Ziyue Yi scite author profile

Ziyue Yi

5Publications

94Citation Statements Received

380Citation Statements Given

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310

316

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Virginia Tech

Publications

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Development of Exhausted Memory Monocytes and Underlying Mechanisms

Pradhan

Geng

et al. 2021

Front. Immunol.

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Pathogenic inflammation and immuno-suppression are cardinal features of exhausted monocytes increasingly recognized in septic patients and murine models of sepsis. However, underlying mechanisms responsible for the generation of exhausted monocytes have not been addressed. In this report, we examined the generation of exhausted primary murine monocytes through prolonged and repetitive challenges with high dose bacterial endotoxin lipopolysaccharide (LPS). We demonstrated that repetitive LPS challenges skew monocytes into the classically exhausted Ly6Chi population, and deplete the homeostatic non-classical Ly6Clo population, reminiscent of monocyte exhaustion in septic patients. scRNAseq analyses confirmed the expansion of Ly6Chi monocyte cluster, with elevation of pathogenic inflammatory genes previously observed in human septic patients. Furthermore, we identified CD38 as an inflammatory mediator of exhausted monocytes, associated with a drastic depletion of cellular NAD+; elevation of ROS; and compromise of mitochondria respiration, representative of septic monocytes. Mechanistically, we revealed that STAT1 is robustly elevated and sustained in LPS-exhausted monocytes, dependent upon the TRAM adaptor of the TLR4 pathway. TRAM deficient monocytes are largely resistant to LPS-mediated exhaustion, and retain the non-classical homeostatic features. Together, our current study addresses an important yet less-examined area of monocyte exhaustion, by providing phenotypic and mechanistic insights regarding the generation of exhausted monocytes.

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Resolving monocytes generated through TRAM deletion attenuate atherosclerosis

Geng¹,

Zhang²,

Yi³

et al. 2021

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Polarization of low-grade inflammatory monocytes facilitates the pathogenesis of atherosclerosis. However, underlying mechanisms as well as approaches for resolving monocyte polarization conducive for the regression of atherosclerosis are not well established. In this report, we demonstrate that TRIF-related adaptor molecule (TRAM) mediates monocyte polarization in vivo and in vitro. TRAM controls monocyte polarization through activating Src family kinase (SFK) c-SRC, which not only induces STAT1/STAT5-regulated inflammatory mediators CCR2 and SIRPα, but also suppresses PPAR-regulated resolving mediator CD200R. Enhanced PPAR and Pex5 due to TRAM deficiency facilitates peroxisome homeostasis and reduction of cellular reactive oxygen species (ROS), further contributing to the establishment of resolving monocyte phenotype. TRAM deficient monocytes can propagate the resolving phenotype to neighboring monocytes through CD200R mediated inter-cellular communication. At the translational level, we show that TRAM deficient mice are resistant to high-fat-diet induced pathogenesis of atherosclerosis. We further document that intravenous transfusion of TRAM deficient resolving monocytes into atherosclerotic mice can potently reduce the progression of atherosclerosis.Together, our data reveal that targeting TRAM may facilitate the effective generation of resolving monocytes conducive for the treatment of atherosclerosis.

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Generation of resolving memory neutrophils through pharmacological training with 4-PBA or genetic deletion of TRAM

Lin

Wang

et al. 2022

Cell Death Dis

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Neutrophils are the dominant leukocytes in circulation and the first responders to infection and inflammatory cues. While the roles of neutrophils in driving inflammation have been widely recognized, the contribution of neutrophils in facilitating inflammation resolution is under-studied. Here, through single-cell RNA sequencing analysis, we identified a subpopulation of neutrophils exhibiting pro-resolving characteristics with greater Cd200r and Cd86 expression at the resting state. We further discovered that 4-PBA, a peroxisomal stress-reducing agent, can potently train neutrophils into the resolving state with enhanced expression of CD200R, CD86, as well as soluble pro-resolving mediators Resolvin D1 and SerpinB1. Resolving neutrophils trained by 4-PBA manifest enhanced phagocytosis and bacterial-killing functions. Mechanistically, the generation of resolving neutrophils is mediated by the PPARγ/LMO4/STAT3 signaling circuit modulated by TLR4 adaptor molecule TRAM. We further demonstrated that genetic deletion of TRAM renders the constitutive expansion of resolving neutrophils, with an enhanced signaling circuitry of PPARγ/LMO4/STAT3. These findings may have profound implications for the effective training of resolving neutrophils with therapeutic potential in the treatment of both acute infection as well as chronic inflammatory diseases.

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Comparative analyses of monocyte memory dynamics from mice to humans

Geng

2023

Inflamm. Res.

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Background Innate monocytes can adopt dynamic “memory” states ranging from low-grade inflammation to pathogenic exhaustion, dependent upon signal strength and history of challenges. Low-grade inflammatory monocytes facilitate the pathogenesis of chronic inflammatory diseases, while exhausted monocytes drive the pathogenesis of severe sepsis. Although clinical and basic studies suggest the conservation of key features of exhausted monocytes from human and murine sepsis, systems analyses of monocyte exhaustion among human and murine monocytes are lacking. Methods We performed cross examination of septic monocytes scRNAseq data recently collected from human sepsis patients as well as experimental septic mice, in reference to monocytes experimentally exhausted in vitro. Furthermore, we performed pseudo-time analyses of in vitro programmed monocytes following prolonged challenges causing either low-grade inflammation or exhaustion. Additional comparative analyses of low-grade inflammatory monocytes were performed with scRNAseq data from selected human patients with chronic low-grade inflammatory diseases. Results Our systems analyses reveal key features of monocyte exhaustion including reduced differentiation, pathogenic inflammation and immune suppression that are highly conserved in human and murine septic monocytes, and captured by in vitro experimental exhaustion. Pseudo-time analyses reveal that monocytes initially transition into a less-differentiated state with proliferative potential. The expansion of proliferative monocytes can be observed not only in experimentally challenged monocytes, but also in tissues of murine sepsis and human septic blood. We observed that monocytes similarly transition into the less-differentiated state when challenged with a subclinical dose endotoxin under chronic inflammatory conditions. Instead of being exhausted, monocytes with prolonged challenges with super-low dose endotoxin bifurcate into the low-grade inflammatory immune-enhancing or the chemotactic/adhesive state, often see in atherosclerosis or auto-immune diseases. Conclusions Key features of monocyte memory dynamics are identified and conserved in human and murine monocytes, which can be captured by prolonged challenges of innate signals with varying signal strength.

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Resolving neutrophils due to TRAM deletion renders protection against experimental sepsis

Lin

Wang

et al. 2023

Inflamm. Res.

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Ziyue Yi

Development of Exhausted Memory Monocytes and Underlying Mechanisms

Resolving monocytes generated through TRAM deletion attenuate atherosclerosis

Generation of resolving memory neutrophils through pharmacological training with 4-PBA or genetic deletion of TRAM

Comparative analyses of monocyte memory dynamics from mice to humans

Resolving neutrophils due to TRAM deletion renders protection against experimental sepsis

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