Your search keyword '"Rossotti M"' showing total 13 results

1. Phage Anti-Immunocomplex Assay for Clomazone: Two-Site Recognition Increasing Assay Specificity and Facilitating Adaptation into an On-Site Format.

Author

Rossotti, M. A., Carlomagno, M., González-Techera, A., Hammock, B. D., Last, J., and González-Sapienza, G.

Subjects

*CLOMAZONE, *IMMUNOSPECIFICITY, *HERBICIDES, *AGRICULTURE, *PEPTIDES, *MONOCLONAL antibodies

Abstract

The impact of the use of herbicides in agriculture can be minimized by compliance with good management practices that reduce the amount used and their release into the environment. Simple tests that provide real time on site information about these chemicals are a major aid for these programs. In this work, we show that phage antiimmunocomplex assay (PHAIA), a method that uses phage-bome peptides to detect the formation of antibodyanalyte immunocomplexes, is an advantageous technology to produce such field tests. A monoclonal antibody to the herbicide clomazone was raised and used in the development of conventional competitive and noncompetitive PHAIA immunoassays. The sensitivity attained with the PHALA format was over 10 times higher than that of the competitive format. The cross-reactivity of the two methods was also compared using structurally related compounds, and we observed that the two-site binding of PHAIA "double-checks" the recognition of the analyte, thereby increasing the assay specificity. The positive readout of the noncompetitive PHAIA method allowed adaptation of the assay into a rapid and simple format where as little as 0.4 nglmL clomazone (more than 10-fold lower than the proposed standard) in water samples from a rice field could be easily detected by simple visual inspection. [ABSTRACT FROM AUTHOR]

Published

2010

2. The green cupredoxin CopI is a multicopper protein able to oxidize Cu(I).

Author

Rossotti M, Arceri D, Mansuelle P, Bornet O, Durand A, Ouchane S, Launay H, and Dorlet P

Subjects

Histidine chemistry, Binding Sites, Methionine, Ions, Copper chemistry, Anti-Infective Agents, Azurin

Abstract

Anthropogenic activities in agriculture and health use the antimicrobial properties of copper. This has led to copper accumulation in the environment and contributed to the emergence of copper resistant microorganisms. Understanding bacterial copper homeostasis diversity is therefore highly relevant since it could provide valuable targets for novel antimicrobial treatments. The periplasmic CopI protein is a monodomain cupredoxin comprising several copper binding sites and is directly involved in copper resistance in bacteria. However, its structure and mechanism of action are yet to be determined. To study the different binding sites for cupric and cuprous ions and to understand their possible interactions, we have used mutants of the putative copper binding modules of CopI and spectroscopic methods to characterize their properties. We show that CopI is able to bind a cuprous ion in its central histidine/methionine-rich region and oxidize it thanks to its cupredoxin center. The resulting cupric ion can bind to a third site at the N-terminus of the protein. Nuclear magnetic resonance spectroscopy revealed that the central histidine/methionine-rich region exhibits a dynamic behavior and interacts with the cupredoxin binding region. CopI is therefore likely to participate in copper resistance by detoxifying the cuprous ions from the periplasm., Competing Interests: Declaration of competing interest The authors declare no conflict of interest., (Copyright © 2024 Elsevier Inc. All rights reserved.)

Published

2024

3. A Multifunctional Trypsin Protease Inhibitor from Yellow Bell Pepper Seeds: Uncovering Its Dual Antifungal and Hypoglycemic Properties.

