Nonobese diabetic (NOD) mice develop an autoimmune form of diabetes, becoming hyperglycemic after 3 months of age. This process was accelerated by injecting young NOD mice with CD4+ islet-specific T cell clones derived from NOD mice. Overt diabetes developed in 10 of 19 experimental animals by 7 weeks of age, with the remaining mice showing marked signs of the disease in progress. Control mice did not become diabetic and had no significant pancreatic infiltration. This work demonstrates that a CD4 T cell clone is sufficient to initiate the disease process in the diabetes-prone NOD mouse.
Ischemia-reperfusion (I/R) injury occurs as a result of restoring blood flow to previously hypoperfused vessels or after tissue transplantation and is characterized by inflammation and microvascular occlusion. We report here that 4-{3-[6-amino-9-(5-ethylcarbamoyl-3,4-dihydroxy-tetrahydro-furan-2-yl)-9H-purin-2-yl]-prop-2-ynyl}-cyclohexanecarboxylic acid methyl ester (ATL146e), a selective agonist of the A2A adenosine receptor (A2AAR), profoundly protects mouse liver from I/R injury when administered at the time of reperfusion, and protection is blocked by the antagonist ZM241385. ATL146e lowers liver damage by 90% as assessed by serum glutamyl pyruvic transaminase and reduces hepatic edema and MPO. Most protection remains if ATL146e treatment is delayed for 1 h but disappears when delayed for 4 h after the start of reperfusion. In mice lacking the A2AAR gene, protection by ATL1465e is lost and ischemic injury of short duration is exacerbated compared with wild-type mice, suggesting a protective role for endogenous adenosine. I/R injury causes induction of hepatic transcripts for IL-1α, IL-1β, IL-1Ra, IL-6, IL-10, IL-18, INF-β, INF-γ, regulated on activation, normal T cell expressed, and presumably secreted (RANTES), major intrinsic protein (MIP)-1α, MIP-2, IFN-γ-inducible protein (IP)-10, and monocyte chemotactic protein (MCP)-1 that are suppressed by administering ATL146e to wild-type but not to A2AAR knockout mice. RANTES, MCP-1, and IP-10 are notable as induced chemokines that are chemotactic to T lymphocytes. The induction of cytokines may contribute to transient lymphopenia and neutrophilia that occur after liver I/R injury. We conclude that most damage after hepatic ischemia occurs during reperfusion and can be blocked by A2AAR activation. We speculate that inhibition of chemokine and cytokine production limits inflammation and contributes to tissue protection by the A2AAR agonist ATL146e.
In lupus-prone NZM2328 mice, a locus Cgnz1 on chromosome 1 was linked to chronic glomerulonephritis, severe proteinuria, and early mortality in females. A locus Adnz1 on chromosome 4 was linked to antinuclear antibody (ANA) and anti–double stranded DNA (dsDNA) antibody (Ab) production. In this investigation, two congenic strains, NZM2328.C57L/Jc1 (NZM.C57Lc1) and NZM2328.C57L/Jc4 (NZM.C57Lc4), were generated by replacing the respective genetic intervals containing either Cgnz1 or Adnz1 with those from C57L/J, a nonlupus-prone strain. The NZM.C57Lc1 females had markedly reduced incidence of chronic glomerulonephritis and severe proteinuria. NZM.C57Lc4 females had chronic glomerulonephritis and severe proteinuria without circulating ANA, anti-dsDNA, and antinucleosome Ab. These data confirm the linkage analysis. Unexpectedly, NZM.C57Lc1 females had little anti-dsDNA and related Ab, suggesting the presence of a second locus Adnz2 on chromosome 1. The diseased NZM.C57Lc4 kidneys had immune complexes by immunofluorescence and electron microscopy. The eluates from these kidneys did not contain ANA, anti-dsDNA, and antinucleosome Ab, indicative of the presence of non–anti-dsDNA nephritogenic Ab. Thus, breaking tolerance to dsDNA and chromatin is not required for the pathogenesis of lupus nephritis. These results reaffirm that anti-dsDNA and related Ab production and chronic glomerulonephritis are under independent genetic control. These findings have significant implications in the pathogenesis of systemic lupus erythematosus.
