Regulated necrosis, a proinflammatory cell death, potentially counteracts pathogenic infections

Zhang, Guangzhi; Wang, Jinyong; Zhao, Zhanran; Xin, Ting; Fan, Xuezheng; Shen, Qijun; Raheem, Abdul Salam Abdul; Lee, Chae Rhim; Jiang, Hui; Ding, Jiabo

doi:10.1038/s41419-022-05066-3

Cited by 29 publications

(20 citation statements)

References 227 publications

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“…The generation of ROS instigates necroptosis, a cellular process that necessitates the participation of RIPK3 and its substrate MLKL. RIPK3 activation, which is controlled by caspase-mediated cleavage and serves as a crucial switch for necroptosis and in ammation, enhanced in ammation-related cell death and damage in several in ammatory disease models [50] . Phosphorylation-mediated activation of MLKL causes it to move to the inner leaflet of the plasma membrane, disrupting cell integrity and prompting necroptosis [51] .…”

Section: Discussionmentioning

confidence: 99%

Myeloid PTEN controls STING-induced inflammation and necroptosis through NCID/NRF2 signaling in APAP-induced liver injury

Yang

Zhao

et al. 2023

Preprint

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Background Phosphatase and tensin homolog deleted on chromosome 10(PTEN) signaling has been known to play a critical role in maintaining cellular and tissue homeostasis, which also has an essential role in the inflammatory response. However, it remains unidentified whether and how the myeloid PTEN may govern the innate immune signaling stimulator of interferon genes (STING) mediated inflammation and hepatocyte necroptosis in APAP-induced liver injury (AILI). Methods Myeloid-specific PTEN knockout (PTENM−KO) and floxed PTEN (PTENFL/FL) mice were treated with APAP (400 mg/kg) or PBS. In a parallel in vitro study, bone marrow-derived macrophages (BMMs) were isolated from these conditional knockout mice and transfected with CRISPR/Cas9-mediated Notch1 knockout (KO) or CRISPR/Cas9-mediated STING activation vector followed by LPS (100 ng/ml) stimulation. Results Here, we report that myeloid-specific PTEN knockout (PTENM−KO) mice were resistant to oxidative stress-induced hepatocellular injury with reduced macrophage/neutrophil accumulation and proinflammatory mediators in AILI. PTENM-KO increased the interaction of nuclear Notch intracellular domain (NICD) and nuclear factor (erythroid-derived 2)-like 2 (NRF2) in the macrophage nucleus, reducing reactive oxygen species (ROS) generation. Mechanistically, it is worth noting that macrophage NICD and NRF2 co-localize within the nucleus under inflammatory conditions. Additionally, Notch1 promotes the interaction of immunoglobulin kappa J region (RBPjκ) with NRF2. Disruption of the Notch1 signal in PTEN deletion macrophages, reduced RBPjκ and NRF2 binding, and activated STING signaling. Moreover, PTENM-KO macrophages with STING activated led to TNF-α release and ROS generation, resulting in hepatocyte necroptosis upon co-culture with primary hepatocytes. Conclusions Our findings demonstrate that the myeloid PTEN-NICD/NRF2-STING axis is critical to regulating oxidative stress-induced liver inflammation and necroptosis in AILI and implies the therapeutic potential for managing sterile liver inflammation.

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Section: Discussionmentioning

confidence: 99%

Myeloid PTEN controls STING-induced inflammation and necroptosis through NCID/NRF2 signaling in APAP-induced liver injury

Yang

Zhao

et al. 2023

Preprint

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“…Target Pathway Molecular mechanism References release a large number of damage-associated molecules and triggering an inflammatory response (Kaczmarek et al, 2013;Pasparakis and Vandenabeele, 2015;Zhang G. et al, 2022). PRV causes cell necroptosis in a RIPK3-dependent manner, and inhibition of necroptosis promotes PRV replication (Gou et al, 2021).…”

Section: Prv Factorsmentioning

confidence: 99%

Progress on innate immune evasion and live attenuated vaccine of pseudorabies virus

Nie

Zhu²,

Wu³

et al. 2023

Front. Microbiol.

