key: cord-0821356-l0toqtqz authors: Caruso, Irene; Giorgino, Francesco title: The diabetic lung: an easy target for SARS‐CoV‐2? date: 2020-05-19 journal: Diabetes Metab Res Rev DOI: 10.1002/dmrr.3346 sha: b171c36486bb3780b59bf5bc1bfbc275a0298df5 doc_id: 821356 cord_uid: l0toqtqz nan The SARS-CoV-2 infection is spreading fast and represents a menacing threat to global health. Evidence accrued so far highlights that diabetes mellitus ranked second, as the most represented comorbidity in infected patients 1 . Data from Chinese populations showed that the prevalence of diabetes in patients with SARS-CoV-2 infection was 10.3%, while its nationwide prevalence was 10 .9%, hence suggesting that diabetes may not increase the risk of new coronavirus infection 1 . However, a phenome-wide Mendelian randomization study linked diabetes to increased lung expression of ACE2, the viral cellular receptor; diabetes is also associated with elevated circulating levels of furin and other proteases that facilitate SARS-CoV-2 fusion with host cells by cleaving its spike protein 2 . On the other hand, diabetes has been consistently associated with an unfavorable course of the infection 1 . A recent meta-analysis of eight observational studies showed that diabetic patients with SARS-CoV-2 infection are burdened by significantly higher odds of ICU admission (OR 2.79, p<0.0001) and mortality (OR 3.21, p<0.0001) 3 . Notably, severe obesity, often coexisting with diabetes, is also highly predictive of hospitalization risk 2 . Similarly, in the past years, diabetes was among the most frequent comorbidities in subjects infected with MERS-CoV and SARS-CoV, also then associated with a three-fold increased mortality 4 . During the SARS epidemic, plasma glucose levels were regarded as independent predictors of increased morbidity and mortality, while this data is still largely unavailable for SARS-CoV-2 infected patients 2, 4 . It is also unclear if the worse prognosis of COVID-19 in diabetes is due to higher prevalence of comorbidities; nevertheless, as information piles up, an interaction between the consequences of SARS-CoV-2 infection and diabetes complications seems to emerge ( Figure 1 ). This article is protected by copyright. All rights reserved. Li et al. hypothesized that, in mild cases of COVID-19, lung-resident macrophages were able to orchestrate the immune response to SARS-CoV-2 infection, curbing viral replication and diffusion to other susceptible organs 5 . In contrast, patients affected from severe forms of COVID-19 could not limit the infection to the respiratory tract and often experienced viral sepsis 5 . The critically damaged alveolar-capillary barrier and large alveolar exudates are powerful triggers for secretion of pro-inflammatory cytokines and chemotaxis of scavenging cells, initiating the infamous 'cytokine storm' thought to be responsible for most of the unfavorable outcomes of COVID-19 5 . SARS-CoV-2 infection is also typically associated with reduction of peripheral T and B lymphocytes, which are essential for cell-and antibody-mediated responses to viral infection. Interestingly, the degree of lymphopenia appears to be positively correlated with disease severity and secondary bacterial infection 5 . Resembling the duplicity of SARS-CoV-2, diabetes is also associated both with immune system deficiency and aberrant inflammation 4 . Since diabetes and uncontrolled hyperglycemia have been linked to impaired functions of macrophages and neutrophils, it can be hypothesized that this may allow the infection to spread out of the respiratory tract 6 . Moreover, diabetes-related impairment of NK cells and antigen-presenting cells could also concur to delay the development of adaptive immunity and facilitate bacterial superinfection 7 . Specifically, in vitro studies demonstrated that exposure to hyperglycemia promoted influenza virus infection and replication in pneumocytes 6 . On This article is protected by copyright. All rights reserved. towards a pro-inflammatory phenotype accounts for excess cytokine release and establishment of a pro-inflammatory milieu in diabetic patients 7 . Recently, Barnes et al. suggested that COVID-19 8 , just like hyperglycemia 9 , might induce abnormal production of neutrophil extracellular traps (NETs). NETosis is a neutrophil-specific strategy to kill extracellular pathogens, consisting in the release of a decondensed chromatin web beaded with granular