Sialoglycan recognition is a common connection linking acidosis, zinc, and HMGB1 in sepsis

Siddiqui, Shoib Sarwar; Dhar, Chirag; Sundaramurthy, Venkatasubramaniam; Sasmal, Aniruddha; Yu, Hai; Bandala‐Sanchez, Esther; Li, Miaomiao; Zhang, Xiaoxiao; Chen, Xi; Harrison, Leonard C.; Xu, Ding; Varki, Ajit

doi:10.1073/pnas.2018090118

Cited by 15 publications

(12 citation statements)

References 86 publications

(76 reference statements)

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“…2020 ), it remains to be seen if some of the more recent infectious variants have regained these residues. There may also be other effects of Sias such as on immune recognition given that sialoglycans serve as self-associated molecular patters (SAMPs) ( Varki 2011 ) and/or in COVID-19-associated inflammation ( Siddiqui et al. 2021 ).…”

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confidence: 99%

“…While prospective trials of zinc supplementation are underway ( Perera et al., 2020 ), existing retrospective meta-analyses have given inconsistent results ( Fromonot et al., 2021 ; Dubourg et al., 2021 ; Wessels et al., 2021 ; Szarpak et al., 2021 ). We recently discovered that HMGB1 can be functionally sequestered away from its activating receptors by plasma sialoglycoproteins in a zinc-dependent manner, a protective effect that is lost when blood pH falls due to lactic acidosis ( Siddiqui et al., 2021 ). Current trials independently studying zinc supplementation, HMGB1 inhibition, or pH normalization may be more successful if these approaches are combined and perhaps supplemented by infusions of heavily sialylated forms of glycoproteins like CD52 ( Shathili et al., 2019 ).…”

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confidence: 99%

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Are sialic acids involved in COVID-19 pathogenesis?

et al. 2021

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Are sialic acids involved in COVID-19 pathogenesis?

et al. 2021

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“…The level of HMGB1 is closely related to the prognosis of sepsis. It is an important member of the alarm hormone in vivo [ 33 ]. As a typical alarm protein [ 34 ], the HMGB1 can induce inflammation after transfer to the outside.…”

Section: Discussionmentioning

confidence: 99%

High Concentration Hydrogen Mitigates Sepsis-Induced Acute Lung Injury in Mice by Alleviating Mitochondrial Fission and Dysfunction

Zhao

Sun

Cui

et al. 2023

JPM

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Background: Multiple organ failure (MOF) is the main cause of early death in septic shock. Lungs are among the organs that are affected in MOF, resulting in acute lung injury. A large number of inflammatory factors and stress injury in sepsis can lead to alterations in mitochondrial dynamics. Numerous studies have confirmed that hydrogen can alleviate sepsis in the animal model. The purpose of this experiment was to explore the therapeutic effect of high concentration (67%) hydrogen on acute lung injury in septic mice and its mechanism. Methods: The moderate and severe septic models were prepared by cecal ligation and puncture. Hydrogen with different concentrations was inhaled for one hour at 1 h and 6 h after the corresponding surgery. The arterial blood gas of mice during hydrogen inhalation was monitored in real time, and the 7-day survival rate of mice with sepsis was recorded. The pathological changes of lung tissues and functions of livers and kidneys were measured. The changes of oxidation products, antioxidant enzymes and pro-inflammatory cytokines in lungs and serums were detected. Mitochondrial function was measured. Results: The inhalation of 2% or 67% hydrogen improves the 7-day survival rate and reduces acute lung injury as well as liver and kidney injury in sepsis. The therapeutic effect of 67% hydrogen inhalation on sepsis was related to increasing antioxidant enzyme activity, reducing oxidation products and pro-inflammatory cytokines in lungs and serums. Compared with the Sham group, mitochondrial dysfunction was alleviated in hydrogen groups. Conclusions: Hydrogen inhalation by high or low concentration can both significantly improve sepsis; however, a high concentration demonstrates a better protective effect. High concentration hydrogen inhalation can significantly improve the mitochondrial dynamic balance and reduce the lung injury in septic mice.

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“…HMGB1 plays a role in several cellular processes, including inflammation, cell differentiation and migration [ 32 ]. In our previous study, the upregulation of HMGB1 was found to be strongly correlated with cirrhosis in HCC [ 21 ].…”

Section: Discussionmentioning

confidence: 99%

Dual roles of WISP2 in the progression of hepatocellular carcinoma: implications of the fibroblast infiltration into the tumor microenvironment

Jia

Zhang

et al. 2021

Aging

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The dismal outcome of hepatocellular carcinoma (HCC) patients is attributable to high frequency of metastasis and. Identification of effective biomarkers is a key strategy to inform prognosis and improve survival. Previous studies reported inconsistent roles of WISP2 in carcinogenesis, while the role of WISP2 in HCC progression also remains unclear. In this study, we confirmed that WISP2 was downregulated in HCC tissues, and WISP2 was acting as a protective factor, especially in patients without alcohol intake using multiple online datasets. In addition, we reported that upregulation of WISP2 in HCC was related to inhibition of the malignant phenotype in vitro , but these alterations were not observed in vivo . WISP2 also negatively correlated with tumour purity, and increased infiltration of fibroblasts promoted malignant progression in HCC tissues. The enhanced infiltration ability of fibroblasts was related to upregulated HMGB1 after overexpression of WISP2 in HCC. The findings shed light on the anticancer role of WISP2, and HMGB1 is one of the key factors involved in the inhibition of the efficiency of WISP2 through reducing the tumour purity with fibroblast infiltration.

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Sialoglycan recognition is a common connection linking acidosis, zinc, and HMGB1 in sepsis

Cited by 15 publications

References 86 publications

Are sialic acids involved in COVID-19 pathogenesis?

Are sialic acids involved in COVID-19 pathogenesis?

High Concentration Hydrogen Mitigates Sepsis-Induced Acute Lung Injury in Mice by Alleviating Mitochondrial Fission and Dysfunction

Dual roles of WISP2 in the progression of hepatocellular carcinoma: implications of the fibroblast infiltration into the tumor microenvironment

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