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1.
Potential Role of Zinc in the COVID-19 Disease Process and its Probable Impact on Reproduction.
Sethuram, R, Bai, D, Abu-Soud, HM
Reproductive sciences (Thousand Oaks, Calif.). 2022;(1):1-6
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Abstract
COVID-19 (coronavirus disease 2019) is the current world health crisis, producing extensive morbidity and mortality across all age groups. Given the established roles of zinc in combating oxidative damage and viral infections, zinc is being trialed as a treatment modality against COVID-19. Zinc also has confirmed roles in both male and female reproduction. The possible depletion of zinc with the oxidative events of COVID-19 is especially relevant to the fertility of affected couples. This review aims to present the pathophysiology of COVID-19, especially in relation to reproductive function; the role of zinc in the COVID-19 disease process; and how zinc depletion in concert with cytokine storm and reactive oxygen species production could affect reproduction. It also highlights research areas to better the understanding of COVID-19 and its impact on fertility and potential ways to mitigate the impact.
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Potential molecular mechanisms of zinc- and copper-mediated antiviral activity on COVID-19.
Rani, I, Goyal, A, Bhatnagar, M, Manhas, S, Goel, P, Pal, A, Prasad, R
Nutrition research (New York, N.Y.). 2021;:109-128
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Abstract
Novel coronavirus disease 2019 (COVID-19) has spread across the globe; and surprisingly, no potentially protective or therapeutic antiviral molecules are available to treat severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2) infection. However, zinc (Zn) and copper (Cu) have been shown to exert protective effects due to their antioxidant, anti-inflammatory, and antiviral properties. Therefore, it is hypothesized that supplementation with Zn and Cu alone or as an adjuvant may be beneficial with promising efficacy and a favorable safety profile to mitigate symptoms, as well as halt progression of the severe form of SARS-CoV-2 infection. The objective of this review is to discuss the proposed underlying molecular mechanisms and their implications for combating SARS-CoV-2 infection in response to Zn and Cu administration. Several clinical trials have also included the use of Zn as an adjuvant therapy with dietary regimens/antiviral drugs against COVID-19 infection. Overall, this review summarizes that nutritional intervention with Zn and Cu may offer an alternative treatment strategy by eliciting their virucidal effects through several fundamental molecular cascades, such as, modulation of immune responses, redox signaling, autophagy, and obstruction of viral entry and genome replication during SARS-CoV-2 infection.
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Galvanization of Protein-Protein Interactions in a Dynamic Zinc Interactome.
Kocyła, A, Tran, JB, Krężel, A
Trends in biochemical sciences. 2021;(1):64-79
Abstract
The presence of Zn2+ at protein-protein interfaces modulates complex function, stability, and introduces structural flexibility/complexity, chemical selectivity, and reversibility driven in a Zn2+-dependent manner. Recent studies have demonstrated that dynamically changing Zn2+ affects numerous cellular processes, including protein-protein communication and protein complex assembly. How Zn2+-involved protein-protein interactions (ZPPIs) are formed and dissociate and how their stability and reactivity are driven in a zinc interactome remain poorly understood, mostly due to experimental obstacles. Here, we review recent research advances on the role of Zn2+ in the formation of interprotein sites, their architecture, function, and stability. Moreover, we underline the importance of zinc networks in intersystemic communication and highlight bioinformatic and experimental challenges required for the identification and investigation of ZPPIs.
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[Zinc status improving as a pathogenetically grounded platform for maintaining immunity during SARS-CoV-2 pandemic].
