Theresa Willett scite author profile

The antigenic component of a common Lyme disease vaccine is recombinant outer surface protein A (rOspA) of Borrelia burgdorferi (Bb), the causative agent of Lyme disease. Coincidentally, patients with chronic, treatment-resistant Lyme arthritis develop an immune response against OspA, whereas those with acute Lyme disease usually do not. Treatment-resistant Lyme arthritis occurs in a subset of Lyme arthritis patients and is linked to HLA.DRB1*0401 (DR4) and related alleles. Recent work from our laboratory identified T cell crossreactivity between epitopes of OspA and lymphocyte function-associated antigen 1␣ L chain (LFA-1␣L) in these patients. We generated a form of rOspA, FTK-OspA, in which the LFA-1␣ L͞rOspA crossreactive T cell epitope was mutated to reduce the possible risk of autoimmunity in genetically susceptible individuals. FTK-OspA did not stimulate human or mouse DR4-restricted, WT-OspA-specific T cells, whereas it did stimulate antibody responses specific for WT-OspA that were similar to mice vaccinated WT-OspA. We show here that the protective efficacy of FTK-OspA is indistinguishable from that of WT-OspA in vaccination trials, as both C3H͞HeJ and BALB͞c FTKOspA-vaccinated mice were protected from Bb infection. These data demonstrate that this rOspA-derived vaccine lacking the predicted cross-reactive T cell epitope, but retaining the capacity to elicit antibodies against infection, is effective in generating protective immunity.

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T-Cell Costimulatory Blockade in Experimental Chronic Cardiac Allograft Rejection

Chandraker

Russell

Glysing-Jensen

et al. 1997

Transplantation

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Chronic rejection is a T cell-dependent process and blockade of the CD28-B7 T-cell costimulatory activation pathway by the fusion protein CTLA4Ig has been shown to prevent the development of accelerated graft arteriosclerosis in a rat model of chronic cardiac allograft rejection. The effectiveness of T-cell costimulatory blockade at preventing chronic allograft rejection in a clinically relevant model in combination with cyclosporine therapy has not been investigated. Using the well-established LEW into F334 heterotopic cardiac allograft model, we show that when cyclosporine is administered in combination with CTLA4Ig, it abrogates the previously demonstrated protective effect of CTLA4Ig in preventing chronic allograft rejection. Long-term surviving allografts from animals treated with a combination of cyclosporine and CTLA4Ig had a mean vascular luminal occlusion of 42.2%, affecting more than 90% of graft vessels due to accelerated arteriosclerosis. This was associated with up-regulation of intragraft expression of mRNA for CD4, the costimulatory molecule B7, the T-cell cytokine interferon-gamma, monocyte chemoattractant protein-1, and the fibrogenic growth factor transforming growth factor-beta; all have been previously shown to be associated with development of chronic rejection in this model. In comparison, the addition of donor splenocytes to the combination of CTLA4Ig and cyclosporine therapy protocol significantly reduced the amount of arteriosclerosis; mean vascular luminal occlusion was 11.3%, affecting approximately 50% of vessels. This was associated with decreased intragraft expression of CD4, B7, interferon-gamma, monocyte chemoattractant protein-1, and transforming growth factor-beta. These data indicate that the mechanism of action of CTLA4Ig in attenuating chronic rejection is cyclosporine sensitive, and that strategies implying combination of CTLA4Ig and cyclosporine may not be clinically desirable. Administration of donor antigen may be necessary if CTLA4Ig and cyclosporine are to be combined, to prevent the process of chronic rejection.

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Theresa Willett

Chronic cardiac rejection in the LEW to F344 rat model. Blockade of CD28-B7 costimulation by CTLA4Ig modulates T cell and macrophage activation and attenuates arteriosclerosis.

An effective second-generation outer surface protein A-derived Lyme vaccine that eliminates a potentially autoreactive T cell epitope

T-Cell Costimulatory Blockade in Experimental Chronic Cardiac Allograft Rejection

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