Winnie Enns scite author profile

IL-6 affects tissue reparative and inflammatory properties of vascular endothelial cells (ECs). This cytokine can signal to cells through classic and trans-signaling mechanisms, which are differentiated based on the expression of IL-6 receptor (IL-6R) on the surface of target cells. The biological effects of these IL-6 signaling mechanisms are distinct and have implications for vascular pathologies. We have directly compared IL-6 classic and trans-signaling in ECs. Human ECs expressed IL-6R in culture and in situ in coronary arteries from heart transplants. Stimulation of human ECs with IL-6, to model classic signaling, triggered the activation of PI3K-Akt and ERK1/2 signaling pathways while stimulation with IL-6 + sIL-6R, to model trans-signaling, triggered activation of STAT3, PI3K-Akt and ERK1/2 pathways. IL-6 classic signaling reduced persistent injury of ECs in an allograft model of vascular rejection and inhibited cell death induced by growth factor withdrawal. When inflammatory effects were examined, IL-6 classic signaling did not induce ICAM or CCL2 expression but was sufficient to induce secretion of CXCL8 and support transmigration of neutrophil-like cells. IL-6 trans-signaling induced all inflammatory effects studied. Our findings show that IL-6 classic and trans-signaling have overlapping but distinct properties in controlling EC survival and inflammatory activation. This has implications for understanding effects of IL-6 receptor blocking therapies as well as for vascular responses in inflammatory and immune conditions.

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Prevention of vascular-allograft rejection by protecting the endothelial glycocalyx with immunosuppressive polymers

Siren

Luo

Tam

et al. 2021

Nat Biomed Eng

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Graft-Derived IL-6 Amplifies Proliferation and Survival of Effector T Cells That Drive Alloimmune-Mediated Vascular Rejection

Rossum

Rey²,

Enns³

et al. 2016

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Bim Regulates Alloimmune-Mediated Vascular Injury Through Effects on T-Cell Activation and Death

Rossum

Enns

Shi

et al. 2014

ATVB

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Objective Bim is a pro-apoptotic Bcl-2 protein known to down-regulate immune responses and to also be required for antigen-induced T cell activation. However, it is not known how the effect of Bim on these offsetting processes determines the outcome of allogeneic immune responses. We have defined the role of Bim in regulating alloantigen-driven T cell responses in a model of vascular rejection. Approach and Results Bim was required for proliferation of CD4 and CD8 T cells, and for IL-2 production, in T cells stimulated with alloantigen in vitro. Moreover, a partial reduction in Bim expression was sufficient to attenuate T cell activation whereas a complete elimination of Bim was required to prevent CD4 T cell death in response to cytokine withdrawl. When alloimmune-mediated vascular rejection was examined using an aortic interposition model, there was significantly less intimal thickening in Bim+/−, but not Bim−/−, graft recipients. T cell proliferation in response to allograft arteries was significantly reduced in both Bim+/− and Bim−/− mice, but cell death was attenuated only in Bim−/− animals. Conclusions Bim controls both T cell activation and death in response to alloantigen stimulation. These processes act cooperatively to determine the outcome of immune responses in allograft arteries.

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Winnie Enns

Disruption of the Gut Microbiota With Antibiotics Exacerbates Acute Vascular Rejection

Overlapping and distinct biological effects of IL-6 classic and trans-signaling in vascular endothelial cells

Prevention of vascular-allograft rejection by protecting the endothelial glycocalyx with immunosuppressive polymers

Graft-Derived IL-6 Amplifies Proliferation and Survival of Effector T Cells That Drive Alloimmune-Mediated Vascular Rejection

Bim Regulates Alloimmune-Mediated Vascular Injury Through Effects on T-Cell Activation and Death

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