Sankova, MV, Kytko, OV, Dydykina, IS, Chilikov, VV, Laptina, VI, Markina, AD
Voprosy pitaniia. 2021;(2):26-39
Abstract
The problem of increasing immunity has become especially relevant in the conditions of the rapid spread of the new coronavirus infection SARS-CoV-2. Nowadays it has been proven that a deficiency of certain micronutrients in the diet can disrupt chemical, structural and regulatory processes in the organism, which negatively affects, first of all, the state of immune system. Zinc is one of the most significant essential trace elements affecting immunological resistance. The aim of the study was to substantiate the need of including zinc-containing products and diet supplements in the diet of the population during the SARS-CoV-2 pandemic on the basis of the study of pathogenetic mechanisms of various disorders of the immunological status under zinc deficit. Material and methods. This review analyzes the data from scientific electronic libraries CyberLeninka, eLIBRARY.RU, the Google Scholar databases and bibliographic medical databases MEDLINE and PubMed-NCBI. Results and discussion. During the SARS-CoV-2 pandemic, adequate zinc supply is especially important, due to its antiviral, immunomodulatory and antiapoptotic effects. This element also regulates the severity of the cytokine response, exhibits antibacterial properties and helps to compensate for chronic comorbid diseases, which plays a particularly significant role in preventing severe SARS-CoV-2 and recurrent respiratory diseases. Prevention and correction of zinc deficiency is considered as one of the important measures during the SARS-CoV-2 pandemic, aimed at increasing antiviral and general immunity, reducing the systemic inflammatory response and correcting hormonal and metabolic status. Conclusion. The pathogenetically substantiated inclusion of zinc-containing foods and supplements in the diet will enhance the immunity of the population during the SARSCoV- 2 pandemic.
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Zinc: an endogenous and exogenous regulator of platelet function during hemostasis and thrombosis.
Ahmed, NS, Lopes-Pires, M, Pugh, N
Platelets. 2021;(7):880-887
Abstract
Zinc (Zn2+) is an essential micronutrient and the second most abundant trace metal in the human body. The important role that Zn2+ plays in hemostasis is exemplified by platelet-related bleeding phenotypes coinciding with dietary Zn2+ deficiency. These phenotypes are rectified upon Zn2+ supplementation. Labile (unbound) Zn2+ is present in the plasma at micromolar levels, but is also detected in atherosclerotic plaques, and released from platelet α granules. Therefore, it is likely that localized Zn2+ concentrations are higher at sites of thrombosis and hemostasis. Exogenous Zn2+ is a regulator of the hemostatic responses, with roles during coagulation and platelet activation. Extracellular Zn2+ gains access to the platelet cytosol and induces full platelet activation at high concentrations, and potentiates platelets to activation by conventional agonists at lower concentrations. Zn2+-induced platelet activation is dependent on PKC and integrin αIIbβ3, and is associated with tyrosine phosphorylation of platelet proteins. Agonist evoked platelet activation results in intracellular Zn2+ ([Zn2+]i) fluctuations that are sensitive to the platelet redox state. Increases in [Zn2+]i correlate with activation responses, including shape change, granule release, αIIbβ3 activation and phosphatidyl-serine exposure, consistent with a role as a second messenger. This review provides insight into the numerous demonstrated and potential roles for Zn2+ in platelet function during thrombosis and hemostasis, highlighting its increasing acceptance as an intracellular and extracellular platelet regulatory agent.
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Can Zn Be a Critical Element in COVID-19 Treatment?
Rahman, MT, Idid, SZ
Biological trace element research. 2021;(2):550-558
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Abstract
The current COVID-19 pandemic caused by SARS-CoV-2 has prompted investigators worldwide to search for an effective anti-viral treatment. A number of anti-viral drugs such as ribavirin, remdesivir, lopinavir/ritonavir, antibiotics such as azithromycin and doxycycline, and anti-parasite such as ivermectin have been recommended for COVID-19 treatment. In addition, sufficient pre-clinical rationale and evidence have been presented to use chloroquine for the treatment of COVID-19. Furthermore, Zn has the ability to enhance innate and adaptive immunity in the course of a viral infection. Besides, Zn supplement can favour COVID-19 treatment using those suggested and/or recommended drugs. Again, the effectiveness of Zn can be enhanced by using chloroquine as an ionophore while Zn inside the infected cell can stop SARS-CoV-2 replication. Given those benefits, this perspective paper describes how and why Zn could be given due consideration as a complement to the prescribed treatment of COVID-19.
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Metal ion homeostasis with emphasis on zinc and copper: Potential crucial link to explain the non-classical antioxidative properties of vitamin D and melatonin.
