key: cord-0716517-drg1ymji authors: Fooladi, Shahnaz; Matin, Somaieh; Mahmoodpoor, Ata title: Copper as a potential adjunct therapy for critically ill COVID-19 patients date: 2020-09-25 journal: Clin Nutr ESPEN DOI: 10.1016/j.clnesp.2020.09.022 sha: 46af240ce63e0faa1c5d307390b09494510ade55 doc_id: 716517 cord_uid: drg1ymji COVID-19 is a major health problem affecting all people worldwide and has a high mortality rate especially in critically ill patients. Although much is known about its different clinical symptoms, there are significant knowledge gaps about its pathology and cellular responses to the virus. Copper plays an essential role in respiration, immune function and free-radical defense. Despite its important action in physiochemical properties, only small amount of copper is presented in biological fluid, none of which presents as free ion form that readily affirms its depletion in critically ill patients. Recent studies confirmed its anti-viral capacity. Closer understanding of copper signaling, its vulnerability, method of assessment and interpretation, administration rout and dosage opens up new perspectives regarding therapeutic copper administration against critically ill COVID-19 patients. So, it seems that physicians should consider copper insufficiency in their critically ill COVID-19 patients. However, an attention should be paid to copper toxicity and estimating the adverse responses depending on copper dose or severity of copper limitation, as well as the duration of copper misbalance. COVID-19 is a major health problem affecting all people worldwide and has a high mortality rate especially in critically ill patients. Although much is known about its different clinical symptoms, there are significant knowledge gaps about its pathology and cellular responses to the virus 1 . A huge number of studies with different therapeutic interventions are being performed for COVID-19 management. But there is not any fundamental therapeutic intervention till now and currently the aim of treatments is decreasing viral load and spread with supportive care. Cardiopulmonary system involvement and COVID-19 associated respiratory distress syndrome are the leading causes of mortality from this disease. As currently there is not any vaccine or targeted drug, one of the most important available therapeutic options is enhancing immune system capacity against SARS-CoV-2. Copper plays an essential role in respiration, immune function and free-radical defense. Despite its important action in physiochemical properties, only small amount of copper is presented in biological fluid, none of which presents as free ion form that readily affirms its depletion in critically ill patients 2 . Copper containing enzymes perform essential functions like O 2 transportation, metabolism and production of signaling molecules responsible in oxidative stress 3 . Copper is required for enzymes such as CuZn-superoxide dismutase which is the main part of defense against oxidative stress. Copper is required for normal immune response against infection and for oxidative phosphorylation, for collagen and elastin synthesis which are all essentials in ARDS pathogenesis 4 . Lee et al assessed the serum concentration of trace elements and evaluated their clinical significance in 167 critically ill patients. They showed that lower levels of copper concentrations was seen at ICU admission and increased level of copper with its substitution during ICU stay was associated with a significantly lower mortality compared to lower concentration of copper (5.6 vs. 50.0%, p = 0.013) 5 . Copper deficiency symptoms include immune malfunction, mostly pronounced in J o u r n a l P r e -p r o o f older patients, and damage in host pathogen response. On the other hand the contact killing of viruses on metallic copper surfaces is explained in previous studies 6 . Copper supplementation has been shown to have an important role in regulation of IL 2 which is critical in T helper cell proliferation, the balance betweenTh 1 and Th 2 cells, and NK cell cytotoxicity which is also important in management of immune dysregulation in critically ill COVID-19 patients 7 . Copper antiviral characteristics include inactivation of single or double-stranded DNA or RNA viruses, destroying the viral genomes and block papain-like protease-2 which is crucial for SARS-CoV-1 replication 8 . It has been demonstrated that copper induces autophagy and apoptosis which is correlated with the formation of autophagic vacuoles maintaining the cell's anti-viral defense. It has recently been shown that diffuse intravascular thrombosis is one of the major reasons found in postmortem analysis of critically ill COVID-19 patients. Lynch et al in their study on rats showed that although the mechanism of the development of thrombotic lesions in Cudeficient females during this study is unclear, results clearly demonstrate that hemostatic function is impaired in copper deficiency 9 . Copper toxicity is associated with severe multi-organ injury and gastrointestinal and urinary tract hemorrhage. Very little is known concerning the nature of copper induced coagulopathy; however, the mechanisms responsible for the compromised coagulation kinetics can be via oxidation of key fibrinogen disulfide bridges, copper induced glutathione dysfunction and increased plasminogen activator inhibitor type 1 10 . As patients with inflammatory situations exhibit higher mean serum copper concentrations related to disease activity, the increase in copper levels can be related to the body's physiological reaction to fight inflammation. Based on the mentioned sentences, therapeutic supplementation of copper and correction of its deficit may be beneficial for critically ill COVID-19 patients. This is also important in critically ill COVID-19 patients who receive zinc supplement as copper and zinc are competitively absorbed from the small intestine and high doses of zinc administration can result in copper deficiency in these patients. It seems that surge of copper is an essential response for counteracting the infection and balancing the immune dysfunction in human bodies. So, assessment of serum levels of copper may lead to misinterpretation of data leading to inappropriateness of copper supplementation. Intracellular copper assessment and its metalloproteinase is a critical step in monitoring the copper level and function. Previous studies showed that ceruloplasmin may have a role in iron trafficking across the enterocyte during inflammation, participating in host defence and balancing of ferritin levels 12 . In considering the high level of ferritin in severe COVID-19 cases copper role seems to be significant. Finally, closer understanding of copper signaling, its vulnerability, method of assessment and interpretation, administration rout and dosage opens up new perspectives regarding therapeutic copper administration against critically ill COVID-19 patients. So, it seems that physicians should consider copper insufficiency in their critically ill COVID-19 patients. However, an attention should be paid to copper toxicity and estimating the adverse responses depending on copper dose or severity of copper limitation, as well as the duration of copper misbalance. However, repletion of a micronutrient during a critically ill patients does not J o u r n a l P r e -p r o o f mean clinical outcomes are improved. There have been numerous instances where a low level of something has been associated with a bad outcome, however, randomized controlled trials comparing efficacy of repletion against placebo have not shown benefit (e.g., vitamin D, vitamin C). Given above, it is important that physician walk away thinking copper is a magic bullet for COVID-19. Pathogenesis of COVID-19 from a cell biology perspective Copper transport in mammalian cells: special care for a metal with special needs Copper signalling: causes and consequences A hypothesis: The role of magnesium and possibly copper deficiency in the pathogenesis of the adult or acute respiratory distress syndrome (ARDS) as it occurs in infants, children, and adults Serum concentrations of trace elements zinc, copper, selenium, and manganese in critically ill patients Mechanism of copper surface toxicity in vancomycin-resistant enterococci following wet or dry surface contact Copper deficiency reduces interleukin-2 (IL-2) production and IL-2 mRNA in human T-lymphocytes Is copper beneficial for COVID-19 patients? Med Hypotheses Effects of a dietary copper deficiency on plasma coagulation factor activities in male and female mice Effects of cupric chloride on coagulation in human plasma: role of fibrinogen Role of copper efflux in pneumococcal pathogenesis and resistance to macrophage-mediated immune clearance Unexpected role of ceruloplasmin in intestinal iron absorption The authors declare no conflict of interest