Graft IL-33 regulates infiltrating macrophages to protect against chronic rejection

Li, Tengfang; Zhang, Zhongqiang; Bartolacci, Joe G.; Dwyer, Gaelen K.; Liu, Quan; Mathews, Lisa; Murugesan, V.; Roessing, Anna; Lee, Yoojin C.; Dai, Helong; Shiva, Sruti; Oberbarnscheidt, Martin H.; Dziki, Jenna L.; Mullet, Steven J.; Wendell, Stacy G.; Wilkinson, James D.; Webber, Steven A.; Wood-Trageser, Michelle A.; Watkins, Simon C.; Demetris, Anthony J.; Hussey, George S.; Badylak, Stephen F.; Turnquist, Hēth

doi:10.1172/jci133008

Cited by 56 publications

(71 citation statements)

References 94 publications

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“…Using a mouse model of chronic rejection following heart transplant, Li et al 3 showed that the lack of IL-33 expression in the transplanted heart accelerates graft rejection, associated with increased T-cell infiltration. In light of these observations IL-33 emerges as a stromal cell-derived alarmin which limits the local inflammatory response early after transplantation (Figure).…”

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confidence: 99%

“…Indeed, IL-33 is upregulated in allografts and its absence significantly aggravates vascular occlusion and subsequent fibrosis in the transplanted tissue. 3 …”

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confidence: 99%

“… 3 , 4 Loss of graft IL-33 results in increased recruitment of proinflammatory macrophages expressing the inflammatory marker inducible nitric oxide synthase (iNOS). 3 , 5 Blockage of monocyte recruitment as well as hydrogel-based local IL-33 delivery to the graft reduced the number of infiltrating proinflammatory macrophages and protected against vasculopathy and fibrosis in transplanted IL33-deficient mice. 3 , 4 , 6 Importantly, these effects are achieved via local—and not systemic—IL-33 action.…”

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confidence: 99%

“… 3 , 5 , 7 Although similar to IL-4–induced macrophages, IL-33–triggered macrophages reflect a unique phenotype hallmarked by a specific metabolic remodeling with aspartate-arginosuccinate shunt features, increased fatty acid uptake and reduced iNOS expression. 3 , 7 In vitro experiments demonstrated that IL-33 prime macrophages toward an “M2-like” anti-inflammatory phenotype through fatty acid uptake while limiting the induction of iNOS, which is required for a glycolytic and proinflammatory macrophage shift. 3 , 5 , 7 Consistent with these findings, fatty acid uptake in macrophages from heart transplants is significantly reduced in the absence of IL-33, supporting an important role for graft IL-33 in stimulating fatty acid–driven metabolic switch in infiltrating myeloid cells and triggering a tolerogenic response to the transplant.…”

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confidence: 99%

“… 3 , 7 In vitro experiments demonstrated that IL-33 prime macrophages toward an “M2-like” anti-inflammatory phenotype through fatty acid uptake while limiting the induction of iNOS, which is required for a glycolytic and proinflammatory macrophage shift. 3 , 5 , 7 Consistent with these findings, fatty acid uptake in macrophages from heart transplants is significantly reduced in the absence of IL-33, supporting an important role for graft IL-33 in stimulating fatty acid–driven metabolic switch in infiltrating myeloid cells and triggering a tolerogenic response to the transplant. The crucial and specific role of IL-33 in driving monocyte recruitment and macrophage differentiation after transplant was definitely proven in LysM-Cre conditional mice deficient for the expression of the IL-33 receptor serum stimulation-2 in myeloid cells.…”

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When Alarmins Are “Therapeutic”

Vinchi

2020

HemaSphere

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confidence: 99%

“…Indeed, IL-33 is upregulated in allografts and its absence significantly aggravates vascular occlusion and subsequent fibrosis in the transplanted tissue. 3 …”

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confidence: 99%

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confidence: 99%

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confidence: 99%

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When Alarmins Are “Therapeutic”

Vinchi

2020

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Lymph‐Node‐Targeted Drug Delivery for Effective Immunomodulation to Prolong the Long‐Term Survival After Heart Transplantation

et al. 2022

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The chronic rejection responses and side effects of the systematic administration of immunosuppressants are the main obstacles to heart allograft and patient survival. The development of xenotransplantation also urgently requires more efficient immune regulation strategies. Herein, it is demonstrated that lymph‐node (LN)‐targeted drug delivery can realize LN‐specific immunomodulation with attenuated immune suppression on distant peripheral immune organs to effectively prolong long‐term survival after heart transplantation in a chronic murine heart transplantation model. A chemokine C‐C motif ligand 21 (CCL21) specific aptamer for LN targeting is decorated onto the surface of the hybrid nanoparticular delivery vector mainly composed of CaCO3/CaP/heparin. The targeting delivery system can dramatically enhance accumulation of the loaded immunosuppressant, fingolimod hydrochloride (FTY720), in draining lymph nodes (dLNs) for inducing powerful immune suppression. By promoting the generation of endogenous regulatory T cells (Tregs) and decreasing the proportion of effector T cells (Teffs) in dLNs after heart transplantation, the LN‐targeting strategy can effectively regulate local immune responses instead of systemic immunity, which reduces the incidence of long‐term complications. This study provides an efficient strategy to improve the survival rate after organ transplantation by precise and localized immunoregulation with minimized side effects of immunosuppression.

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DsbA‐L deletion attenuates LPS‐induced acute kidney injury by modulating macrophage polarization

Cui

Chen

et al. 2023

Eur J Immunol

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Disulfide bond A oxidoreductase‐like protein (DsbA‐L) drives acute kidney injury (AKI) by directly upregulating the expression of voltage‐dependent anion‐selective channels in proximal tubular cells. However, the role of DsbA‐L in immune cells remains unclear. In this study, we used an LPS‐induced AKI mouse model to assess the hypothesis that DsbA‐L deletion attenuates LPS‐induced AKI and explore the potential mechanism of DsbA‐L action. After 24 hours of LPS exposure, the DsbA‐L knockout group exhibited lower serum creatinine levels compared to the WT group. Furthermore, peripheral levels of the inflammatory cytokine IL‐6 were decreased. Transcriptomic data analysis revealed a significant down‐regulation in the IL‐17 and tumor necrosis factor pathways in DsbA‐L knockout mice following LPS induction. Metabolomic analysis suggested that arginine metabolism was significantly different between the WT and DsbA‐L knockout groups after LPS treatment. Notably, the M1 polarization of macrophages in the kidneys of DsbA‐L knockout AKI mice was significantly reduced. Expression of the transcription factors NF‐κB and AP‐1 was downregulated after DsbA‐L knockout. Our results suggest that DsbA‐L regulates LPS‐mediated oxidative stress, promotes M1 polarization of macrophages, and induces expression of inflammatory factors via the NF‐κB/AP‐1 pathway.

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Graft IL-33 regulates infiltrating macrophages to protect against chronic rejection

Cited by 56 publications

References 94 publications

When Alarmins Are “Therapeutic”

When Alarmins Are “Therapeutic”

Lymph‐Node‐Targeted Drug Delivery for Effective Immunomodulation to Prolong the Long‐Term Survival After Heart Transplantation

DsbA‐L deletion attenuates LPS‐induced acute kidney injury by modulating macrophage polarization

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