Autoimmune Diabetes Mellitus (DM) is a chronic disease caused by the selective destruction of insulin producing beta cells in human pancreas. DM is characterized by the presence of autoantibodies that bind a variety of islet-cell antigens. The 65 kDa isoform of glutamate decarboxylase (GAD65) is a major autoantigen recognized by these autoantibodies. Autoantibodies to GAD65 (GADA) are considered predictive markers of the disease when tested in combination with other specific autoantibodies. In order to produce reliable immunochemical tests for large scale screening of autoimmune DM, large amounts of properly folded GAD65 are needed. Herein, we report the production of human GAD65 using the baculovirus expression system in two species of larvae, Rachiplusia nu and Spodoptera frugiperda. GAD65 was identified at the expected molecular weight, properly expressed with high yield and purity in both larvae species and presenting appropriate enzymatic activity. The immunochemical ability of recombinant GAD65 obtained from both larvae to compete with [35S]GAD65 was assessed qualitatively by incubating GADA-positive patients’ sera in the presence of 1 μM of the recombinant enzyme. All sera tested became virtually negative after incubation with antigen excess. Besides, radiometric quantitative competition assays with GADA-positive patients’ sera were performed by adding recombinant GAD65 (0.62 nM–1.4 µM). All dose response curves showed immunochemical identity between proteins. In addition, a bridge-ELISA for the detection of GADA was developed using S. frugiperda-GAD65. This assay proved to have 77.3% sensitivity and 98.2% of specificity. GAD65 could be expressed in insect larvae, being S. frugiperda the best choice due to its high yield and purity. The development of a cost effective immunoassay for the detection of GADA was also afforded.
Serology testing for COVID‐19 is important in evaluating active immune response against SARS‐CoV‐2, studying the antibody kinetics, and monitoring reinfections with genetic variants and new virus strains, in particular, the duration of antibodies in virus‐exposed individuals and vaccine‐mediated immunity. In this study, recombinant S protein of SARS‐CoV‐2 was expressed in
Rachiplusia nu
, an important agronomic plague. One gram of insect larvae produces an amount of S protein sufficient for 150 determinations in the ELISA method herein developed. We established a rapid production process for SARS‐CoV‐2 S protein that showed immunoreactivity for anti‐SARS‐CoV‐2 antibodies and was used as a single antigen for developing the ELISA method with high sensitivity (96.2%) and specificity (98.8%). Our findings provide an efficient and cost‐effective platform for large‐scale S protein production, and the scale‐up is linear, thus avoiding the use of complex equipment like bioreactors.
BackgroundThe insulinoma associated protein tyrosine phosphatase 2 (IA-2) is one of the immunodominant autoantigens involved in the autoimmune attack to the beta-cell in Type 1 Diabetes Mellitus. In this work we have developed a complete and original process for the production and recovery of the properly folded intracellular domain of IA-2 fused to thioredoxin (TrxIA-2ic) in Escherichia coli GI698 and GI724 strains. We have also carried out the biochemical and immunochemical characterization of TrxIA-2icand design variants of non-radiometric immunoassays for the efficient detection of IA-2 autoantibodies (IA-2A).ResultsThe main findings can be summarized in the following statements: i) TrxIA-2ic expression after 3 h of induction on GI724 strain yielded ≈ 10 mg of highly pure TrxIA-2ic/L of culture medium by a single step purification by affinity chromatography, ii) the molecular weight of TrxIA-2ic (55,358 Da) could be estimated by SDS-PAGE, size exclusion chromatography and mass spectrometry, iii) TrxIA-2ic was properly identified by western blot and mass spectrometric analysis of proteolytic digestions (63.25 % total coverage), iv) excellent immunochemical behavior of properly folded full TrxIA-2ic was legitimized by inhibition or displacement of [35S]IA-2 binding from IA-2A present in Argentinian Type 1 Diabetic patients, v) great stability over time was found under proper storage conditions and vi) low cost and environmentally harmless ELISA methods for IA-2A assessment were developed, with colorimetric or chemiluminescent detection.Conclusions
E. coli GI724 strain emerged as a handy source of recombinant IA-2ic, achieving high levels of expression as a thioredoxin fusion protein, adequately validated and applicable to the development of innovative and cost-effective immunoassays for IA-2A detection in most laboratories.Electronic supplementary materialThe online version of this article (doi:10.1186/s12896-016-0309-2) contains supplementary material, which is available to authorized users.
