Zihao Wu scite author profile

The mechanisms of allograft tolerance have been classified as deletion, anergy, ignorance and suppression/regulation. Deletion has been implicated in central tolerance, whereas peripheral tolerance has generally been ascribed to clonal anergy and/or active immunoregulatory states. Here, we used two distinct systems to assess the requirement for T-cell deletion in peripheral tolerance induction. In mice transgenic for Bcl-xL, T cells were resistant to passive cell death through cytokine withdrawal, whereas T cells from interleukin-2-deficient mice did not undergo activation-induced cell death. Using either agents that block co-stimulatory pathways or the immunosuppressive drug rapamycin, which we have shown here blocks the proliferative component of interleukin-2 signaling but does not inhibit priming for activation-induced cell death, we found that mice with defective passive or active T-cell apoptotic pathways were resistant to induction of transplantation tolerance. Thus, deletion of activated T cells through activation-induced cell death or growth factor withdrawal seems necessary to achieve peripheral tolerance across major histocompatibility complex barriers.

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Homeostatic proliferation is a barrier to transplantation tolerance

Bensinger

Zhang

et al. 2003

Nat Med

385

362

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Despite the ease of inhibiting immune responses by blockade of T-cell costimulation in naive rodent models, it is difficult to suppress those responses in animals with memory cells 1,2 . Studies demonstrating the importance of alloreactive T-cell deletion during tolerance induction have promoted use of peritransplant T-cell-depleting therapies in clinical trials [3][4][5][6] . But potentially complicating wide-scale, nonspecific T-cell depletion is the finding that extensive T-cell proliferation can occur under conditions of lymphopenia. This process, termed homeostatic proliferation 7,8 , may induce acquisition of functional memory T cells 9-13 . Here, using clinically relevant mouse models of peripheral T-cell depletion, we show that residual nondepleted T cells undergo substantial homeostatic expansion. In this setting, costimulatory blockade neither significantly suppresses homeostatic proliferation nor prevents allograft rejection. In addition, T cells that have completed homeostatic proliferation show dominant resistance to tolerance when adoptively transferred into wild-type recipients, consistent with known properties of memory cells in vivo. These findings establish the importance of homeostatic proliferation in clinically relevant settings, demonstrate the barrier that homeostatic proliferation can present to the induction of transplantation tolerance, and have important implications for transplantation protocols that use partial or complete peripheral T-cell depletion.T cells undergo homeostatic proliferation when transferred into severe combined immunodeficiency (scid), recombination-activating gene-deficient or irradiated recipients7 ,8 . In many clinical transplantation protocols, T-cell depletion is less profound. We therefore asked whether residual nondepleted cells could undergo homeostatic proliferation. We treated mice with two doses (100 μg/dose) of depleting monoclonal antibodies directed at CD4 and CD8 (days 0 and 5). This induced 80-90% T-cell depletion, which was maintained for >10 d after the last dose (data not shown).

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Allograft Rejection in a New Allospecific CD4+ TCR Transgenic Mouse

Sayegh

Hancock

et al. 2003

American Journal of Transplantation

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The application of TCR transgenic mice to transplantation immunology is hampered by the limited lines available. Recently, we reported CD4 + T cell receptor (TCR) transgenic mice specific for I-A bm12 expressed on B6.C.H-2 bm12 mice. Here, we characterized rejection of skin and vascularized cardiac allografts in these mice, which we term ABM (for anti-bm12). In vivo proliferative experiments reveal that all CD4 T cells in ABM mice react to bm12 antigens. Surprisingly, while ABM mice have accelerated (compared to B6 recipients) rejection of bm12 skin allografts, they, like B6 recipients, fail to acutely reject bm12 cardiac allografts. This is not due to lack of immunogenicity of bm12 hearts, as these grafts are acutely rejected by primed ABM recipients, although not by primed B6 recipients. Lastly, long-term surviving bm12 grafts in ABM recipients are relatively free from chronic rejection (compared with B6 recipients), which may be due to skewing of the CD4 repertoire towards direct alloreactivity, and consequent lack of CD4 mediated indirect allorecognition as evidenced by the lack of IgG deposition in those grafts. The results indicate that a complex interplay between responder frequency, priming and repertoire dictates the occurrence, or lack thereof, of acute and chronic rejection.

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FURIN Inhibition Reduces Vascular Remodeling and Atherosclerotic Lesion Progression in Mice

Yakala

Cabrera-Fuentes

Crespo-Avilan

et al. 2019

ATVB

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Objective— Atherosclerotic coronary artery disease is the leading cause of death worldwide, and current treatment options are insufficient. Using systems-level network cluster analyses on a large coronary artery disease case-control cohort, we previously identified PCSK3 (proprotein convertase subtilisin/kexin family member 3; FURIN ) as a member of several coronary artery disease–associated pathways. Thus, our objective is to determine the role of FURIN in atherosclerosis. Approach and Results— In vitro, FURIN inhibitor treatment resulted in reduced monocyte migration and reduced macrophage and vascular endothelial cell inflammatory and cytokine gene expression. In vivo, administration of an irreversible inhibitor of FURIN, α-1-PDX (α1-antitrypsin Portland), to hyperlipidemic Ldlr −/− mice resulted in lower atherosclerotic lesion area and a specific reduction in severe lesions. Significantly lower lesional macrophage and collagen area, as well as systemic inflammatory markers, were observed. MMP2 (matrix metallopeptidase 2), an effector of endothelial function and atherosclerotic lesion progression, and a FURIN substrate was significantly reduced in the aorta of inhibitor-treated mice. To determine FURIN’s role in vascular endothelial function, we administered α-1-PDX to Apoe −/− mice harboring a wire injury in the common carotid artery. We observed significantly decreased carotid intimal thickness and lower plaque cellularity, smooth muscle cell, macrophage, and inflammatory marker content, suggesting protection against vascular remodeling. Overexpression of FURIN in this model resulted in a significant 67% increase in intimal plaque thickness, confirming that FURIN levels directly correlate with atherosclerosis. Conclusions— We show that systemic inhibition of FURIN in mice decreases vascular remodeling and atherosclerosis. FURIN-mediated modulation of MMP2 activity may contribute to the atheroprotection observed in these mice.

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Zihao Wu

Requirement for T-cell apoptosis in the induction of peripheral transplantation tolerance

Homeostatic proliferation is a barrier to transplantation tolerance

Allograft Rejection in a New Allospecific CD4+ TCR Transgenic Mouse

FURIN Inhibition Reduces Vascular Remodeling and Atherosclerotic Lesion Progression in Mice

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