Endothelial Cell Activation by SARS-CoV-2 Spike S1 Protein: A Crosstalk between Endothelium and Innate Immune Cells

Rotoli, Bianca Maria; Barilli, Amelia; Visigalli, Rossana; Ferrari, Francesca; DallˈAsta, Valeria

doi:10.3390/biomedicines9091220

Cited by 33 publications

(32 citation statements)

References 57 publications

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“…To date, however, the pathogenic mechanisms underlying the hyperinflammatory response that contributes to alveolar epithelial injury remain incompletely understood. Recently, we and others demonstrated that the in vitro treatment of human macrophages with S1 of SARS-CoV-2 causes a massive release of cytokine and chemokines in the extracellular medium [17][18][19][20]; this, in turn, results in a significant strengthening of endothelial responses to the viral protein [17], sustaining the contribution of both direct and immune-mediated mechanisms in endothelial cell activation in COVID-19. In this context, the aim of the present study was to define the cellular and molecular pathways underlying the response of alveolar epithelial cells to either the spike S1 protein or to a mixture of inflammatory mediators secreted by S1-activated macrophages, so as to help clarify the pathophysiology of lung disease upon SARS-CoV-2 infection.…”

Section: Introductionmentioning

confidence: 90%

Immune-Mediated Inflammatory Responses of Alveolar Epithelial Cells: Implications for COVID-19 Lung Pathology

et al. 2022

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Background. Clinical and experimental evidence point to a dysregulated immune response caused by SARS-CoV-2 as the primary mechanism of lung disease in COVID-19. However, the pathogenic mechanisms underlying COVID-19-associated ARDS (Acute Respiratory Distress Syndrome) remain incompletely understood. This study aims to explore the inflammatory responses of alveolar epithelial cells to either the spike S1 protein or to a mixture of cytokines secreted by S1-activated macrophages. Methods and Results. The exposure of alveolar A549 cells to supernatants from spike-activated macrophages caused a further release of inflammatory mediators, with IL-8 reaching massive concentrations. The investigation of the molecular pathways indicated that NF-kB is involved in the transcription of IP-10 and RANTES, while STATs drive the expression of all the cytokines/chemokines tested, with the exception of IL-8 which is regulated by AP-1. Cytokines/chemokines produced by spike-activated macrophages are also likely responsible for the observed dysfunction of barrier integrity in Human Alveolar Epithelial Lentivirus-immortalized cells (hAELVi), as demonstrated by an increased permeability of the monolayers to mannitol, a marked decrease of TEER and a disorganization of claudin-7 distribution. Conclusion. Upon exposure to supernatants from S1-activated macrophages, A549 cells act both as targets and sources of cytokines/chemokines, suggesting that alveolar epithelium along with activated macrophages may orchestrate lung inflammation and contribute to alveolar injury, a hallmark of ARDS.

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Section: Introductionmentioning

confidence: 90%

Immune-Mediated Inflammatory Responses of Alveolar Epithelial Cells: Implications for COVID-19 Lung Pathology

et al. 2022

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“…Therefore, a combination of endothelial damage and inflammation leads to a hypercoagulable state that leads to the generation of microthrombi. [ 15 ] The vast and unexplored spectrum of inflammation, endothelial injury, and pulmonary microcirculatory thrombosis contributes markedly to COVID-19-related ARDS. [ 16 ] Various conditions predispose COVID-19 patients to bleeding risk disseminated intravascular coagulation, thrombocytopenia, COVID-related hemophagocytosis, complications, and overuse of anticoagulants.…”

Section: Discussionmentioning

confidence: 99%

Role of low-dose tissue plasminogen activator in patients with refractory hypoxia due to presumed microthrombi in pulmonary vasculature in coronavirus disease 2019: A case series and review of the literature

