Kristofor Glinton scite author profile

Background:The two-component CovRS system is a GAS virulence gene regulator. Results: A natural inactivating mutation has been found in CovS in a skin-invasive GAS strain, potentially affecting expression of key virulence genes. Conclusion: The mutation in CovS showed substantial effects on regulation of virulence genes. Significance: Expression of genes critical to GAS virulence can reveal reasons why specific strains of GAS are effective tissue specialists.

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Macrophage-produced VEGFC is induced by efferocytosis to ameliorate cardiac injury and inflammation

Glinton¹,

Ma²,

Lantz³

et al. 2022

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Clearance of dying cells by efferocytosis is necessary for cardiac repair after myocardial infarction (MI). Recent reports have suggested a protective role for vascular endothelial growth factor C (VEGFC) during acute cardiac lymphangiogenesis post MI. Here we report that defective efferocytosis by macrophages after experimental MI leads to a reduction in cardiac lymphangiogenesis and Vegfc expression. Cell-intrinsic evidence for efferocytic-induction of Vegfc was revealed after adding apoptotic cells to cultured primary macrophages, which subsequently triggered Vegfc transcription and VEGFC secretion. Similarly, cardiac macrophages elevated Vegfc expression levels after MI, and mice deficient for myeloid Vegfc exhibited impaired ventricular contractility, adverse tissue remodeling and reduced lymphangiogenesis. These results were observed in mouse models of permanent coronary occlusion and clinically relevant ischemia and reperfusion. Interestingly, myeloid Vegfc deficiency also led to increases in acute infarct size, prior to the amplitude of the acute cardiac lymphangiogenesis response. RNA sequencing and cardiac flow cytometry revealed that myeloid Vegfc deficiency was also characterized by a defective inflammatory response, and macrophages-produced VEGFC was directly effective at suppressing pro-inflammatory macrophage activation. Taken together, our findings indicate that cardiac macrophages promote healing through the promotion of myocardial lymphangiogenesis and the suppression of inflammatory cytokines.

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Macrophage AXL receptor tyrosine kinase inflames the heart after reperfused myocardial infarction

DeBerge¹,

Glinton²,

Subramanian³

et al. 2021

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Tyro3, AXL, and MerTK (TAM) receptors are activated in macrophages in response to tissue injury and as such have been proposed as therapeutic targets to promote inflammation resolution during sterile wound healing, including myocardial infarction. While the role of MerTK in cardioprotection is well-characterized, the unique role of the other structurally similar TAMs, and particularly AXL, in clinically-relevant models of myocardial ischemia-reperfused infarction (IRI) is comparatively unknown. Utilizing complementary approaches, validated by flow cytometric analysis of human and murine macrophage subsets and conditional genetic loss and gain of function, we uncover a unique maladaptive role for myeloid AXL during IRI in the heart. Cross signaling between AXL and TLR4 in cardiac macrophages directed a switch to glycolytic metabolism and secretion of proinflammatory IL-1β, leading to increased intramyocardial inflammation, adverse ventricular remodeling, and impaired contractile function. AXL functioned independently of cardioprotective MerTK to reduce the efficacy of cardiac repair, but like MerTK, was proteolytically cleaved. Administration of a selective small molecule AXL inhibitor alone improved cardiac healing, which was further enhanced in combination with blockade of MerTK cleavage. These data support further exploration of macrophage TAM receptors as therapeutic targets for myocardial infarction.

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Functional differences between Streptococcus pyogenes cluster 1 and cluster 2b streptokinases are determined by their β‐domains

et al. 2013

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Cluster 1 streptokinases (SK1) from Streptococcus pyogenes (GAS) show substantially higher human plasminogen (hPg) activation activities and tighter hPg binding affinities than cluster 2b streptokinases (SK2b) in solution. The extent to which the different domains of SK are responsible for these differences is unknown. We exchanged each of the three known SK domains (α, β, and γ) between SK1 and SK2b and assessed the function of the resulting variants. Our results show that primary structural differences in the β-domains dictate these functional differences. This first report on the primary structure–functional relationship between naturally occurring SK1 and SK2b sheds new light on the mechanism of hPg activation by SK, a critical virulence determinant in this species of human pathogenic bacteria.

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Direct Host Plasminogen Binding to Bacterial Surface M-protein in Pattern D Strains of Streptococcus pyogenes Is Required for Activation by Its Natural Coinherited SK2b Protein

Chandrahas

Glinton

Zhong

et al. 2015

Journal of Biological Chemistry

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Background: Dissemination of Pattern D strains of S. pyogenes depends on a functional human fibrinolytic system. Results: hPg binding domains of PAM, when transferred to unrelated M-proteins, up-regulates hPg binding and activation. Conclusion:The nature of the streptokinase and the M-protein influence GAS virulence. Significance: In vitro studies indicate pathways for GAS to gain hypervirulence by gene transfer of small functional domains.

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