Author

Cotabarren J, Ozón B, Claver S, Geier F, Rossotti M, Garcia-Pardo J, and Obregón WD

Abstract

Fungal infections are a growing public health concern worldwide and the emergence of antifungal resistance has limited the number of therapeutic options. Therefore, developing novel strategies for identifying and developing new antifungal compounds is an active area of research in the pharmaceutical industry. In this study, we purified and characterized a trypsin protease inhibitor obtained from Yellow Bell Pepper ( Capsicum annuum L.) seeds. The inhibitor not only showed potent and specific activity against the pathogenic fungus Candida albicans , but was also found to be non-toxic against human cells. Furthermore, this inhibitor is unique in that it also inhibits α-1,4-glucosidase, positioning it as one of the first plant-derived protease inhibitors with dual biological activity. This exciting discovery opens new avenues for the development of this inhibitor as a promising antifungal agent and highlights the potential of plant-derived protease inhibitors as a rich source for the discovery of novel multifunctional bioactive molecules.

Published

2023

4. Highly Sensitive Detection of Zika Virus Nonstructural Protein 1 in Serum Samples by a Two-Site Nanobody ELISA.

Author

Delfin-Riela T, Rossotti M, Alvez-Rosado R, Leizagoyen C, and González-Sapienza G

Subjects

Animals, Antibodies, Viral biosynthesis, Antibodies, Viral isolation & purification, Camelids, New World, Enzyme-Linked Immunosorbent Assay methods, Escherichia coli genetics, Humans, Limit of Detection, Peptide Library, Single-Domain Antibodies biosynthesis, Single-Domain Antibodies isolation & purification, Uruguay, Zika Virus Infection blood, Zika Virus Infection immunology, Zika Virus Infection virology, Antibodies, Viral chemistry, Enzyme-Linked Immunosorbent Assay standards, Single-Domain Antibodies chemistry, Viral Nonstructural Proteins blood, Zika Virus immunology, Zika Virus Infection diagnosis

Abstract

The Zika virus was introduced in Brazil in 2015 and, shortly after, spread all over the Americas. Nowadays, it remains present in more than 80 countries and represents a major threat due to some singularities among other flaviviruses. Due to its easy transmission, high percentage of silent cases, the severity of its associated complications, and the lack of prophylactic methods and effective treatments, it is essential to develop reliable and rapid diagnostic tests for early containment of the infection. Nonstructural protein 1 (NS1), a glycoprotein involved in all flavivirus infections, is secreted since the beginning of the infection into the blood stream and has proven to be a valuable biomarker for the early diagnosis of other flaviviral infections. Here, we describe the development of a highly sensitive nanobody ELISA for the detection of the NS1 protein in serum samples. Nanobodies were selected from a library generated from a llama immunized with Zika NS1 (ZVNS1) by a two-step high-throughput screening geared to identify the most sensitive and specific nanobody pairs. The assay was performed with a sub-ng/mL detection limit in the sera and showed excellent reproducibility and accuracy when validated with serum samples spiked with 0.80, 1.60, or 3.10 ng/mL of ZVNS1. Furthermore, the specificity of the developed ELISA was demonstrated using a panel of flavivirus' NS1 proteins; this is of extreme relevance in countries endemic for more than one flavivirus. Considering that the nanobody sequences are provided, the assay can be reproduced in any laboratory at low cost, which may help to strengthen the diagnostic capacity of the disease even in low-resource countries.

Published

2020

5. Structural evidence for a reaction intermediate mimic in the active site of a sulfite dehydrogenase.

Author

Djeghader A, Rossotti M, Abdulkarim S, Biaso F, Gerbaud G, Nitschke W, Schoepp-Cothenet B, Soulimane T, and Grimaldi S

Subjects

Catalytic Domain, Crystallography, X-Ray, Density Functional Theory, Electron Spin Resonance Spectroscopy, Hydrogen Bonding, Sulfite Dehydrogenase metabolism, Thermus enzymology, Molybdenum chemistry, Phosphates chemistry, Sulfite Dehydrogenase chemistry

Abstract

By combining X-ray crystallography, electron paramagnetic resonance techniques and density functional theory-based modelling, we provide evidence for a direct coordination of the product analogue, phosphate, to the molybdenum active site of a sulfite dehydrogenase. This interaction is mimicking the still experimentally uncharacterized reaction intermediate proposed to arise during the catalytic cycle of this class of enzymes. This work opens new perspectives for further deciphering the reaction mechanism of this nearly ubiquitous class of oxidoreductases.