antimicrobial enzymes 9 . Abnormal NETosis has been associated with acute respiratory distress syndrome (ARDS) development following a variety of triggers, including influenza virus, and can induce macrophage IL-1β secretion, which in turn stimulates NETs formation; this originates a self-sustaining loop that can induce aberrant inflammation and diffuse thrombosis and precipitate respiratory function 8 . Interestingly, increased NETosis has been detected also in patients with diabetic retinopathy 9 and other complications. Moreover, most of non-survivor COVID-19 patients experienced disseminated intravascular coagulation, often heralded by increased levels of D-Dimer and fibrin degradation products 5 . Diabetes could fuel this process, as it is characterized by a pro-thrombotic and pro-coagulative environment 6 . The SARS-CoV-2 infection mainly targets the lungs and can provoke acute hypoxemic respiratory failure in susceptible patients 1 . Despite this is often neglected, diabetes can also directly affect pulmonary architecture and function 10 . Autoptic studies have described structural abnormalities, such as thickening and fibrosis of the alveolar basement membrane, resembling those observed in diabetic retina and kidneys 10 . Diabetic patients frequently displayed a restrictive respiratory pattern, probably due to reduced muscle strength and endurance, excess body fat, and AGE-mediated This article is protected by copyright. All rights reserved. accumulation of collagen in lungs and chest walls 10 . These features may compromise the pulmonary reserve in diabetic individuals 10 , making conditions with increased respiratory demand, such as COVID-19, hardly manageable. Moreover, diabetic patients showed lower pulmonary microvascular distensibility and reduced ability to recruit new capillary beds, especially in the presence of other known microvascular complications 10, 11 . These features were also associated with reduced right ventricle function, pulmonary hypertension, and lower exercise capacity 10 . Additionally, the diabetic lung exhibited a reduced diffusion capacity for carbon monoxide (DLCO), both due to alveolar membrane thickening and pulmonary microangiopathy 10, 12 . Aging could facilitate diabetes-induced pulmonary damages 12 Diabetes is associated with a reduced respiratory reserve due to alveolar membrane thickening, pulmonary microangiopathy, and restrictive respiratory features. Severe forms of SARS-CoV-2 infection could challenge the diabetic lung by generating further thickening of the alveolar-capillary barrier and alveolar exudates. Virus-induced lymphopenia might be added to a pre-existing immune system dyregulation. The pro-inflammatory, pro-thrombotic and pro-coagulative milieu induced by chronic hyperglycemia might facilitate and enhance the inflammatory response following SARS-CoV-2 infection and its thromboembolic complications. DLCO, diffusing capacity of the lung for carbon monoxide; T-reg cells, regulatory T cells; Prevalence and impact of diabetes among people infected with SARS-CoV-2 COVID-19 pandemic, corona viruses, and diabetes mellitus Diabetic patients with COVID-19 infection are at higher risk of ICU admission and poor short-term outcome Coronavirus infections and type 2 diabetes-shared pathways with therapeutic implications Hypothesis SARS-CoV-2 and viral sepsis: observations and hypotheses COVID-19 and Diabetes: knowledge in progress Role of adaptive and innate immunity in type 2 diabetes mellitus Targeting potential drivers of COVID-19: neutrophil extracellular traps Hyperglycemia induces neutrophil extracellular traps formation through an NADPH oxidase-dependent pathway in diabetic retinopathy Chronic diabetes complications: the need to move beyond classical concepts Diagnosis and significance of pulmonary microvascular disease in diabetes Diabetic lung, an underrated complication from restrictive functional pattern to pulmonary hypertension Pathological study of the 2019 novel coronavirus disease (COVID-19) through post-mortem core biopsies This article is protected by copyright. All rights reserved Authors' contributions I.C. and F.G. contributed equally to the final manuscript. The authors declare that they have no financial competing interests. This research received no specific grant from any funding agency in the public, commercial or notfor-profit sectors.This article is protected by copyright. All rights reserved.