Martín Giménez, VM, Bergam, I, Reiter, RJ, Manucha, W
Life sciences. 2021;:119770
Abstract
Metal ion homeostasis is an essential physiological mechanism necessary for achieving an adequate balance of these ions' concentrations in the different cellular compartments. This fact is of great importance because both an excess and a deficiency of cellular metal ion levels are usually equally harmful due to the exacerbated increase in oxidative stress that may occur in both cases. Metal ion homeostasis ensures an equilibrium among multiple functions associated with the body's antioxidative defense network controlled by metallic micronutrients such as zinc and copper, some of the central regulators of redox processes. These micronutrients significantly modulate the activity of some isoforms of superoxide dismutase (SOD) and other enzymes such as metallothioneins (MTs) and ceruloplasmin (CP), which are directly or indirectly involved in the regulation of redox homeostasis. Although it is well known that both melatonin (MEL) and vitamin D have important roles as natural antioxidants, often some of these effects are related to their actions on antioxidative processes dependent on metal ions. Thus, in addition to their classical antioxidative properties usually associated with mitochondrial effects, it is known that MEL and vitamin D modulate the expression and activity of Cu/Zn-dependent SOD isoforms, MTs and CP; function as copper chelators and regulate genomic and non-genomic mechanisms related to the zinc transport. This review summarizes the main findings related to the crucial participation of zinc and copper in physiological antioxidative status and their relationship with the non-classical antioxidant effects of MEL and vitamin D, suggesting a potential synergism among these four micronutrients.
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Vitamin D, zinc and glutamine: Synergistic action with OncoTherad immunomodulator in interferon signaling and COVID‑19 (Review).
Name, JJ, Vasconcelos, AR, Souza, ACR, Fávaro, WJ
International journal of molecular medicine. 2021;(3)
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Abstract
Coronavirus disease 2019 (COVID‑19), caused by severe acute respiratory syndrome coronavirus 2 (SARS‑CoV‑2), was identified in December, 2019 in Wuhan, China. Since then, it has continued to spread rapidly in numerous countries, while the search for effective therapeutic options persists. Coronaviruses, including SARS‑CoV‑2, are known to suppress and evade the antiviral responses of the host organism mediated by interferon (IFN), a family of cytokines that plays an important role in antiviral defenses associated with innate immunity, and has been used therapeutically for chronic viral diseases and cancer. On the other hand, OncoTherad, a safe and effective immunotherapeutic agent in the treatment of non‑muscle invasive bladder cancer (NMIBC), increases IFN signaling and has been shown to be a promising therapeutic approach for COVID‑19 in a case report that described the rapid recovery of a 78‑year‑old patient with NMIBC with comorbidities. The present review discusses the possible synergistic action of OncoTherad with vitamin D, zinc and glutamine, nutrients that have been shown to facilitate immune responses mediated by IFN signaling, as well as the potential of this combination as a therapeutic option for COVID‑19.
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Zinc enzymes in medicinal chemistry.
Hou, R, He, Y, Yan, G, Hou, S, Xie, Z, Liao, C
European journal of medicinal chemistry. 2021;:113877
Abstract
In humans, more than three hundred diverse enzymes that require zinc as an essential cofactor have been identified. These zinc enzymes have demonstrated different and important physiological functions and some of them have been considered as valuable therapeutic targets for drug discovery. Indeed, many drugs targeting a few zinc enzymes have been marketed to treat a variety of diseases. This review discusses drug discovery and drug development based on a dozen of zinc enzymes, including their biological functions and pathogenic roles, their best in class inhibitors (and clinical trial data when available), coordination and binding modes of representative inhibitors, and their implications for further drug design. The opportunities and challenges in developing zinc enzyme inhibitors for the treatment of human disorders are highlighted, too.
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Diverse relationships between metal ions and the ribosome.
Akanuma, G
Bioscience, biotechnology, and biochemistry. 2021;(7):1582-1593
Abstract
The ribosome requires metal ions for structural stability and translational activity. These metal ions are important for stabilizing the secondary structure of ribosomal RNA, binding of ribosomal proteins to the ribosome, and for interaction of ribosomal subunits. In this review, various relationships between ribosomes and metal ions, especially Mg2+ and Zn2+, are presented. Mg2+ regulates gene expression by modulating the translational stability and synthesis of ribosomes, which in turn contribute to the cellular homeostasis of Mg2+. In addition, Mg2+ can partly complement the function of ribosomal proteins. Conversely, a reduction in the cellular concentration of Zn2+ induces replacement of ribosomal proteins, which mobilizes free-Zn2+ in the cell and represses translation activity. Evolutional relationships between these metal ions and the ribosome are also discussed.