Published

2020

6. Neutralization of Clostridium difficile toxin B with VHH-Fc fusions targeting the delivery and CROPs domains.

Author

Hussack G, Ryan S, van Faassen H, Rossotti M, MacKenzie CR, and Tanha J

Subjects

Animals, Antibodies, Monoclonal immunology, Antibodies, Neutralizing immunology, Antigen-Antibody Reactions, Binding Sites, Binding, Competitive, Broadly Neutralizing Antibodies, Camelids, New World, Dimerization, Epitopes immunology, Humans, Immunoglobulin Fc Fragments genetics, Immunoglobulin Fc Fragments metabolism, Neutralization Tests, Single-Domain Antibodies chemistry, Single-Domain Antibodies genetics, Single-Domain Antibodies metabolism, Bacterial Proteins immunology, Bacterial Toxins immunology, Clostridioides difficile metabolism, Single-Domain Antibodies immunology

Abstract

An increasing number of antibody-based therapies are being considered for controlling bacterial infections, including Clostridium difficile by targeting toxins A and B. In an effort to develop novel C. difficile immunotherapeutics, we previously isolated several single-domain antibodies (VHHs) capable of toxin A neutralization through recognition of the extreme C-terminal combined repetitive oligopeptides (CROPs) domain, but failed at identifying neutralizing VHHs that bound a similar region on toxin B. Here we report the isolation of a panel of 29 VHHs targeting at least seven unique epitopes on a toxin B immunogen composed of a portion of the central delivery domain and the entire CROPs domain. Despite monovalent affinities as high as KD = 70 pM, none of the VHHs tested were capable of toxin B neutralization; however, modest toxin B inhibition was observed with VHH-VHH dimers and to a much greater extent with VHH-Fc fusions, reaching the neutralizing potency of the recently approved anti-toxin B monoclonal antibody bezlotoxumab in in vitro assays. Epitope binning revealed that several VHH-Fcs bound toxin B at sites distinct from the region recognized by bezlotoxumab, while other VHH-Fcs partially competed with bezlotoxumab for toxin binding. Therefore, the VHHs described here are effective at toxin B neutralization when formatted as bivalent VHH-Fc fusions by targeting toxin B at regions both similar and distinct from the bezlotoxumab binding site., Competing Interests: The authors have declared that no competing interests exist.

Published

2018

7. Comparison of Three Antihapten VHH Selection Strategies for the Development of Highly Sensitive Immunoassays for Microcystins.

Author

Pírez-Schirmer M, Rossotti M, Badagian N, Leizagoyen C, Brena BM, and González-Sapienza G

Subjects

Amino Acid Sequence, Animals, Antigen-Antibody Reactions, Biotinylation, Camelids, New World, Haptens immunology, Leukocytes, Mononuclear metabolism, Limit of Detection, Marine Toxins, Microcystins metabolism, Peptide Library, Sequence Alignment, Single-Domain Antibodies genetics, Single-Domain Antibodies metabolism, Enzyme-Linked Immunosorbent Assay methods, Microcystins analysis, Single-Domain Antibodies immunology

Abstract

Owing to their reproducibility, stability, and cost-effective production, the recombinant variable domains of heavy-chain-only antibodies (VHHs) are becoming a salient option as immunoassay reagents. Recently, there have been several reports describing their application to the detection of small molecules (haptens). However, lacking the heavy-light chain interface of conventional antibodies, VHHs are not particularly apt to bind small analytes and failures are not uncommon. Here we describe the construction of a VHH phage display library against the cyanobacterial hepatotoxin microcystin LR and its selection using competitive panning and two novel panning strategies. The outcome of each strategy was evaluated by a large-scale screening using in vivo biotinylated nanobodies. The three methods selected for different nonoverlapping subsets of VHHs, allowing one to optimize the immunodetection of the toxin. The best results were obtained by promoting the isolation of VHHs with the slowest k off (off-rate selection). Among these, the biotinylated nanobody A2.3 performed in ELISA with excellent recovery and high sensitivity, IC50 = 0.28 μg/L, with a limit of detection that is well below the most rigorous guidelines for the toxin. While it may be case-specific, these results highlight the importance of exploring different panning strategies to optimize the selection of antihapten nanobodies.

