Fuyi Liao scite author profile

Acute lung injury (ALI) is a heterogeneous inflammatory condition associated with high morbidity and mortality. Neutrophils play a key role in the development of different forms of ALI, and the release of neutrophil extracellular traps (NETs) is emerging as a common pathogenic mechanism. NETs are essential in controlling pathogens, and their defective release or increased degradation leads to a higher risk of infection. However, NETs also contain several pro-inflammatory and cytotoxic molecules than can exacerbate thromboinflammation and lung tissue injury. To reduce NET-mediated lung damage and inflammation, DNase is frequently used in preclinical models of ALI due to its capability of digesting NET DNA scaffold. Moreover, recent advances in neutrophil biology led to the development of selective NET inhibitors, which also appear to reduce ALI in experimental models. Here we provide an overview of the role of NETs in different forms of ALI discussing existing gaps in our knowledge and novel therapeutic approaches to modulate their impact on lung injury.

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Mitochondrial damage–associated molecular patterns released by lung transplants are associated with primary graft dysfunction

Scozzi

Ibrahim

Liao

et al. 2019

American Journal of Transplantation

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Primary graft dysfunction (PGD) is a major limitation in short-and long-term lung transplant survival. Recent work has shown that mitochondrial damage-associated molecular patterns (mtDAMPs) can promote solid organ injury, but whether they contribute to PGD severity remains unclear. We quantitated circulating plasma mitochondrial DNA (mtDNA) in 62 patients, before lung transplantation and shortly after arrival to the intensive care unit. Although all recipients released mtDNA, high levels were associated with severe PGD development. In a mouse orthotopic lung transplant model of PGD, we detected airway cell-free damaged mitochondria and mtDNA in the peripheral circulation. Pharmacologic inhibition or genetic deletion of formylated peptide receptor 1 (FPR1), a chemotaxis sensor for N-formylated peptides released by damaged mitochondria, inhibited graft injury. An analysis of intragraft neutrophil-trafficking patterns reveals that FPR1 enhances neutrophil transepithelial migration and retention within airways but does not control extravasation. Using donor lungs that express a mitochondria-targeted reporter protein, we also show that FPR1-mediated neutrophil trafficking is coupled with the engulfment of damaged mitochondria, which in turn triggers reactive oxygen species (ROS)-induced pulmonary edema. Therefore, our data demonstrate an association between mt-DAMP release and PGD development and suggest that neutrophil trafficking and effector responses to damaged mitochondria are drivers of graft damage. K E Y W O R D Sanimal models, basic (laboratory) research/science, cellular biology, clinical research/practice, immunobiology, innate immunity, ischemia-reperfusion injury (IRI), lung (allograft) function/ dysfunction, lung transplantation/pulmonology, mouse | 1465 SCOZZI et al.

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Neutrophil extracellular trap fragments stimulate innate immune responses that prevent lung transplant tolerance

Scozzi

Wang

Liao

et al. 2019

American Journal of Transplantation

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Neutrophil extracellular traps (NETs) have been shown to worsen acute pulmonary injury including after lung transplantation. The breakdown of NETs by DNAse‐1 can help restore lung function, but whether there is an impact on allograft tolerance remains less clear. Using intravital 2‐photon microscopy, we analyzed the effects of DNAse‐1 on NETs in mouse orthotopic lung allografts damaged by ischemia‐reperfusion injury. Although DNAse‐1 treatment rapidly degrades intragraft NETs, the consequential release of NET fragments induces prolonged interactions between infiltrating CD4+ T cells and donor‐derived antigen presenting cells. DNAse‐1 generated NET fragments also promote human alveolar macrophage inflammatory cytokine production and prime dendritic cells for alloantigen‐specific CD4+ T cell proliferation through activating toll‐like receptor (TLR) — Myeloid Differentiation Primary Response 88 (MyD88) signaling pathways. Furthermore, and in contrast to allograft recipients with a deficiency in NET generation due to a neutrophil‐specific ablation of Protein Arginine Deiminase 4 (PAD4), DNAse‐1 administration to wild‐type recipients promotes the recognition of allo‐ and self‐antigens and prevents immunosuppression‐mediated lung allograft acceptance through a MyD88‐dependent pathway. Taken together, these data show that the rapid catalytic release of NET fragments promotes innate immune responses that prevent lung transplant tolerance.

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An obligatory role for club cells in preventing obliterative bronchiolitis in lung transplants

Liu¹,

Liao²,

Scozzi³

et al. 2019

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Galuminox: Preclinical validation of a novel PET tracer for non-invasive imaging of oxidative stress in vivo

