Antonio Cannatà scite author profile

COVID-19 is a disease with unique characteristics that include lung thrombosis 1 , frequent diarrhoea 2 , abnormal activation of the inflammatory response 3 and rapid deterioration of lung function consistent with alveolar oedema 4 . The pathological substrate for these findings remains unknown. Here we show that the lungs of patients with COVID-19 contain infected pneumocytes with abnormal morphology and frequent multinucleation. The generation of these syncytia results from activation of the SARS-CoV-2 spike protein at the cell plasma membrane level. On the basis of these observations, we performed two high-content microscopy-based screenings with more than 3,000 approved drugs to search for inhibitors of spike-driven syncytia. We converged on the identification of 83 drugs that inhibited spike-mediated cell fusion, several of which belonged to defined pharmacological classes. We focused our attention on effective drugs that also protected against virus replication and associated cytopathicity. One of the most effective molecules was the antihelminthic drug niclosamide, which markedly blunted calcium oscillations and membrane conductance in spike-expressing cells by suppressing the activity of TMEM16F (also known as anoctamin 6), a calcium-activated ion channel and scramblase that is responsible for exposure of phosphatidylserine on the cell surface. These findings suggest a potential mechanism for COVID-19 disease pathogenesis and support the repurposing of niclosamide for therapy.One of the defining features of coronavirus biology is the coordinated process by which the virus binds and enters the host cell, which involves both docking to receptors at the cell surface (ACE2 for SARS-CoV2 5 ), and proteolytic activation of the spike protein by host encoded proteases at two distinct sites 6 . One activation step is spike cleavage at the S1-S2 boundary, which can occur either before or after receptor binding. A second proteolytic activation exposes the S2 portion, and primes S2 for fusion of virus and cellular membranes. The protease priming event at this S2′ site and subsequent fusion can occur after endocytosis, in which cleavage is carried out by endosomal low pH-activated proteases such as cathepsin B and cathepsin L 7 , or at the plasma membrane, where cleavage can be mediated by TMPRSS2 [8][9][10] . The spike proteins of MERS-CoV and SARS-CoV-2 possess a multibasic amino acid sequence at the S1-S2 interface, which is not present in SARS-CoV 11 , that also allows cleavage by the ubiquitously expressed serine protease furin [12][13][14] . As a consequence, cells that express MERS-CoV and SARS-CoV-2 spike protein at the plasma membrane can fuse with other cells that express the respective receptors and form syncytia.

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Evolving concepts in dilated cardiomyopathy

Merlo

Cannatà

Gobbo

et al. 2017

European J of Heart Fail

269

270

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Dilated cardiomyopathy (DCM) represents a particular aetiology of systolic heart failure that frequently has a genetic background and usually affects young patients with few co-morbidities. The prognosis of DCM has improved substantially during the last decades due to more accurate aetiological characterization, the red-flag integrated approach to the disease, early diagnosis through systematic familial screening, and the concept of DCM as a dynamic disease requiring constant optimization of medical and non-pharmacological evidence-based treatments. However, some important issues in clinical management remain unresolved, including the role of cardiac magnetic resonance for diagnosis and risk categorization and the interaction between genotype and clinical phenotype, and arrhythmic risk stratification. This review offers a comprehensive survey of these and other emerging issues in the clinical management of DCM, providing where possible practical recommendations.

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The impact of COVID‐19 on heart failure hospitalization and management: report from a Heart Failure Unit in London during the peak of the pandemic

Bromage

Cannatà

Rind

et al. 2020

European J of Heart Fail

184

213

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To examine the impact of COVID-19 on acute heart failure (AHF) hospitalization rates, clinical characteristics and management of patients admitted to a tertiary Heart Failure Unit in London during the peak of the pandemic. Methods and resultsData from King's College Hospital, London, reported to the National Heart Failure Audit for England and Wales, between 2nd March -19 th April 2020 were compared both to a pre-COVID cohort and the corresponding time periods in 2017-2019 with respect to absolute hospitalization rates. Furthermore, we performed detailed comparison of patients hospitalized during the COVID-19 pandemic and patients presenting in the same period in 2019 with respect to clinical characteristics and management during the index admission.A significantly lower admission rate for AHF was observed during the study period compared to all other included time periods. Patients admitted during the COVID-19 pandemic had higher rates of NYHA III or IV symptoms (96% vs. 77%, p=0.03) and severe peripheral oedema (39% vs. 14%, p=0.01). We did not observe any differences in inpatient management, including place of care and pharmacological management of heart failure with reduced ejection fraction (HFrEF).Conclusion Incident AHF hospitalization significantly declined in our centre during the COVID-19 pandemic, but hospitalized patients had more severe symptoms at admission. Further studies are needed to investigate whether the incidence of AHF declined or patients did not present to hospital while the national lockdown and social distancing restrictions were in place. From a public health perspective, it is imperative to ascertain whether this will be associated with worse long-term outcomes.

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