo differentiation and maturation without the need for antigenic stimulation. Apoptosis (programmed cell death), plays a critical role in shaping the T cell repertoire, deleting unproductive as well as potentially autoreactive T cells. Thymic atrophy has been observed in several model systems, including aging, graft-vs-host-disease and tumor development. However, the mechanisms involved in this phenomenon remain to be completely elucidated. We have previously shown that the progressive growth of D1-DMBA-3 mammary tumor leads to extreme thymic atrophy in the host. This thymic involution is associated with an early block in T cell maturation at the triple negative stage of differentiation. In the present study we have used our murine mammary tumor model to further analyze the specific T cell subpopulations present in the thymus of tumor-bearing animals as well as to characterize the alterations of the apoptotic process present during the impaired thymopoiesis associated to this thymic involution. Flow cytometric analysis revealed a moderate increase in the percentages of single positive CD4+ and CD8+ cells within the CD3 negative population in the thymuses of tumor-bearing mice. Moreover, we observed a prolonged increase in apoptosis among thymocytes from tumor-bearing mice compared with thymocytes from normal mice during tumor development. Lastly, we found a major decrease of Bcl-XL and A1, two crucial anti-apoptotic Bcl-2 family members that are developmentally regulated in T cells. Together, our data suggest that the severe thymic involution seen in mammary tumor bearers is due to an arrest in at least two steps of T cell differentiation and a down-regulation of important molecules that control programmed cell death.
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