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1.
The impact of zinc and folic acid supplementation on sperm DNA methylation: results from the folic acid and zinc supplementation randomized clinical trial (FAZST).
Jenkins, T, Aston, K, Carrell, D, DeVilbiss, E, Sjaarda, L, Perkins, N, Mills, JL, Chen, Z, Sparks, A, Clemons, T, et al
Fertility and sterility. 2022;(1):75-85
Abstract
OBJECTIVE To determine if 6-month folic acid (5 mg) and zinc (30 mg) supplementation impacts sperm DNA methylation patterns. DESIGN A multicenter, double-blind, block randomized, placebo-controlled trial titled "The Folic Acid and Zinc Supplementation Trial (FAZST)." SETTING Infertility care centers. PATIENT(S): Male partners (18 years and older) from heterosexual couples (female partners aged 18-45 years) seeking fertility treatment were recruited. INTERVENTION(S): Men were randomized 1:1 to receive folic acid (5 mg) and elemental zinc (30 mg) (n = 713) or a matching placebo (n = 757) daily for 6 months. MAIN OUTCOME MEASURE(S): Sperm DNA methylation was analyzed using the EPIC methylation array (Illumina) at 6 months. Differential sperm DNA methylation was assessed at multiple levels (regional, single cytosine phosphate guanine, etc.). We additionally assessed the impact of supplementation on epigenetic age. RESULT(S): No significant differences were identified between the treatment and placebo groups although some trends appeared to be present. To determine if these trends were noteworthy, we implemented various permutations and found that the patterns we identified were no more than would be expected by random chance. CONCLUSION(S): The data presented here strongly suggest that this supplementation regimen is not effective at altering sperm DNA methylation. These data comport well with previous findings from the FAZST study that found no impact of supplementation on basic semen analysis parameters or live birth. CLINICAL TRIAL REGISTRATION NUMBER ClinicalTrials.gov Identifier: NCT01857310.
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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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Zinc and vitamin C intake increases spike and neutralising antibody production following SARS-CoV-2 infection.
Quek, AML, Ooi, DSQ, Teng, O, Chan, CY, Ng, GJL, Ng, MY, Yee, S, Cheong, EW, Weng, R, Cook, AR, et al
Clinical and translational medicine. 2022;(2):e731
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Utility of 5-(2',4'-dimethylphenylazo)-6-hydroxy-pyrimidine-2,4-dione in PVC membrane for a novel green optical chemical sensor to detect zinc ion in environmental samples.
Amin, AS, El-Bahy, S, El-Feky, HH
Analytical biochemistry. 2022;:114579
Abstract
In plasticized (2-nitro-phenyloctyl ether (o-NPOE)) and polyvinyl chloride (PVC) membrane incorporating (N,N-diethyl-5-(octadecanoylimino)-5H-benzo[a] phenolxazine-9-amine (ETH 5294) and sodium tetraphenyl borate (NaTPB), an ionophore 5-(2',4'-dimethylphenylazo)-6-hydroxy-pyrimidine-2,4-dione (DMPAHPD) form an optical chemical sensor for zinc determination is ascribed. The sensor response is based on selective complexation of Zn2+ with DMPAHPD in the designed membrane phase, resulting in an ion exchange process between H+ in the membrane and Zn2+ in the sample solution. The influences of several experimental parameters, as membrane composition, pH, and type and concentration of the regenerating reagent, were demonstrated. The sensor has a response range of 5.0 × 10-9 to 2.5 × 10-5 M Zn2+ with detection and quantification limits of 1.6 × 10-9 and 4.9 × 10-9 M, respectively. The response time of 1 min at 0.1 M phosphate buffer solution of pH 5.0 with recording repeatability and sensor-to sensor reproducibility is reported. The proposed sensor signifies high selectivity for Zn2+ over various transition metal ions, alkali, and alkaline earth ions. The sensor membrane can be simply regenerated with 0.5 M HNO3. The sensor has been used to assess Zn2+ in river, waste, tap, sea, well, and spring waters samples, serum of diabetic patients, powdered milk, hair, red meat, pharmaceutical formulations, and talc powder samples.
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Zinc supplementation is associated with a reduction in serum markers of inflammation and oxidative stress in adults: A systematic review and meta-analysis of randomized controlled trials.