BackgroundIn the present work we described the recombinant production and characterization of heterodimeric construction ZnT8-Arg-Trp325 fused to thioredoxin using a high-performance expression system such as Escherichia coli. In addition, we apply this novel recombinant antigen in a non-radiometric method, with high sensitivity, low operational complexity and lower costs.ResultsZnT8 was expressed in E. coli as a fusion protein with thioredoxin (TrxZnT8). After 3 h for induction, recombinant protein was obtained from the intracellular soluble fraction and from inclusion bodies and purified by affinity chromatography. The expression and purification steps, analyzed by SDS-PAGE and western blot, revealed a band compatible with TrxZnT8 expected theoretical molecular weight (≈ 36.8 kDa). The immunochemical ability of TrxZnT8 to compete with [35S]ZnT8 (synthesized with rabbit reticulocyte lysate system) was assessed qualitatively by incubating ZnT8A positive patient sera in the presence of 0.2–0.3 μM TrxZnT8. Results were expressed as standard deviation scores (SDs). All sera became virtually negative under antigen excess (19.26–1.29 for TrxZnT8). Also, radiometric quantitative competition assays with ZnT8A positive patient sera were performed by adding TrxZnT8 (37.0 pM–2.2 µM), using [35S]ZnT8. All dose–response curves showed similar protein concentration that caused 50% inhibition (14.9–0.15 nM for TrxZnT8). On the other hand, preincubated bridge ELISA for ZnT8A detection was developed. This assay showed 51.7% of sensitivity and 97.1% of specificity.ConclusionsIt was possible to obtain with high-yield purified heterodimeric construction of ZnT8 in E. coli and it was applied in cost-effective immunoassay for ZnT8A detection.Electronic supplementary materialThe online version of this article (10.1186/s12934-017-0816-4) contains supplementary material, which is available to authorized users.
Serology testing for COVID-19 is important in evaluating active immune
response against SARS-CoV-2, studying the antibody kinetics, and
monitoring reinfections with genetic variants and new virus strains, in
particular, the duration of antibodies in virus-exposed individuals and
vaccine-mediated immunity. In this work, recombinant S protein of
SARS-CoV-2 was expressed in Rachiplusia nu, an important agronomic
plague. One gram of insect larvae produces an amount of S protein
sufficient for 150 determinations in the ELISA method herein developed.
We established a rapid production process for SARS-CoV-2 S protein that
showed immunoreactivity for anti-SARS-CoV-2 antibodies and was used as a
single antigen for developing the ELISA method with high sensitivity
(96.2%) and specificity (98.8%). Our findings provide an efficient and
cost-effective platform for large-scale S protein production, and the
scale-up is linear, thus avoiding the use of complex equipment like
bioreactors.
Introducción: los principales marcadores de autoinmunidad en diabetes mellitus tipo 1 (DM1) son los que presentan especificidad hacia: glutamato decarboxilasa (GADA), tirosina fosfatasa 2 asociada a insulinoma (IA-2A) y la isoforma 8 del trasportador de zinc (ZnT8A). Su detección es fundamental como apoyo diagnóstico de DM1 y para establecer la presencia de diabetes autoinmune latente del adulto (LADA) a fin de garantizar el tratamiento adecuado en forma oportuna. El método de referencia para su detección (ensayo de unión a radioligando, RBA) es altamente sensible y específico, pero costoso, contaminante del medio ambiente y su ejecución se limita a centros con infraestructura y personal habilitados por la entidad regulatoria. Por ello, es imprescindible el desarrollo de métodos alternativos que facilite el acceso al diagnóstico a un mayor número de pacientes.Objetivos: desarrollar un inmunoensayo basado en citometría de flujo (CF) para la determinación combinada y discriminativa de los principales marcadores de DM1: GADA, IA-2A y ZnT8A.Materiales y métodos: se ensayaron 10 sueros de pacientes pediátricos con reciente diagnóstico de DM1 y 20 sueros de individuos controles normales (SHN). Se empleó un modelo de doble paratope incubando las muestras con microesferas de poliestireno de 4, 5 y 7 mmadsorbidas con los antígenos recombinantes Trx-GAD, Trx-IA-2 y Trx-ZnT8, respectivamente, y las correspondientes proteínas biotiniladas. Luego de una incubación overnight a 4 ºC, los inmunocomplejos formados se detectaron empleando estreptavidina-ficoeritrina y se adquirió en un citómetro de flujo. Todas las muestras fueron evaluadas en paralelo por RBA.
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