Colleen Davenport scite author profile

Colleen Davenport

4Publications

58Citation Statements Received

78Citation Statements Given

How they've been cited

104

How they cite others

129

Affiliations

Radius Health (United States), The University of Texas Southwestern Medical Center, University of Louisville

Publications

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Allorecognition by murine natural killer cells: lysis of T‐lymphoblasts and rejection of bone‐marrow grafts

George

Liu

et al. 1997

Immunological Reviews

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Natural killer (NK) cells of inbred mice reject allogeneic bone-marrow cells, and NK cells of F1 hybrid mice can reject parental bone-marrow cells (hybrid resistance). In some cases these patterns of rejection can be mimicked in vitro by utilizing IL-2 cultured NK effector cells and allogeneic or parental T-lymphoblasts as target cells. Lysis of allogeneic and parental targets in vitro can be explained on the basis of the missing self hypothesis. Subsets of NK cells that bear non-overlapping MHC class I inhibitory receptors belonging to the Ly49 family lyse allogeneic targets because they do not express self class I molecules of the NK cell donor. Parental strain targets are lysed because they do not express all of the self class I antigens of the F1 hybrid, and hence fail to deliver inhibitory signals to all subsets of F1 NK cells. The expression of Ly49 receptors on NK cells is regulated by host MHC to ensure maximal sensitivity to alterations in self class I molecules and to prevent autoreactivity. In many instances, however, the rejection of allogeneic bone marrow cells in vivo cannot be readily explained by the missing self hypothesis. In these instances, it appears that rejection is initiated by class I MHC receptors on NK cells that recognize allogeneic class I molecules as non-self, and activate rather than inhibit NK cell function.

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Inhibition of pro-inflammatory cytokine generation by CTLA4-Ig in the skin and colon of mice adoptively transplanted with CD45RBhi CD4+ T cells correlates with suppression of psoriasis and colitis

Davenport

McAdams

Kou

et al. 2002

International Immunopharmacology

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Murine Natural Killer Cells and Hybrid Resistance to Hemopoietic Cells In Vivo

Liu

George

Devora

et al.

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Xenotransplantation: Application of Disease Resistance

Mueller

Davenport

Ildstad

1999

Clin Exp Pharma Physio

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1. Organ transplantation is now clinically routine for patients with end-stage organ failure. One major limitation in transplantation is chronic rejection involving the loss of the graft despite the use of immunosuppressive agents. Haematopoietic stem cell (HSC) chimerism, achieved through bone marrow transplantation (BMT), induces donor-specific tolerance to transplanted organs and prevents chronic rejection. 2. A second major limitation to organ transplantation is the donor shortage. Xenotransplantation, the transplantation of organs between different species, would have the ability to increase the availability of donor organs. 3. Current immunosuppressive therapies do not prevent the rejection of xenografts. Therefore, the only reliable method for achieving donor-specific tolerance to xenografts may require HSC chimerism. 4. In order to justify the use of BMT to induce transplantation tolerance in patients with non-life-threatening diseases, the morbidity and mortality associated with current conditioning regimens must be addressed. 5. The use of partial conditioning regimens to promote engraftment of xenogeneic HSC and the development of donor-specific tolerance may eventually make xenotransplantation in humans a clinical reality. 6. Additional advantages of xenotransplantation are the ability to genetically engineer the donor xenograft and resistance of some xenografts to infection by human viruses because of the species specificity of most viruses. 7. The clinical application of disease resistance for HIV and hepatitis B virus is the focus of the present review.

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