Activation of A 2A adenosine receptors (A 2A Rs) protects kidneys from ischemia-reperfusion injury (IRI). A 2A Rs are expressed on bone marrow-derived (BM-derived) cells and renal smooth muscle, epithelial, and endothelial cells. To measure the contribution of A 2A Rs on BM-derived cells in suppressing renal IRI, we examined the effects of a selective agonist of A 2A Rs, ATL146e, in chimeric mice in which BM was ablated by lethal radiation and reconstituted with donor BM cells derived from GFP, A 2A R-KO, or WT mice to produce GFP→WT, A 2A -KO→WT, or WT→WT mouse chimera. We found little or no repopulation of renal vascular endothelial cells by donor BM with or without renal IRI. ATL146e had no effect on IRI in A 2A -KO mice or A 2A -KO→WT chimera, but reduced the rise in plasma creatinine from IRI by 75% in WT mice and by 60% in WT→WT chimera. ATL146e reduced the induction of IL-6, IL-1β, IL-1ra, and TGF-α mRNA in WT→WT mice but not in A 2A -KO→WT mice. Plasma creatinine was significantly greater in A 2A -KO than in WT mice after IRI, suggesting some renal protection by endogenous adenosine. We conclude that protection from renal IRI by A 2A R agonists or endogenous adenosine requires activation of receptors expressed on BM-derived cells.
Activation of A 2A adenosine receptors (A 2A Rs) protects kidneys from ischemia-reperfusion injury (IRI). A 2A Rs are expressed on bone marrow-derived (BM-derived) cells and renal smooth muscle, epithelial, and endothelial cells. To measure the contribution of A 2A Rs on BM-derived cells in suppressing renal IRI, we examined the effects of a selective agonist of A 2A Rs, ATL146e, in chimeric mice in which BM was ablated by lethal radiation and reconstituted with donor BM cells derived from GFP, A 2A R-KO, or WT mice to produce GFP→WT, A 2A -KO→WT, or WT→WT mouse chimera. We found little or no repopulation of renal vascular endothelial cells by donor BM with or without renal IRI. ATL146e had no effect on IRI in A 2A -KO mice or A 2A -KO→WT chimera, but reduced the rise in plasma creatinine from IRI by 75% in WT mice and by 60% in WT→WT chimera. ATL146e reduced the induction of IL-6, IL-1β, IL-1ra, and TGF-α mRNA in WT→WT mice but not in A 2A -KO→WT mice. Plasma creatinine was significantly greater in A 2A -KO than in WT mice after IRI, suggesting some renal protection by endogenous adenosine. We conclude that protection from renal IRI by A 2A R agonists or endogenous adenosine requires activation of receptors expressed on BM-derived cells.
The current studies investigated the in vitro and in vivo effect of adenosine 2A receptor (A2AR) agonists to attenuate allogenic immune activation. We performed MLRs with spleen T lymphocytes and APCs isolated from wild-type and A2AR knockout mice of both C57BL/6 and BALB/c background strains. Two-way MLR-stimulated T cell proliferation was reduced by ATL313, a selective A2AR agonist in a dose-responsive manner (∼70%; 10 nM), an effect reversed by the A2AR antagonist ZM241385 (100 nM). By one-way MLRs, we observed that ATL313’s inhibitory effect was due to effects on both T cells and APCs. ATL313 suppressed the activation markers CD25 and CD40L and the release of inflammatory cytokines IFN-γ, RANTES, IL-12P70, and IL-2. ATL313 also increased negative costimulatory molecules programmed death-1 and CTLA-4 expressed on T cells. In lymphocytes activated with anti-CD3e mAb, ATL313 inhibited the phosphorylation of Zap70, an effect that was reversed by the protein kinase A inhibitor H-89. In skin transplants, allograft survival was enhanced with ATL313, an effect blocked by ZM241385. These results indicate that A2AR agonists attenuate allogenic recognition by action on both T lymphocytes and APCs in vitro and delayed acute rejection in vivo. We conclude that A2AR agonists may represent a new class of compounds for induction therapy in organ transplantation.
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