Immunological methods to detect SARS-CoV-2 seroconversion in humans are important to track COVID-19 cases and the humoral response to SARS-CoV-2 infections and immunization to future vaccines. The aim of this work was to develop a simple chromogenic magnetic bead-based immunoassay which allows rapid, inexpensive, and quantitative detection of human antibodies against SARS-CoV-2 in serum, plasma, or blood. Recombinant 6xHis-tagged SARS-CoV-2 Nucleocapsid protein was mobilized on the surface of Ni 2+ magnetic beads and challenged with serum or blood samples obtained from controls or COVID-19 cases. The beads were washed, incubated with anti-human IgG-HPR conjugate, and immersed into a solution containing a chromogenic HPR substrate. Bead transfer and homogenization between solutions was aided by a simple low-cost device. The method was validated by two independent laboratories, and the performance to detect SARS-CoV-2 seroconversion in humans was in the same range as obtained using the gold standard immunoassays ELISA and Luminex, though requiring only a fraction of consumables, instrumentation, time to deliver results, and volume of sample. Furthermore, the results obtained with the method described can be visually interpreted without compromising accuracy as demonstrated by validation at a point-of-care unit. The magnetic bead immunoassay throughput can be customized on demand and is readily adapted to be used with any other 6xHis tagged protein or peptide as antigen to track other diseases.
Background SARS-CoV-2 Reverse Transcription Loop-mediated Isothermal Amplification (RT-LAMP) colorimetric detection is a sensitive and specific point-of-care molecular biology technique used to detect the virus in only 30 min. In this manuscript we have described a few nuances of the technique still not properly described in the literature: the presence of three colors clusters; the correlation of the viral load with the color change; and the importance of using an internal control to avoid false-negative results. Methods To achieve these findings, we performed colorimetric RT-LAMP assays of 466 SARS-CoV-2 RT-qPCR validated clinical samples, with color quantification measured at 434 nm and 560 nm. Results First we determinate a sensitivity of 93.8% and specificity of 90.4%. In addition to the pink (negative) and yellow (positive) produced colors, we report for the first time the presence of an orange color cluster that may lead to wrong diagnosis. We also demonstrated using RT-qPCR and RT-LAMP that low viral loads are related to Ct values > 30, resulting in orange colors. We also demonstrated that the diagnosis of COVID-19 by colorimetric RT-LAMP is efficient until the fifth symptoms day when the viral load is still relatively high. Conclusion This study reports properties and indications for colorimetric RT-LAMP as point-of-care for SARS-CoV-2 diagnostic, reducing false results, interpretations and optimizing molecular diagnostics tests application.
The rapid and reliable detection of SARS-CoV-2 seroconversion in humans is crucial for suitable infection control. In this sense, many studies have focused on increasing the sensibility, lowering the detection limits and minimizing false negative/positive results. Thus, biosensors based on nanoarchitectures of conducting polymers (CPs) are promising alternatives to more traditional materials, since they can hold improved surface area, higher electrical conductivity and electrochemical activity. In this work, we reported the analytical comparison of two different CPs morphologies for the development of an impedimetric biosensor to monitor SARS-CoV-2 seroconversion in humans. Biosensors based on polypyrrole (PPy), synthesized in both globular and nanotubular (NTs) morphology, and gold nanoparticles (AuNPs) are reported, using a self-assembly monolayer of 3-mercaptopropionic acid and covalently linked SARS-CoV-2 Nucleocapsid protein. Firstly, the novel hybrid materials were characterized by electron microscopy and electrochemical measurements, and the biosensor step-by-step construction was characterized by electrochemical and spectroscopic techniques. As a proof of concept, the biosensor was used for the impedimetric detection of anti-SARS-CoV-2 Nucleocapsid protein monoclonal antibodies. The results showed a linear response for different antibody concentrations, good sensibility and possibility to quantify 7.442 and 0.4 ng mL -1 of monoclonal antibody for PPy in the globular and nanotubular morphology, respectively. The PPy-NTs biosensor was able to discriminate serum obtained from COVID-19 positive vs negative clinical samples and is a promising tool for COVID-19 immunodiagnostic, which can contribute to further studies concerning rapid, efficient, and reliable detections.