Published

2017

8. Streamlined method for parallel identification of single domain antibodies to membrane receptors on whole cells.

Author

Rossotti M, Tabares S, Alfaya L, Leizagoyen C, Moron G, and González-Sapienza G

Subjects

Animals, Biotin immunology, CD11b Antigen immunology, CD18 Antigens immunology, Camelids, New World, Cell Line, Cell Surface Display Techniques methods, Cells, Cultured, Dendritic Cells metabolism, Enzyme-Linked Immunosorbent Assay, Flow Cytometry, Immunization methods, Leukocyte Common Antigens immunology, Mice, Inbred BALB C, Peptides immunology, Reproducibility of Results, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Dendritic Cells immunology, Receptors, Cell Surface immunology, Single-Chain Antibodies immunology, Single-Domain Antibodies immunology

Abstract

Background: Owing to their minimal size, high production yield, versatility and robustness, the recombinant variable domains (nanobodies) of camelid single chain antibodies are valued affinity reagents for research, diagnostic, and therapeutic applications. While their preparation against purified antigens is straightforward, the generation of nanobodies to difficult targets such as multi-pass or complex membrane cell receptors remains challenging. Here we devised a platform for high throughput identification of nanobodies to cell receptor based on the use of a biotin handle., Methods: Using a biotin-acceptor peptide tag, the in vivo biotinylation of nanobodies in 96 well culture blocks was optimized allowing their parallel analysis by flow cytometry and ELISA, and their direct use for pull-down/MS target identification., Results: The potential of this strategy was demonstrated by the selection and characterization of panels of nanobodies to Mac-1 (CD11b/CD18), MHC II and the mouse Ly-5 leukocyte common antigen (CD45) receptors, from a VHH library obtained from a llama immunized with mouse bone marrow derived dendritic cells. By on and off switching of the addition of biotin, the method also allowed the epitope binning of the selected Nbs directly on cells., Conclusions: This strategy streamlines the selection of potent nanobodies to complex antigens, and the selected nanobodies constitute ready-to-use biotinylated reagents., General Significance: This method will accelerate the discovery of nanobodies to cell membrane receptors which comprise the largest group of drug and analytical targets., (Copyright © 2015 Elsevier B.V. All rights reserved.)

Published

2015

9. Recombinant streptavidin nanopeptamer anti-immunocomplex assay for noncompetitive detection of small analytes.

Author

Carlomagno M, Lassabe G, Rossotti M, González-Techera A, Vanrell L, and González-Sapienza G

Subjects

Aptamers, Peptide genetics, Isoxazoles chemistry, Limit of Detection, Oryza chemistry, Oxazolidinones chemistry, Protein Folding, Recombinant Proteins genetics, Aptamers, Peptide chemistry, Chemistry Techniques, Analytical methods, Herbicides chemistry, Immunoassay, Recombinant Proteins chemistry, Streptavidin chemistry