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Pseudorabies virus (PRV) is a highly infectious disease that can infect most mammals, with pigs as the only natural host, has caused considerable economic losses to the pig husbandry of the world. Innate immunity is the first defense line of the host against the attack of pathogens and is essential for the proper establishment of adaptive immunity. The host uses the innate immune response to against the invasion of PRV; however PRV makes use of various strategies to inhibit the innate immunity to promote the virus replication. Currently, live attenuated vaccine is used to prevent pig from infection with the PRV worldwide, such as Bartha K61. However, a growing number of data indicates that these vaccines do not provide complete protection against new PRV variants that have emerged since late 2011. Here we summarized the interactions between PRV and host innate immunity and the current status of live attenuated PRV vaccines to promote the development of novel and more effective PRV vaccines.

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“…Low fumarate concentrations and generation of mitochondrial ROS by keratinocytes lead to necroptosis, a form of programmed cell death characterized by inflammation and epithelial damage in the absence of significant recruitment of macrophages and neutrophils as seen in pyroptosis (Fig. 1) [53, 54]. The tissue damage and reduced recruitment of macrophages and neutrophils allow the internalization and passage of SCVs across the skin barrier [50].…”

Section: Bacterial Metabolism and Pathogenesis At Epithelial Barriersmentioning

confidence: 99%

“…Rather, it relies on the synthesis of branched-chain fatty acids to confer membrane fluidity and viability [90]. Lipoproteins are critical extracellular PAMPs derived from Gram-positive bacteria that are sensed through TLR2 [54]. S. aureus lipoproteins engage TLR2 receptors via esterified fatty acids, the composition of which could alter immunostimulatory capacity [93].…”

Section: Bacterial Metabolism and Phagocytic Leukocytesmentioning

confidence: 99%

The Intersection between Bacterial Metabolism and Innate Immunity

Acosta,

Alonzo III

2023

J Innate Immun

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Background: The innate immune system is the first line of defense against microbial pathogens and is essential for maintaining good health. If pathogens breach innate barriers, the likelihood of infection is significantly increased. Many bacterial pathogens pose a threat to human health on account of their ability to evade innate immunity and survive in growth-restricted environments. These pathogens have evolved sophisticated strategies to obtain nutrients as well as manipulate innate immune responses, resulting in disease or chronic infection. Summary: The relationship between bacterial metabolism and innate immunity is complex. Although aspects of bacterial metabolism can be beneficial to the host, particularly those related to the microbiota and barrier integrity, others can be harmful. Several bacterial pathogens harness metabolism to evade immune responses and persist during infection. The study of these adaptive traits provides insight into the roles of microbial metabolism in pathogenesis that extend beyond energy balance. This review considers recent studies on bacterial metabolic pathways that promote infection by circumventing several facets of the innate immune system. We also discuss relationships between innate immunity and antibiotics and highlight future directions for research in this field. Key Messages: Pathogenic bacteria have a remarkable capacity to harness metabolism to manipulate immune responses and promote pathogenesis. While we are beginning to understand the multifaceted and complex metabolic adaptations that occur during infection, there is still much to uncover with future research.

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Regulated necrosis, a proinflammatory cell death, potentially counteracts pathogenic infections

Cited by 29 publications

References 227 publications

Myeloid PTEN controls STING-induced inflammation and necroptosis through NCID/NRF2 signaling in APAP-induced liver injury

Myeloid PTEN controls STING-induced inflammation and necroptosis through NCID/NRF2 signaling in APAP-induced liver injury

Progress on innate immune evasion and live attenuated vaccine of pseudorabies virus

The Intersection between Bacterial Metabolism and Innate Immunity

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