Tamoxifen efficacy in breast cancer is suspected to depend on adherence and intact drug metabolism. We evaluated the role of adherence behavior and pharmacogenetics on the formation rate of (Z)‐endoxifen. In 192 Brazilian patients, we assessed plasma levels of tamoxifen and its metabolites at 3, 6, and 12 months of treatment (liquid‐chromatography tandem mass spectrometry), adherence behavior (Morisky, Green, and Levine medication adherence scale), and cytochrome P450 2D6 (CYP2D6) and other pharmacogene polymorphisms (matrix‐assisted laser‐desorption‐ionization time of flight) mass spectrometry, real‐time polymerase chain reaction). Adherence explained 47% of the variability of tamoxifen plasma concentrations (P < 0.001). Although CYP2D6 alone explained 26.4%, the combination with adherence explained 40% of (Z)‐endoxifen variability at 12 months (P < 0.001). The influence of low adherence to not achieving relevant (Z)‐endoxifen levels was highest in patients with noncompromised CYP2D6 function (relative risk 3.65; 95% confidence interval 1.48–8.99). As a proof‐of‐concept, we demonstrated that (Z)‐endoxifen levels are influenced both by patient adherence to tamoxifen and CYP2D6, which is particularly relevant for patients with full CYP2D6 function.
The aim of this work was to investigate the anti-inflammatory activities of the uleine-rich fraction extracted from the barks of Himatanthus lancifolius (Muell. Arg.) Woodson (Apocynaceae). To achieve this, we focused on its in vitro effects on some steps of the inflammatory response using peripheral human leukocytes. The results presented herein show that the uleine-rich fraction significantly inhibits the migration of casein-induced granulocytes and their adhesion to fibronectin and vitronectin, along with mononuclear cells, by down-regulating the expression of alpha 4beta1 and alpha5beta1 integrins. The data suggest that H. LANCIFOLIUS has the potential of interferring with leukocyte trafficking through its uleine-rich fraction, emphasizing its usefulness in inflammatory conditions. DEXA:dexamethasone disodium phosphate FN:fibronectin PMN:polymorphonuclear URF:uleine-rich fraction VN:vitronectin.
RESUMO:Annona glabra Linneau, Annonaceae, é uma árvore de pequeno porte encontrada em todo território brasileiro, principalmente nas áreas costeiras e conhecida popularmente como araticum-do-brejo e araticum-bravo. Este trabalho teve como objetivos investigar os efeitos do extrato de A. glabra e do ácido caurenóico dele purificado sobre a migração de granulócitos humanos e seu potencial imunomodulatório. Os resultados demonstraram que o extrato de A. glabra inibe a migração natural de granulócitos, de acordo com a dose, sugerindo potencial antiinflamatório, enquanto o ácido caurenóico demonstrou estimulá-la de forma significativa. Em contraste, nenhum efeito foi observado com relação a imunomodulação. Os efeitos apresentados ainda não foram descritos e, dessa forma, contribuem para ampliar a lista de atividades biológicas descritas não só do extrato de A. glabra, como também para o ácido caurenóico.Unitermos: Annona glabra, Annonaceae, ácido caurenóico, leucócitos humanos, quimiotaxia, imunomodulação.ABSTRACT: "Anti-inflammatory potential of Annona glabra, Annonaceae". Annona glabra Linneau, Annonaceae, is a small tree that grows over the Brazilian territory particularly in its coast, and is known as "araticum-do-brejo" and "araticum-bravo". The aim of this study was to evaluate the effects of the extract of A. glabra and its purified kaurenoic acid on the locomotion of human granulocytes and their immunomodulatory potential. The results herein presented showed a dose-dependent inhibition of the granulocyte migration for the extract, suggesting an anti-inflammatory activity, in contrast with a striking stimulation observed for the kaurenoic acid. When focusing immunomodulation properties, no activity could be drawn. The effects presented in this work are reported for the first time and extend the list of biological activities already described for the A. glabra extract as well as for the kaurenoic acid.
Serological assays are important tools to identify previous exposure to SARS-CoV-2, helping to track COVID-19 cases and determine the level of humoral response to SARS-CoV-2 infections and/or immunization to future vaccines. Here, the SARS-CoV-2 nucleocapsid protein was expressed in Escherichia coli and purified to homogeneity and high yield using a single chromatography step. The purified SARS-CoV-2 nucleocapsid protein was used to develop an indirect enzyme-linked immunosorbent assay for the identification of human SARS-CoV-2 seroconverts. The assay sensitivity and specificity were determined analyzing sera from 140 RT-qPCR-confirmed COVID-19 cases and 210 pre-pandemic controls. The assay operated with 90% sensitivity and 98% specificity; identical accuracies were obtained in head-to-head comparison with a commercial ELISA kit. Antigen-coated plates were stable for up to 3 months at 4 °C. The ELISA method described is ready for mass production and will be an additional tool to track COVID-19 cases.
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