key: cord-0985022-pjt8qdxz authors: Bardin, Philip G.; Johnston, Sebastian L. title: Attenuating COVID‐19 infection and inflammation: Lessons from asthma date: 2020-10-13 journal: Respirology DOI: 10.1111/resp.13961 sha: eddc0eaaf914da1e8f38e28cc8ec660c3c94cf22 doc_id: 985022 cord_uid: pjt8qdxz See cover image [Image: see text] In the turmoil surrounding the current global pandemic, it is often forgotten that coronavirus disease 2019 (COVID-19) is a common cold virus, albeit with a crown. Infection by COVID-19 has several unique features, but two key aspects dominate the disease. First, as a common cold virus, it has the classic ability of this virus group to spread very readily person-to-person despite virtually any intervention aimed at eradicating transmission. Second, initial upper airway involvement progresses in susceptible persons to lung infection with uncontrolled virus loads leading to mounting inflammation resulting in respiratory impairment and failure. 1,2 What is not readily appreciated is that asthma exacerbations occur in an almost identical setting: a common cold virus infection in susceptible persons is followed by increased virus loads, lung infection and inflammation with subsequent respiratory compromise. Given these similarities, are there valuable lessons applicable to COVID-19 to be learned from a long history of effective treatment for virus-induced asthma exacerbations? More than 200 different viruses can cause a common cold but rhinoviruses, coronaviruses, respiratory syncytial and parainfluenza viruses are implicated in the majority of colds. Until recently, their importance as infectious agents was underestimated despite landmark studies in the early 1990s demonstrating that asthma exacerbations are predominantly triggered by common colds. 3 Studies in individuals with asthma demonstrated that spread to the lung was followed by inflammation, airway obstruction, heightened responsiveness and respiratory compromise. 4 However, at an early stage, it was clear that preventing infection was challenging and specific treatments for common cold viruses have remained elusive. Other strategies had to be devised in order to counter acute detrimental effects of these viruses on the lung. Asthma exacerbations can lead to death, often in young persons, and anti-inflammatory treatment with oral or parenteral corticosteroids (CS) effectively mitigate exacerbations. 5 Blunting the detrimental inflammatory impacts of virus infection made it possible to reduce mortality and consequently CS have remained in widespread use to treat virus-associated asthma exacerbations. A key message has been that controlling inflammation was sufficient to restore reasonable lung function whilst host immune responses ultimately eliminated the virus. Understandably, much scientific endeavour and the public imagination have been fixated on the goal of rapid COVID-19 vaccine development. However, this is challenging and success is not guaranteed (although potent induction of neutralizing antibody responses in early reports is an encouraging sign). Attempts to find effective vaccines fail. For example, despite spirited efforts, no vaccine has proven effective to date to prevent human immunodeficiency virus (HIV) infection. 6 Given the considerable obstacles facing vaccine developers, strategies aimed at blunting COVID-19-associated inflammation should also be deliberately pursued. Are there established as well as novel antiinflammatory compounds that can be used in COVID-19 infection? Currently, only systematic CS are recommended to treat patients who are severely ill with COVID-19 infection as they have been clearly shown to reduce mortality in those needing respiratory support and to reduce the need for mechanical ventilation. 7 Other compounds considered for repurposing include chloroquine/hydroxychloroquine, Janus kinase (JNK) inhibitors (baricitinib and tofacitinib), interleukin (IL)-6 inhibitors (tocilizumab and sarilumab), IL-1 inhibitors (anakinra and canakinumab) and colchicine. 8, 9 Many of these compounds are being evaluated in rigorous randomized controlled trials (RCT). 10 Hydroxychloroquine has been shown to be ineffective when given late in severe disease in hospitalized patients, likely because any antiviral/anti-inflammatory effects are outweighed by adverse events in these very ill people. 11 Tocilizumab, in particular, has shown early promise as a way of reducing IL-6-mediated hyperinflammation, albeit in small studies. 12 Other compounds merit investigation including pirfenidone 13 and colchicine, 14 both agents with broad-ranging antiinflammatory activities comparable to CS. Pirfenidone has also been formulated for inhalation, 15 potentially limiting adverse effects. Baricitinib has substantial potential efficacy as it can reduce both inflammation (JNK inhibition) and virus infection (inhibits clathrinmediated endocytosis). 16 The need to expand pioneering research into other potentially promising compounds is urgent. A second key message that emerges from studying asthma is the importance of deficient antiviral immunity 17 in driving inflammation and adverse clinical outcomes. Exactly the same is almost certain to be true of COVID-19. We have recently reported that adverse outcomes in males with COVID-19 are likely to be related in large part to deficient innate antiviral immune responses. 18 Interferon (IFN)-β has been shown to prevent adverse outcomes and enhance recovery when given early in COVID-19, and to reduce mortality when given later in severe 20 We have known for 10 years that azithromycin doubles IFN production by virus-infected bronchial epithelial cells, 21 and it has been shown both to prevent 22 and to treat 23 virusinduced wheezing episodes in asthma. Results of current RCT of azithromycin (to boost antiviral immunity), given early in COVID-19 when this approach is likely to have maximal benefit and thus reduce severe outcomes, are eagerly awaited. In summary, highly successful treatments of virusassociated inflammation during asthma exacerbations are those that mitigate effects of high virus loads driving lung inflammation. For COVID-19 infection, the parallels are obvious. In the context of the current pandemic, it highlights the urgent need to research and validate both existing and novel antiviral and antiinflammatory compounds. Severe Covid-19 Respiratory management of adult patients with acute respiratory distress syndrome due to COVID-19 Community study of role of viral infections in exacerbations of asthma in 9-11 year old children Rhinoviruses infect the lower airways Rational oral corticosteroid use in adult severe asthma: a narrative review Toward a macaque model of HIV-1 infection: roadblocks, progress, and future strategies Dexamethasone in hospitalized patients with Covid-19 -preliminary report Current pharmacological treatments for COVID-19: what's next? 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