Liyan Fan scite author profile

Macrophages can be activated and regulated by high-mobility group box 1 (HMGB1), a highly conserved nuclear protein.Inflammatory functions of HMGB1 are mediated by binding to cell surface receptors, including the receptor for advanced glycation end products (RAGE), Toll-like receptor (TLR)2, TLR4, and TLR9. Pyroptosis is a caspase-1-dependent programmed cell death, which features rapid plasma membrane rupture, DNA fragmentation, and release of proinflammatory intracellular contents. Pyroptosis can be triggered by various stimuli, however, the mechanism underlying pyroptosis remains unclear. In this study, we identify a novel pathway of HMGB1-induced macrophage pyroptosis. We demonstrate that HMGB1, acting through RAGE and dynamin-dependent signaling, initiates HMGB1endocytosis, which in turn induces cell pyroptosis. The endocytosis of HMGB1 triggers a cascade of molecular events, including cathepsin B release from ruptured lysosomes followed by pyroptosome formation and caspase-1 activation. We further confirm that HMGB1-induced macrophage pyroptosis also occurs in vivo during endotoxemia, suggesting a pathophysiological significance for this form of pyroptosis in the development of inflammation. These findings shed light on the regulatory role of ligand-receptor internalization in directing cell fate, which may have an important role in the progress of inflammation following infection and injury.

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Krüppel-Like Factors in Vascular Inflammation: Mechanistic Insights and Therapeutic Potential

Sweet

Fan

Hsieh

et al. 2018

Front. Cardiovasc. Med.

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The role of inflammation in vascular disease is well recognized, involving dysregulation of both circulating immune cells as well as the cells of the vessel wall itself. Unrestrained vascular inflammation leads to pathological remodeling that eventually contributes to atherothrombotic disease and its associated sequelae (e.g., myocardial/cerebral infarction, embolism, and critical limb ischemia). Signaling events during vascular inflammation orchestrate widespread transcriptional programs that affect the functions of vascular and circulating inflammatory cells. The Krüppel-like factors (KLFs) are a family of transcription factors central in regulating vascular biology in states of homeostasis and disease. Given their abundance and diversity of function in cells associated with vascular inflammation, understanding the transcriptional networks regulated by KLFs will further our understanding of the pathogenesis underlying several pervasive health concerns (e.g., atherosclerosis, stroke, etc.) and consequently inform the treatment of cardiovascular disease. Within this review, we will discuss the role of KLFs in coordinating protective and deleterious responses during vascular inflammation, while addressing the potential targeting of these critical transcription factors in future therapies.

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The Krüppel-Like Factors and Control of Energy Homeostasis

Hsieh

Fan

Sweet

et al. 2018

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Hemorrhagic Shock Augments Nlrp3 Inflammasome Activation in the Lung through Impaired Pyrin Induction

Wen

Shi

et al. 2013

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Hemorrhagic shock (HS) promotes the development of systemic inflammatory response syndrome (SIRS) and organ injury by activating and priming the innate immune system for an exaggerated inflammatory response through, as of yet, unclear mechanisms. IL-1β also plays an important role in the development of post-HS SIRS and active IL-1β production is tightly controlled by the inflammasome. Pyrin, a protein of 781 amino-acids with pyrin domain (PYD) at the N-terminal, negatively regulates inflammasome activation through interaction with nucleotide-binding oligomerization domain-like receptor protein (NLRP). Expression of pyrin can be induced by LPS and cytokines, and IL-10 is a known potent inducer of pyrin expression in macrophages. In the present study, we tested the hypothesis that HS downregulates IL-10, and therefore decreases pyrin expression to promote inflammasome activation and subsequent IL-1β processing and secretion in the lungs. Our results show that LPS, while activating Nlrp3 inflammasome in the lungs, also induced pyrin expression, which in turn suppressed inflammasome activation. More importantly, LPS-mediated upregulation of IL-10 enhanced pyrin expression, which serves, particularly in later phases, as a potent negative feedback mechanism regulating inflammasome activation. However, HS-mediated suppression of IL-10 expression in alveolar macrophages (AM) attenuated the upregulation of pyrin in AM and lung endothelial cells, and thereby significantly enhanced inflammasome activation and IL-1β secretion in the lungs. This study demonstrates a novel mechanism by which HS suppresses negative feedback regulation of Nlrp3 inflammasome to enhance IL-1β secretion in response to subsequent LPS challenge, and so primes for inflammation.

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Liyan Fan

Macrophage endocytosis of high-mobility group box 1 triggers pyroptosis

Krüppel-Like Factors in Vascular Inflammation: Mechanistic Insights and Therapeutic Potential

The Krüppel-Like Factors and Control of Energy Homeostasis

Hemorrhagic Shock Augments Nlrp3 Inflammasome Activation in the Lung through Impaired Pyrin Induction

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