Hosseini, R, Ferns, GA, Sahebkar, A, Mirshekar, MA, Jalali, M
Cytokine. 2021;:155396
Abstract
BACKGROUND Zinc (Zn) is a trace metal that is considered to have an impact on chronic inflammation. However, findings of clinical trials have been inconsistent. The present systematic review and meta-analysis aimed to provide a more robust examination of the evidence on the effectiveness of Zn supplements on markers of inflammation and oxidative stress. METHODS A systematic search in PubMed, Scopus, Web of Science and Cochrane Library was undertaken to identify relevant randomized controlled trials (RCTs) assessing the impact of Zn on inflammation and oxidative stress until 17 August 2020. We applied a random-effects method to obtain effect sizes (ES) and 95% confidence intervals (CIs). Meta-regression was used to detect the potential source of between-study heterogeneity. RESULTS Twenty-one eligible RCTs comprising 1321 participants were included in the meta-analysis. In comparison with the control groups, serum C-reactive protein (CRP) (ES = -0.92 mg/L, 95% CI = [-1.36, -0.48], P < 0.001, I2 = 90.2%), tumor necrosis factor-alpha (TNF-α) (ES = -0.49 pg/mL, 95% CI = [-084, -0.14], P = 0.006, I2 = 34.6%) and malondialdehyde (MDA) (ES = -0.42, 95% CI = [-083, -0.01], P = 0.04, I2 = 76.1%) were significantly reduced in the groups receiving Zn. Serum interleukin 6 (ES = -1.02 pg/mL, 95% CI = [-2.06, 0.02], P = 0.05, I2 = 92.3%) was marginally reduced following Zn supplementation. Moreover, treatment duration was found as the source of inter-study heterogeneity. CONCLUSION This meta-analysis suggests that Zn supplements reduce serum concentrations of markers of inflammation and oxidation: CRP, TNF-α and MDA.
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Antibacterial Titanium Implants Biofunctionalized by Plasma Electrolytic Oxidation with Silver, Zinc, and Copper: A Systematic Review.
van Hengel, IAJ, Tierolf, MWAM, Fratila-Apachitei, LE, Apachitei, I, Zadpoor, AA
International journal of molecular sciences. 2021;(7)
Abstract
Patients receiving orthopedic implants are at risk of implant-associated infections (IAI). A growing number of antibiotic-resistant bacteria threaten to hamper the treatment of IAI. The focus has, therefore, shifted towards the development of implants with intrinsic antibacterial activity to prevent the occurrence of infection. The use of Ag, Cu, and Zn has gained momentum as these elements display strong antibacterial behavior and target a wide spectrum of bacteria. In order to incorporate these elements into the surface of titanium-based bone implants, plasma electrolytic oxidation (PEO) has been widely investigated as a single-step process that can biofunctionalize these (highly porous) implant surfaces. Here, we present a systematic review of the studies published between 2009 until 2020 on the biomaterial properties, antibacterial behavior, and biocompatibility of titanium implants biofunctionalized by PEO using Ag, Cu, and Zn. We observed that 100% of surfaces bearing Ag (Ag-surfaces), 93% of surfaces bearing Cu (Cu-surfaces), 73% of surfaces bearing Zn (Zn-surfaces), and 100% of surfaces combining Ag, Cu, and Zn resulted in a significant (i.e., >50%) reduction of bacterial load, while 13% of Ag-surfaces, 10% of Cu-surfaces, and none of Zn or combined Ag, Cu, and Zn surfaces reported cytotoxicity against osteoblasts, stem cells, and immune cells. A majority of the studies investigated the antibacterial activity against S. aureus. Important areas for future research include the biofunctionalization of additively manufactured porous implants and surfaces combining Ag, Cu, and Zn. Furthermore, the antibacterial activity of such implants should be determined in assays focused on prevention, rather than the treatment of IAIs. These implants should be tested using appropriate in vivo bone infection models capable of assessing whether titanium implants biofunctionalized by PEO with Ag, Cu, and Zn can contribute to protect patients against IAI.
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The Minimal Effect of Zinc on the Survival of Hospitalized Patients With COVID-19: An Observational Study.
Yao, JS, Paguio, JA, Dee, EC, Tan, HC, Moulick, A, Milazzo, C, Jurado, J, Della Penna, N, Celi, LA
Chest. 2021;(1):108-111
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Profiling inflammatory cytokines following zinc supplementation: a systematic review and meta-analysis of controlled trials.
Faghfouri, AH, Baradaran, B, Khabbazi, A, Khaje Bishak, Y, Zarezadeh, M, Tavakoli-Rouzbehani, OM, Faghfuri, E, Payahoo, L, Alipour, M, Alipour, B
The British journal of nutrition. 2021;(10):1441-1450
Abstract
Chronic inflammation has been considered as the main cause of chronic diseases. Zn has anti-inflammatory effects by decreasing the expression of inflammatory markers. The present systematic review and meta-analysis study aims to evaluate the impact of Zn supplementation on inflammation. PubMed (Medline), Scopus, Web of Science, and Embase databases were searched up to 10 December 2020. Controlled trials which have investigated the effects of Zn supplementation on serum/plasma levels of inflammatory cytokines in subjects aged >15 years were included. A pooled meta-analysis was performed using a random effect model. Sensitivity analysis was performed to determine the robustness of the observed effect sizes. A total of twelve studies was included in meta-analysis. Zn could decrease IL-6 levels (standardised mean difference (SMD) = -0·76 pg/ml; 95 % CI -1·28, -0·24; P = 0·004). There was no significant change in TNF-α (SMD = 0·42 pg/ml; 95 % CI -0·31, 1·16; P = 0·257) and IL-2 levels (SMD = 1·64 pg/ml; 95 % CI -1·31, 4·59; P = 0·277) following Zn supplementation. However, Zn could increase IL-2 significantly after the deletion of one arm in sensitivity analysis (SMD = 2·96 pg/ml; 95 % CI 2·03, 3·88; P < 0·05). Conclusively, Zn supplementation can decrease the IL-6 level. Zn increased IL-2 level after the sensitivity analysis. Zn supplementation has not ameliorative effects on TNF-α.
