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Query: UMLS:C0155339 (
Brown
)
12,436
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We have previously shown that rat allo-selective cells of the CD2+CD5- phenotype were generated in
Brown
Norway (BN) rats after immunization with allogeneic Wistar/Furth (WF) cells, whereas immunization with semi-allogeneic F1 (WF/BN) cells generated CD2+CD5+ effector T cells. We now report that the allo-selective CD2+CD5- lymphocytes lacked expression of intact CD3 complexes and expressed
NKR-P1
molecules although lower as compared to classical NK cells, implicating that these lymphocytes constitute a subset of NK cells. The CD5+ T cells were not cytolytically active in BN rats immunized with WF cells indicating an intersubset regulation with mutually exclusive activation of either allo-selective T cells or allo-selective NK cells. Cold target inhibition showed that lysis of both allogeneic target cells and NK-sensitive target cells was mediated by the same
NKR-P1
intermediate effector cells. These NK cells lysed WF but not allogeneic Fischer 344 or autologous BN target cells, indicating selective recognition of an allogeneic determinant. Semiallogeneic F1 (WF/BN) target cells were not lysed. Furthermore, target cells from F1 (WF/BN) x WF back-cross hybrids lacking expression of RT1n (self-MHC class I) were susceptible to lysis, whereas back-cross hybrids expressing RT1n were protected from lysis, indicating that self-MHC molecules conferred protection from lysis. These findings implicate the existence of NKR-P1intermediate and NKR-P1high NK cell subsets with different regulation and function in vivo.
...
PMID:In vivo induced allo-reactive natural killer cells. 138 May 32
The ability of natural killer (NK) cells to recognize and reject transplants has so far been shown in hematopoietic grafts only. This study was designed to ascertain whether NK cells may also be involved in the rejection of transplanted organs. In most rat strain combinations, immunization with allogeneic cells induces a T cell response with cytotoxic T lymphocyte (CTL) activation. We have previously found one exception to this. In contrast to Wistar Furth rats (WF, RT1u), which manifest allospecific CTL activation in response to immunization with
Brown
Norway (BN, RT1n) cells, BN rats immunized with repeated intraperitoneal (i.p.) injections of allogeneic WF spleen cells manifest activation of alloreactive NK effector cells. The alloreactive NK cells were of the TCR-, CD3-, CD8+, and
NKR-P1
intermediate phenotype and killed target cells with alloselectivity. In this study we used a heart transplantation model to study the rejection response of BN rats receiving WF grafts. NK cell infiltration was greater in WF hearts transplanted to BN recipients than in BN hearts transplanted to WF recipients. Furthermore, the extent of T cell infiltration was less in BN recipients. In WF rats transplanted with allogeneic BN hearts, CTL were activated in response to i.p. challenge with allogeneic BN cells, whereas BN rats transplanted with allogeneic WF hearts and i.p. challenged with allogeneic WF cells, manifested activation of alloreactive NK cells but no measurable activation of classic CTL. The alloreactive NK cells killed their allogeneic targets with specificity and with potency comparable to that of CTL. Furthermore, WF grafts were rejected in BN recipients as efficiently as were BN grafts in WF recipients. These results not only show cardiac allografts to be able to activate alloreactive NK cells, but also suggest that NK cells may be involved in the rejection of solid organ transplants and function as classic CTL in certain donor-recipient combinations.
...
PMID:Allogeneic heart transplantation activates alloreactive NK cells. 901 85