et al. 2022

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Severe hypoxia due to coronavirus disease 2019 (COVID-19) is challenging in the intensive care unit (ICU). It is often unresponsive to mechanical ventilation at high positive end-expiratory pressure and the fraction of inspired oxygen combination. The cause of such worsening hypoxia may be microvascular thrombosis in the pulmonary vascular system because of the procoagulant nature of COVID-19 infection. Confirming the diagnosis with computed tomographic pulmonary angiography is not always possible, as the patients are too sick to be shifted. Tissue plasminogen activator (tPA) is recommended for pulmonary thromboembolism with hypotension and worsening hypoxia, as confirmed by computed tomography pulmonary angiography. However, its role in worsening hypoxia because of presumed microthrombi in the pulmonary vasculature in COVID-19 is unclear. We present six cases from our ICU where we used low-dose tPA in COVID-19 refractory hypoxia with presumed microthrombi in the pulmonary vasculature (oligemic lung field, refractory hypoxia, increased D dimer, electrocardiographic features of pulmonary embolism, and right ventricular strain on echocardiography). Oxygenation improved within 6 h and was maintained for up to 48 h in all patients. Therefore, there is a possible role of microthrombi in the mechanism of hypoxia in this setting. An early decision to start low-dose tPA may improve the outcome. However, all patients finally succumbed to sepsis and multiorgan failure later in their course. A systematic review of the literature has also been performed on the mechanism of thrombosis and the use of tPA in hypoxia due to COVID-19.

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“…mRNA expression has been analyzed through RT-qPCR, as previously described [11], upon incubation of HLMVEC with 1 and 100 nM dDAVP for 1 or 16 h. 1 µg of cDNA was obtained through the reverse transcription of total RNA with the RevertAid First Strand cDNA Synthesis Kit (Thermo Fisher Scientific, Milano, Italy). qPCR was then performed on a StepOnePlus Real-Time PCR System (Thermo Fisher Scientific) by employing specific forward/reverse primer pairs (Table 1) and SYBR™ Green or TaqMan Gene Expression Master Mix (Thermo Fisher Scientific).…”

Section: Rt-qpcr Analysismentioning

confidence: 99%

“…The expression level of genes coding for vasopressin receptors (AVPR1A and AVPR2) was determined using the formula 2∆Ct (where ∆Ct = Ct RPL15 − Ct gene of interest ) [12], after normalization for the housekeeping gene (Ribosomal like protein 15, RPL15, Gene ID: 6138). The amount of the different genes upon treatment with dDAVP was, instead, calculated with the ∆∆Ct method [11] and expressed, relatively to RPL15, as fold change of control untreated cells (=1).…”

Section: Rt-qpcr Analysismentioning

confidence: 99%

Desmopressin Stimulates Nitric Oxide Production in Human Lung Microvascular Endothelial Cells

et al. 2022

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Desmopressin (dDAVP) is the best characterized analogue of vasopressin, the endocrine regulator of water balance endowed with potent vasoconstrictive effects. Despite the use of dDAVP in clinical practice, ranging from the treatment of nephrogenic diabetes insipidus to bleeding disorders, much remains to be understood about the impact of the drug on endothelial phenotype. The aim of this study was, thus, to evaluate the effects of desmopressin on the viability and function of human pulmonary microvascular endothelial cells (HLMVECs). The results obtained demonstrate that the vasopressor had no cytotoxic effect on the endothelium; similarly, no sign of endothelial activation was induced by dDAVP, indicated by the lack of effect on the expression of inflammatory cytokines and adhesion molecules. Conversely, the drug significantly stimulated the production of nitric oxide (NO) and the expression of the inducible isoform of nitric oxide synthase, NOS2/iNOS. Since the intracellular level of cAMP also increased, we can hypothesize that NO release is consequent to the activation of the vasopressin receptor 2 (V2R)/guanylate cyclase (Gs)/cAMP axis. Given the multifaceted role of NOS2-deriving NO for many physio-pathological conditions, the meanings of these findings in HLMVECs appears intriguing and deserves to be further addressed.

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Endothelial Cell Activation by SARS-CoV-2 Spike S1 Protein: A Crosstalk between Endothelium and Innate Immune Cells

Cited by 33 publications

References 57 publications

Immune-Mediated Inflammatory Responses of Alveolar Epithelial Cells: Implications for COVID-19 Lung Pathology

Immune-Mediated Inflammatory Responses of Alveolar Epithelial Cells: Implications for COVID-19 Lung Pathology

Role of low-dose tissue plasminogen activator in patients with refractory hypoxia due to presumed microthrombi in pulmonary vasculature in coronavirus disease 2019: A case series and review of the literature

Desmopressin Stimulates Nitric Oxide Production in Human Lung Microvascular Endothelial Cells

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