Chronic allograft vasculopathy (CAV), or graft arterial lumen occlusion through intinna expansion, is a major cause of late heart transplant failure and patient morbidity/mortality. CAV etiology is multi-factorial, including promotion by IFN-7 secreting T helper (Th) Type-1 cells (Th1) and the migration/proliferation of smooth muscle cells (SMC) into arterial lumen. The use of rapamycin (RAPA) as an immunosuppressant is associated with reduced CAV, in part through direct inhibition of SMC, but the mechanisms by which RAPA alters the host/graft immunological environment to limit CAV are unclear. We have made the novel observation that prolonged dendritic cell (DC) exposure to RAPA confers DC resistance to pro-inflammatory stimuli by upregulating the transmembrane form of the IL-1R family member ST2 (ST2L). In addition to negatively regulating TLR and CD40 signaling, ST2L is the receptor for IL-33, a cytokine that promotes The Type-2 (Th2) responses. IL-33 can be produced by a variety of cells, including endothelial cells (EC) and SMC, and may have cardioprotective properties. When the function of IL-33 is blocked, or ST2L is absent, pathology is exacerbated in both atherosclerosis and cardiac hypertrophy models. However, if IL-33 exhorts a The polarization capacity through direct influence on DC, or can inhibit CAV is not known. Our central hypothesis is that IL-33 promotes DC. especially RAPA-DC expressing increased ST2L, Th2 cell polarization capacity and will prevent CAV bv both inducing Th2 skewing of T cell populations and direct cardioprotective effects on the allograft.
In AIM I, we hypothesize that IL-33 induces gene expression arid signaling pathways that mediate a DC capacity to promote Th2 response in vitro and in vivo.
In AIM II, we hypothesize that post-operative IL-33 and RAPA alone or, combined with therapeutic DC administration, leads to rejection-free heart allograft survival and prevents CAV by modulating the host immune system towards Th2 and regulatory T cell responses.
In AIM III we hypothesize that IL-33 acts via ST2L on both immune cells and cardiac allograft cells to protect cardiac allografts during acute and chronic rejection.

Agency
National Institute of Health (NIH)
Institute
National Heart, Lung, and Blood Institute (NHLBI)
Type
Career Transition Award (K99)
Project #
1K99HL097155-01
Application #
7714818
Study Section
Special Emphasis Panel (ZHL1-CSR-Z (M3))
Program Officer
Roltsch, Mark
Project Start
2009-07-01
Project End
2011-06-30
Budget Start
2009-07-01
Budget End
2010-06-30
Support Year
1
Fiscal Year
2009
Total Cost
$86,886
Indirect Cost
Name
University of Pittsburgh
Department
Surgery
Type
Schools of Medicine
DUNS #
004514360
City
Pittsburgh
State
PA
Country
United States
Zip Code
15213
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Turnquist, Heth R; Zhao, Zhenlin; Rosborough, Brian R et al. (2011) IL-33 expands suppressive CD11b+ Gr-1(int) and regulatory T cells, including ST2L+ Foxp3+ cells, and mediates regulatory T cell-dependent promotion of cardiac allograft survival. J Immunol 187:4598-610
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Sumpter, Tina L; Packiam, Vignesh; Turnquist, Heth R et al. (2011) DAP12 promotes IRAK-M expression and IL-10 production by liver myeloid dendritic cells and restrains their T cell allostimulatory ability. J Immunol 186:1970-80
Turnquist, Heth R; Cardinal, Jon; Macedo, Camila et al. (2010) mTOR and GSK-3 shape the CD4+ T-cell stimulatory and differentiation capacity of myeloid DCs after exposure to LPS. Blood 115:4758-69
Turnquist, H?th R; Thomson, Angus W (2009) IL-33 broadens its repertoire to affect DC. Eur J Immunol 39:3292-5