Luca Munaron scite author profile

Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infects host cells following binding with the cell surface ACE2 receptors, thereby leading to coronavirus disease 2019 (COVID-19). SARS-CoV-2 causes viral pneumonia with additional extrapulmonary manifestations and major complications, including acute myocardial injury, arrhythmia, and shock mainly in elderly patients. Furthermore, patients with existing cardiovascular comorbidities, such as hypertension and coronary heart disease, have a worse clinical outcome following contraction of the viral illness. A striking feature of COVID-19 pandemics is the high incidence of fatalities in advanced aged patients: this might be due to the prevalence of frailty and cardiovascular disease increase with age due to endothelial dysfunction and loss of endogenous cardioprotective mechanisms. Although experimental evidence on this topic is still at its infancy, the aim of this position paper is to hypothesize and discuss more suggestive cellular and molecular mechanisms whereby SARS-CoV-2 may lead to detrimental consequences to the cardiovascular system. We will focus on aging, cytokine storm, NLRP3/inflammasome, hypoxemia, and air pollution, which is an emerging cardiovascular risk factor associated with rapid urbanization and globalization. We will finally discuss the impact of clinically available CV drugs on the clinical course of COVID-19 patients. Understanding the role played by SARS-CoV2

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TRPV4 mediates tumor-derived endothelial cell migration via arachidonic acid-activated actin remodeling

Fiorio

et al. 2011

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Changes in intracellular calcium [Ca2+]i levels control critical cytosolic and nuclear events that are involved in the initiation and progression of tumor angiogenesis in endothelial cells (ECs). Therefore, the mechanism(s) involved in agonist-induced Cai2+ signaling is a potentially important molecular target for controlling angiogenesis and tumor growth. Several studies have shown that blood vessels in tumors differ from normal vessels in their morphology, blood flow and permeability. We had previously reported a key role for arachidonic acid (AA)-mediated Ca2+ entry in the initial stages of tumor angiogenesis in vitro. In this study we assessed the mechanism involved in AA-induced EC migration. We report that TRPV4, an AA-activated channel, is differentially expressed in EC derived from human breast carcinomas (BTEC) as compared with ‘normal’ EC (HMVEC). BTEC display a significant increase in TRPV4 expression, which was correlated with greater Ca2+ entry, induced by AA or 4αPDD (a selective TRPV4 agonist) in the tumor-derived ECs. Wound-healing assays revealed a key role of TRPV4 in regulating cell migration of BTEC but not HMVEC. Knockdown of TRPV4 expression completely abolished AA-induced BTEC migration, suggesting that TRPV4 mediates the pro-angiogenic effects promoted by AA. Furthermore, pre-incubation of BTEC with AA induced actin remodeling and a subsequent increase in the surface expression of TRPV4. This was consistent with the increased plasma membrane localization of TRPV4 and higher AA-stimulated Ca2+ entry in the migrating cells. Together, the data presented herein demonstrate that: (1) TRPV4 is differentially expressed in tumor-derived versus ‘normal’ EC; (2) TRPV4 has a critical role in the migration of tumor-derived but not ‘normal’ EC migration; and (3) AA induces actin remodeling in BTEC, resulting in a corresponding increase of TRPV4 expression in the plasma membrane. We suggest that the latter is critical for migration of EC and thus in promoting angiogenesis and tumor growth.

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Intracellular Calcium, Endothelial Cells and Angiogenesis

Munaron

2006

PRA

123

117

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The proliferation and motility of vascular endothelial cells (ECs) are critical steps in angiogenesis and are strictly controlled by different extracellular signals. Among mitogens, peptides binding to tyrosine kinase receptors (i.e. VEGFs and FGFs) are well known and are released by several cell types, including ECs and tumor cells. The binding of mitogens to their specific receptors triggers intracellular signaling cascades, involving a number of messengers working in a sort of network. In particular, in this review we describe the increases of calcium levels in the cytosol, a universal, evolutionary conserved and highly versatile signal involved in the regulation of EC's proliferation and motility. Most mitogens, including angiogenic factors, generate cytosolic calcium rises through two mechanisms: entry from extracellular medium, through the opening of calcium permeable channels in the plasma membrane, or release from intracellular organelles (mainly endoplasmic reticulum, ER). Calcium entry, the main topic of this review, can be dependent on previously IP(3)-activated emptying of calcium stores (store-dependent or capacitative calcium entry--CCE), or independent on it (non capacitative calcium entry, NCCE). The intracellular pathways underlying calcium entry are under investigation and recently arachidonic acid (AA) and nitric oxide (NO) metabolism have been suggested to play a key role, at least in some cell types. Even if some calcium entry blockers are under clinical trial with encouraging results, a better knowledge about the molecular nature of calcium channels and their intracellular regulation, together with a more detailed description of spatiotemporal dynamics of intracellular calcium events, could lead to new and more specific strategies in therapeutical approach to cancer progression and angiogenesis.

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Zinc-containing bioactive glasses: Surface reactivity and behaviour towards endothelial cells

et al. 2009

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Luca Munaron

COVID-19-associated cardiovascular morbidity in older adults: a position paper from the Italian Society of Cardiovascular Researches

TRPV4 mediates tumor-derived endothelial cell migration via arachidonic acid-activated actin remodeling

Intracellular Calcium, Endothelial Cells and Angiogenesis

Zinc-containing bioactive glasses: Surface reactivity and behaviour towards endothelial cells

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