Michael Stürzl scite author profile

Background Coronavirus induced disease 2019 (COVID-19) can be complicated by severe organ damage leading to dysfunction of the lungs and other organs. The processes that trigger organ damage in COVID-19 are incompletely understood. Methods Samples were donated from hospitalized patients. Sera, plasma, and autopsy-derived tissue sections were examined employing flow cytometry, enzyme-linked immunosorbent assays, and immunohistochemistry. Patient findings Here, we show that severe COVID-19 is characterized by a highly pronounced formation of neutrophil extracellular traps (NETs) inside the micro-vessels. Intravascular aggregation of NETs leads to rapid occlusion of the affected vessels, disturbed microcirculation, and organ damage. In severe COVID-19, neutrophil granulocytes are strongly activated and adopt a so-called low-density phenotype, prone to spontaneously form NETs. In accordance, markers indicating NET turnover are consistently increased in COVID-19 and linked to disease severity. Histopathology of the lungs and other organs from COVID-19 patients showed congestions of numerous micro-vessels by aggregated NETs associated with endothelial damage. Interpretation These data suggest that organ dysfunction in severe COVID-19 is associated with excessive NET formation and vascular damage. Funding Deutsche Forschungsgemeinschaft (DFG), EU, Volkswagen-Stiftung

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Endothelial CCR2 Signaling Induced by Colon Carcinoma Cells Enables Extravasation via the JAK2-Stat5 and p38MAPK Pathway

Wolf

et al. 2012

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Increased expression of the chemokine CCL2 in tumor cells correlates with enhanced metastasis, poor prognosis, and recruitment of CCR2 + Ly6C hi monocytes. However, the mechanisms driving tumor cell extravasation through the endothelium remain elusive. Here, we describe CCL2 upregulation in metastatic UICC stage IV colon carcinomas and demonstrate that tumor cell-derived CCL2 activates the CCR2 + endothelium to increase vascular permeability in vivo. CCR2 deficiency prevents colon carcinoma extravasation and metastasis. Of note, CCR2 expression on radio-resistant cells or endothelial CCR2 expression restores extravasation and metastasis in Ccr2 À/À mice. Reduction of CCR2 expression on myeloid cells decreases but does not prevent metastasis. CCL2-induced vascular permeability and metastasis is dependent on JAK2-Stat5 and p38MAPK signaling. Our study identifies potential targets for treating CCL2-dependent metastasis.

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The helical domain of GBP-1 mediates the inhibition of endothelial cell proliferation by inflammatory cytokines

et al. 2001

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contributed equally to this work In¯ammatory cytokines (IC) activate endothelial cell adhesiveness for monocytes and inhibit endothelial cell growth. Here we report the identi®cation of the human guanylate binding protein-1 (GBP-1) as the key and speci®c mediator of the anti-proliferative effect of IC on endothelial cells. GBP-1 expression was induced by IC, downregulated by angiogenic growth factors, and inversely related to cell proliferation both in vitro in microvascular and macrovascular endothelial cells and in vivo in vessel endothelial cells of Kaposi's sarcoma. Experimental modulation of GBP-1 expression demonstrated that GBP-1 mediates selectively the anti-proliferative effect of IC, without affecting endothelial cell adhesiveness for monocytes. GBP-1 anti-proliferative activity did not affect ERK-1/2 activation, occurred in the absence of apoptosis, was found to be independent of the GTPase activity and isoprenylation of the molecule, but was speci®cally mediated by the C-terminal helical domain of the protein. These results de®ne GBP-1 as an important tool for dissection of the complex activity of IC on endothelial cells, and detection and speci®c modulation of the IC-activated non-proliferating phenotype of endothelial cells in vascular diseases.

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The ephrin receptor tyrosine kinase A2 is a cellular receptor for Kaposi's sarcoma–associated herpesvirus

Hahn

Kaufmann

Wies

et al. 2012

Nat Med

174

232

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Kaposi’s sarcoma associated herpesvirus (KSHV) is the human oncovirus which causes Kaposi’s sarcoma (KS), a highly vascularised tumour originating from lymphatic endothelial cells. Amongst others, the dimeric complex formed by the KSHV virion envelope glycoproteins H and L (gH/gL) is required for entry of herpesviruses into the host cell. We show that the Ephrin receptor tyrosine kinase A2 (EphA2) is a cellular receptor for KSHV gH/gL. EphA2 co-precipitated with both gH/gL and KSHV virions. KSHV infection rates were increased upon over-expression of EphA2. In contrast, antibodies against EphA2 and siRNAs directed against EphA2 inhibited KSHV infection of lymphatic endothelial cells. Pretreatment of KSHV virions with soluble EphA2 resulted in a dose-dependent inhibition of KSHV infection by up to 90%. Similarly, pretreating cells with the soluble EphA2 ligand EphrinA4 but not with EphA2 itself impaired KSHV infection. Notably, deletion of the EphA2 gene essentially abolished KSHV infection of murine vascular endothelial cells. Binding of gH/gL to EphA2 triggered EphA2 phosphorylation and endocytosis, a major pathway of KSHV entry. Quantitative RT-PCR and situ histochemistry revealed a close correlation between KSHV infection and EphA2 expression both in cultured cells derived from KS or lymphatic endothelium and in KS specimens, respectively. Taken together, these results identify EphA2, a tyrosine kinase with known functions in neo-vascularisation and oncogenesis, as receptor for KSHV gH/gL and implicate an important role for EphA2 in KSHV infection especially of endothelial cells and in KS.

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Inhibition of cGAS DNA Sensing by a Herpesvirus Virion Protein

Shao

et al. 2015

Cell Host & Microbe

235

222

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SUMMARY Invading viral DNA can be recognized by the host cytosolic DNA sensor, cyclic GMP-AMP (cGAMP) synthase (cGAS), resulting in production of the second messenger cGAMP, which directs the adaptor protein STING to stimulate production of type I interferons (IFNs). Although several DNA viruses are sensed by cGAS, viral strategies targeting cGAS are virtually unknown. We report here that Kaposi’s sarcoma-associated herpesvirus (KSHV) ORF52, an abundant gammaherpesvirus-specific tegument protein, subverts cytosolic DNA sensing by directly inhibiting cGAS enzymatic activity through a mechanism involving both cGAS- and DNA-binding. Moreover, ORF52 homologues in other gammaherpesviruses also inhibit cGAS activity and similarly bind cGAS and DNA, suggesting conserved inhibitory mechanisms. Furthermore, KSHV infection evokes cGAS-dependent responses that can limit the infection, and an ORF52-null mutant exhibits increased cGAS signaling. Our findings reveal a mechanism through which gammaherpesviruses antagonize host cGAS DNA sensing.

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Michael Stürzl

Vascular occlusion by neutrophil extracellular traps in COVID-19

Endothelial CCR2 Signaling Induced by Colon Carcinoma Cells Enables Extravasation via the JAK2-Stat5 and p38MAPK Pathway

The helical domain of GBP-1 mediates the inhibition of endothelial cell proliferation by inflammatory cytokines

The ephrin receptor tyrosine kinase A2 is a cellular receptor for Kaposi's sarcoma–associated herpesvirus

Inhibition of cGAS DNA Sensing by a Herpesvirus Virion Protein

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