Dramatic hyperplasia of mtv-2+ lymph node grafts in mtv-2- recipients and selective stimulation of V beta 14+ T cells in recipients' lymph nodes in the DDD mouse.
DDD/1 (DDD) mice contrast strikingly with DDD-mtv-2/mtv-2 (DDD-mtv-2) congenics in their marked lymph node (LN) T cell paucity. To clarify the possible difference in LN function between them, reciprocal LN grafting experiments were conducted. DDD-mtv-2 LN grafts in DDD recipients underwent hyperplasia as dramatic as 10-to 20-fold increase in weight between 3 and 4 wk after implantation. Lymphoid cells in hyperplastic LN grafts were of recipient origin. Similar hyperplasia of mtv-2-heterozygous LN grafts also occurred on various hybrid backgrounds involving DDD mice. Moreover, LN grafts from BALB/c mice infected with mtv-2-derived exogenous mouse mammary tumor virus (MMTV) swelled in MMTV-free BALB/c recipients. Genetic analysis of DDD x (DDD x DDD-mtv-2)F1 backcross progeny demonstrated that LN hyperplasia was closely linked to mtv-2. The frequencies of V beta 5+ and V beta 8+ T cells unresponsive to mtv-2-encoded superantigen (SAg) changed with practically the same kinetics in both LN grafts and recipients' LN. Thus, the cells responsible for LN hyperplasia were polyclonal. V beta 14+ CD4+ cells responsive to mtv-2 SAg were specifically stimulated in recipients' LN but selectively deleted in hyperplastic LN grafts. DDD mice carrying hyperplastic mtv-2+ LN grafts or pretreated with mtv-2+ spleen cells developed an unresponsive state in terms of influx of mtv-2- lymphoid cells into mtv-2+ LN grafts. These results indicate that mtv-2 gene products including SAg may stimulate mtv-2- lymphoid cells of recipients and cause them to migrate into mtv-2+ LN grafts in a nonspecific manner with resulting LN hyperplasia.[1]References
- Dramatic hyperplasia of mtv-2+ lymph node grafts in mtv-2- recipients and selective stimulation of V beta 14+ T cells in recipients' lymph nodes in the DDD mouse. Matsuzawa, A., Nakano, H., Sakamoto, S., Yoshimoto, T., Nariuchi, H. J. Immunol. (1995) [Pubmed]
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