Abstract

Short peptide loops selected from phage libraries can specifically recognize the formation of hapten-antibody immunocomplexes and can thus be used to develop phage anti-immunocomplex assays (PHAIA) for noncompetitive detection of small molecules. In this study, we generated recombinant chimeras by fusing anti-immunocomplex peptides selected from phage libraries to the N- or C-termini of core streptavidin and used them to setup phage-free noncompetitive assays for the herbicide clomazone (MW 240 Da). The best conditions for refolding were optimized by a high throughput screening allowing to obtain tens of mg of purified protein per liter of culture. The noncompetitive assay developed with these chimeras performed with a 50% saturating concentration (SC50) of 2.2 ± 0.3 ng/mL and limit of detection (LOD) of 0.48 ng/mL. Values that are 13- and 8-fold better that those obtained for the SC50 and LOD of the competitive assay setup with the same antibody. Apart from the first demonstration that recombinant peptide-streptavidin chimeras can be used for sensitive immunodetection of small molecules with a positive readout, this new assay component is a highly standardized reagent with a defined stoichiometry, which can be used in combination with the broad option of existing biotinylated reagents offering a great versatility for the development of conventional immunoassay and biosensors. The utility of the test was demonstrated analyzing the clomazone runoff during the rice growing season in northern Uruguay.

Published

2014

10. Shiga-like toxin B subunit of Escherichia coli as scaffold for high-avidity display of anti-immunocomplex peptides.

Author

Lassabe G, Rossotti M, González-Techera A, and González-Sapienza G

Subjects

Azepines analysis, Enzyme-Linked Immunosorbent Assay, Herbicides analysis, Immunotoxins chemistry, Isoxazoles analysis, Mutagenesis, Oxazolidinones analysis, Protein Conformation, Shiga Toxins chemistry, Thiocarbamates analysis, Viral Fusion Proteins chemistry, Water Pollutants, Chemical analysis, Peptides chemistry, Shiga Toxin chemistry, Shiga-Toxigenic Escherichia coli chemistry

Abstract

Small compounds cannot bind simultaneously to two antibodies, and thus, their immunodetection is limited to competitive formats in which the analyte is indirectly quantitated by measuring the unoccupied antibody binding sites using a competing reporter. This limitation can be circumvented by using phage-borne peptides selected for their ability to specifically react with the analyte-antibody immunocomplex, which allows the detection of these small molecules in a noncompetitive format (PHAIA) with increased sensitivity and a positive readout. In an effort to find substitutes for the phage particles in PHAIA, we explore the use of the B subunit of the Shiga-like toxin of Escherichia coli, also known as verotoxin (VTX), as a scaffold for multivalent display of anti-immunocomplex peptides. Using the herbicides molinate and clomazone as model compounds, we built peptide-VTX recombinant chimeras that were produced in the periplasmic space of E. coli as soluble pentamers, as confirmed by multiangle light scattering analysis. These multivalent constructs, which we termed nanopeptamers, were conjugated to a tracer enzyme and used to detect the herbicide-antibody complex in an ELISA format. The VTX-nanopeptamer assays performed with over a 10-fold increased sensitivity and excellent recovery from spiked surface and mineral water samples. The carbon black-labeled peptide-VTX nanopeptamers showed great potential for the development of a lateral-flow test for small molecules with a visual positive readout that allowed the detection of up to 2.5 ng/mL of clomazone.

Published

2014

11. Competitive selection from single domain antibody libraries allows isolation of high-affinity antihapten antibodies that are not favored in the llama immune response.

Author

Tabares-da Rosa S, Rossotti M, Carleiza C, Carrión F, Pritsch O, Ahn KC, Last JA, Hammock BD, and González-Sapienza G

Subjects

Animals, Antibodies immunology, Binding Sites, Camelids, New World immunology, Carbanilides immunology, Male, Peptide Library, Recombinant Proteins chemistry, Recombinant Proteins genetics, Recombinant Proteins metabolism, Single-Chain Antibodies genetics, Single-Chain Antibodies metabolism, Surface Plasmon Resonance, Antibodies isolation & purification, Haptens immunology, Single-Chain Antibodies chemistry