et al. 2020

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Overproduction of reactive oxygen species (ROS) is a well-established indicator of ongoing tissue inflammation. However, there is a scarcity of molecular imaging probes capable of providing noninvasive sensitive detection of ROS for allowing longitudinal studies of disease pathology and/or monitoring therapeutic efficacy of ROS scavengers. Herein, we report synthesis and chemical characterization of a novel metalloprobe, Galuminox, a moderately fluorescent agent that detects superoxide and hydrogen peroxide generation. Using live-cell fluorescence imaging analysis, Galuminox demonstrates ability to detect superoxide and monitor effects of ROS-attenuating agents, such as Carvedilol, Dexrazoxane, and mitoTempo in lung epithelial A549 cells. Furthermore, LPS stimulation of A549 cells that either express the mitochondria targeted fluorescent protein Keima or are stained with MitoSOX, a mitochondria-specific superoxide probe, indicates preferential co-localization of Galuminox with mitochondria producing elevated amounts of superoxide. Dynamic PET/CT scans 45 min post tail-vein administration of 68 Ga-Galuminox show 4-fold higher uptake and stable retention in lungs of LPS treated mice compared to their saline-only treated counterparts. Post preclinical PET imaging, quantitative biodistribution studies also correlate with 4-fold higher retention of the radiotracer in lungs of LPS treated mice compared with their saline-only treated control counterparts. Consistent with these observations, lung cells isolated from LPS-treated mice demonstrated elevated ROS production deploying CellROX, the ROS probe. Finally, Galuminox uptake correlates with histological and physiological evidence of acute lung injury as evident by polynuclear infiltration, thickening of the alveolar epithelial membranes and increased bronchioalveolar lavage protein content. Taken collectively, these data indicate that 68 Ga-Galuminox tracer uptake is a measure of ROS activity in acutely injured lungs and suggests its potential utility in monitoring oxidative stress in other diseases.

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Reprogramming alveolar macrophage responses to TGF-β reveals CCR2+ monocyte activity that promotes bronchiolitis obliterans syndrome

Liu¹,

Liao²,

Zhu³

et al. 2022

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Bronchiolitis obliterans syndrome (BOS) is a major impediment to lung transplant survival and is generally resistant to medical therapy. Extracorporeal photophoresis (ECP) is an immunomodulatory therapy that shows promise in stabilizing BOS patients, but its mechanisms of action are unclear. In a mouse lung transplant model, we show that ECP blunts alloimmune responses and inhibits BOS through lowering airway TGF-β bioavailability without altering its expression. Surprisingly, ECP-treated leukocytes were primarily engulfed by alveolar macrophages (AMs), which were reprogrammed to become less responsive to TGF-β and reduce TGF-β bioavailability through secretion of the TGF-β antagonist decorin. In untreated recipients, high airway TGF-β activity stimulated AMs to express CCL2, leading to CCR2 + monocyte-driven BOS development. Moreover, we found TGF-β receptor 2–dependent differentiation of CCR2 + monocytes was required for the generation of monocyte-derived AMs, which in turn promoted BOS by expanding tissue-resident memory CD8 + T cells that inflicted airway injury through Blimp-1–mediated granzyme B expression. Thus, through studying the effects of ECP, we have identified an AM functional plasticity that controls a TGF-β–dependent network that couples CCR2 + monocyte recruitment and differentiation to alloimmunity and BOS.

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C3 expression by lung transplants reduces alloimmune-mediated injury

Kulkarni

Liao

et al. 2019

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Allograft injury is a major risk factor for death in lung transplant recipients. Complement protein C3 is primarily synthesized in the liver. However, a recent study by our group has demonstrated that C3 present in pulmonary epithelial cells can be augmented to facilitate their own ability to withstand acute environmental stress. Here, we hypothesized that pulmonary C3 expression reduces the severity of allograft rejection. To address this question, C3−/−left lungs [on a C57BL/6 (B6) background] were orthotopically transplanted into wildtype (WT) fully MHC mismatched (CBA/J) recipients. The right lung, native to the recipient, served as an internal control. CBA/J lungs transplanted into C3−/− recipients, C3−/− lungs transplanted into C3−/− recipients and CBA/J lungs transplanted into WT B6 recipients were also employed as controls. One week after transplantation, recipients were euthanized and evaluated for C3 levels and graft injury. C3 protein in C3−/− recipients of WT B6 and CBA/J lungs was not detected in the peripheral circulation but was expressed within graft tissues suggesting locally expressed C3 is sequestered within the lung. Signs of graft tissue injury were only observed in allogeneic recipients. However, acute rejection severity was significantly higher in C3−/− allografts when compared to WT allografts. Additionally, C3−/− allografts had a distinct pattern of acute alveolar damage and increased cellularity not evident in WT allografts. Taken collectively, our data indicate that expression of C3 by lung allografts attenuates alloimmunedependent responses that are associated with reduced survival in humans.

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Extracorporeal Photopheresis Inhibits the Development of Obliterative Airway Disease and Promotes the Expansion of Intragraft Retinoic Acid-Producing CD103 + Dendritic Cells and Tregs

Liu

Liao

Lin

et al. 2017

The Journal of Heart and Lung Transplantation

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Fuyi Liao

The role of neutrophil extracellular traps in acute lung injury

Mitochondrial damage–associated molecular patterns released by lung transplants are associated with primary graft dysfunction

Neutrophil extracellular trap fragments stimulate innate immune responses that prevent lung transplant tolerance

An obligatory role for club cells in preventing obliterative bronchiolitis in lung transplants

Galuminox: Preclinical validation of a novel PET tracer for non-invasive imaging of oxidative stress in vivo

Reprogramming alveolar macrophage responses to TGF-β reveals CCR2+ monocyte activity that promotes bronchiolitis obliterans syndrome

C3 expression by lung transplants reduces alloimmune-mediated injury

Extracorporeal Photopheresis Inhibits the Development of Obliterative Airway Disease and Promotes the Expansion of Intragraft Retinoic Acid-Producing CD103 + Dendritic Cells and Tregs

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