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Identification of unique subtype-specific interaction features in Class II zinc-dependent HDAC subtype binding pockets: A computational study.
Ukey, S, Choudhury, C, Sharma, P
Journal of biosciences. 2021
Abstract
Zinc-dependent HDAC subtypes (ZnHDACs) exhibit differential expression in various cancer types and significantly contribute to oncogenic cell transformation, and hence are interesting anticancer drug targets. The approved pan HDAC inhibitors (PHIs) lack subtype specificity and inhibit all ZnHDACs, causing severe sideeffects. Considering the distinct tissue distribution and roles of individual ZnHDACs in specific cancer types, it is crucial to rationally design subtype-specific inhibitors (SSIs) for enhanced efficacy and reduced side-effects. There are numerous approaches already conducted for designing SSIs, especially Class I ZnHDACs, whereas Class II and III ZnHDACs are relatively unexplored and equally important in disease pathogenesis. This study attempts to decipher the specificity rendering interaction features of six different ZnHDACs by robust analyses of reported experimental data employing sophisticated computational methods like homology modelling, docking, pharmacophore analysis, and molecular dynamic (MD) simulations. Experimentally validated SSIs (activity<1000 nM) of different ZnHDACs and 8 approved PHIs were docked to 40 MD generated conformations of each ZnHDACs followed by MM-GBSA binding energy estimations. Sequences, structures, physicochemical properties, and interaction patterns of the binding sites obtained from docking were exhaustively compared to identify unique subtype-specific interaction features for each Class II ZnHDACs. To further validate the stabilities of these features, 20 ns MD simulations were performed on 12 complexes (each Class II ZnHDACs bound to one SSI and one PHI) in explicit water models. Distinct pharmacophoric patterns were observed in the binding pockets of each subtype despite high sequence similarities. Presence of amides, ketone, hydroxyl, carboxyl groups, and moieties occupying additional sub-pockets and interacting with Zn 2+, etc., in the SSIs affect the orientations of the binding site residues (BSRs) owing to subtype-specific protein- ligand interactions. Stable and unique residue interactions specific for a HDAC subtype are, e.g. E329 for HDAC4, S904 for HDAC5, W496 S563 I569 for HDAC6, M793 for HDAC9, and E302 for HDAC10. Such unique interaction features and pharmacophoric patterns can be utilized for subtype-specific ZnHDAC inhibitor design.
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Does Evidence Exist to Blunt Inflammatory Response by Nutraceutical Supplementation during COVID-19 Pandemic? An Overview of Systematic Reviews of Vitamin D, Vitamin C, Melatonin, and Zinc.
Corrao, S, Mallaci Bocchio, R, Lo Monaco, M, Natoli, G, Cavezzi, A, Troiani, E, Argano, C
Nutrients. 2021;(4)
Abstract
More than one year has passed since the first cases of coronavirus disease 2019 (COVID-19) caused by severe acute respiratory syndrome (SARS)-CoV-2 coronavirus were reported in Wuhan (China), rapidly evolving into a global pandemic. This infectious disease has become a major public health challenge in the world. Unfortunately, to date, no specific antivirals have been proven to be effective against COVID-19, and although a few vaccines are available, the mortality rate is not decreasing but is still increasing. One therapeutic strategy has been focused on infection prevention and control measures. In this regard, the use of nutraceutical supports may play a role against some aspect of the infection, particularly the inflammatory state and the immune system function of patients, thus representing a strategy to control the worst outcomes of this pandemic. For this reason, we performed an overview including meta-analyses and systematic reviews to assess the association among melatonin, vitamin C, vitamin D, zinc supplementation and inflammatory markers using three databases, namely, MEDLINE, PubMed Central and the Cochrane Library of Systematic Reviews. According to the evidence available, an intake of 50,000 IU/month of vitamin D showed efficacy in CRP. An amount of 1 to 2 g per day of vitamin C demonstrated efficacy both in CRP and endothelial function, and a dosage of melatonin ranging from 5 to 25 mg /day showed good evidence of efficacy in CRP, TNF and IL6. A dose of 50 mg/day of elemental zinc supplementation showed positive results in CRP. Based on the data reported in this review, the public health system could consider whether it is possible to supplement the current limited preventive measures through targeted nutraceutical large-scale administration.