Abstract

Single-domain antibodies (sdAbs) found in camelids lack a light chain, and their antigen-binding site sits completely in the heavy-chain variable domain (VHH). Their simplicity, thermostability, and ease in expression have made VHHs highly attractive. Although this has been successfully exploited for macromolecular antigens, their application to the detection of small molecules is still limited to a very few reports, mostly describing low-affinity VHHs. Using triclocarban (TCC) as a model hapten, we found that conventional antibodies, IgG1 fraction, reacted with free TCC with a higher relative affinity (IC(50) 51.0 ng/mL) than did the sdAbs (IgG2 and IgG3, 497 and 370 ng/mL, respectively). A VHH library was prepared, and by elution of phage with limiting concentrations of TCC and competitive selection of binders, we were able to isolate high-affinity clones, K(D) 0.98-1.37 nM (SPR), which allowed development of a competitive assay for TCC with an IC(50) = 3.5 ng/mL (11 nM). This represents a 100-fold improvement with regard to the performance of the sdAb serum fraction, and it is 100-fold better than the IC(50) attained with other antihapten VHHs reported thus far. Despite the modest overall antihapten sdAbs response in llamas, a small subpopulation of high-affinity VHHs is generated that can be isolated by careful design of the selection process.

Published

2011

12. Specific immunoassays for endocrine disruptor monitoring using recombinant antigens cloned by degenerated primer PCR.

Author

Ferraz N, Carnevia D, Nande G, Rossotti M, Miguez MN, Last JA, and Gonzalez-Sapienza G

Subjects

Animals, Antigens genetics, Biomarkers analysis, Cichlids, Cloning, Molecular, DNA Primers genetics, Endocrine System drug effects, Environmental Monitoring methods, Female, Polymerase Chain Reaction, Recombinant Proteins genetics, Time Factors, Egg Proteins analysis, Endocrine Disruptors analysis, Endocrine System metabolism, Hormone Antagonists analysis, Immunoassay methods, Protein Precursors analysis, Vitellogenins analysis

Abstract

Vitellogenin (VTG) and choriogenin (CHO) are valuable biomarkers of endocrine-disrupting compound (EDC) exposure in fish. Existing immunoassays are limited to a few species, which restricts their use for the analysis of local wildlife sentinels. Using C. facetum as a relevant South American model fish, this work presents a new strategy for the preparation of antibodies to VTG and CHO, with zero cross-reactivity with fish serum components. Recombinant fragments of Cichlasoma facetum VTG (280-mer) and CHO (223-mer) were prepared by degenerate primer RT-PCR and expression in E. coli. Polyclonal and monoclonal antibodies prepared with these antigens were used to develop rapid dotblot assays for VTG and CHO. Both the polyclonal and monoclonal antibodies prepared with the recombinant antigens reacted against the native proteins adsorbed on to nitrocellulose allowing the set up of sensitive dotblot assays. The VTG assay was further validated with spiked samples and purified native VTG. Exposure experiments with several estrogenic compounds revealed the potential of C. facetum as a sensitive biomonitor that produced measurable responses at concentrations of 100 ng L(-1) of 17-beta-estradiol, 100 ng L(-1) of ethynylestradiol, and 6.6 microg L(-1) of nonylphenol. The approach described here may be applied to other native species to produce highly specific and sensitive rapid tests. It may be particularly advantageous for species that cannot be kept in captivity or when homogeneous purification of the immunizing proteins is particularly challenging. In conclusion, we present a novel approach to develop a strategy for the generation of immunoassay reagents for vitellogenin (VTG) and choriogenin (CHO), which will facilitate regional studies on the impact of endocrine-disrupting chemicals on local wildlife.

Published

2007

13. A model of visual perception.

Author

Borello L, Ferraro M, Penengo P, and Rossotti ML

Subjects

Computers, Models, Neurological, Visual Perception physiology

Abstract

In this paper we propose a model of visual perception in which a positive feedback mechanism can reproduce the pattern stimulus on a neurons screen. The pattern stimulus reproduction is based on informations coming from the spatial derivatives of visual pattern. This information together with the response of the feature extractors provides to the reproduction of the visual pattern as neuron screen electric activity. We simulate several input patterns and prove that the model reproduces the percept.

Published

1981