Development of the covalent antibody-DNA conjugates technology for detection of IgE and IgM antibodies by immuno-PCR.

Artem V Maerle,Dmitriy Yu Trofimov,Dmitriy Yu Ryazantsev,Polina E Drobyazina,Daria V Voronina,Maria A Simonova,Sergei K Zavriev,Leonid P Alekseev,Victor D Pivovarov,Katerina Kourentzi

doi:10.1371/journal.pone.0209860

Abstract

Immuno-PCR (iPCR) is one of the methods used for the detection of a wide range of analytes and features the high sensitivity of the polymerase chain reaction (PCR) method. iPCR uses antibodies coupled to DNA, followed by the amplification of the attached DNA using RT-PCR. Two major types of antibody-DNA conjugates are currently used, which are obtained as a result of non-covalent (biotin-streptavidin) or covalent interactions. Using a strain-promoted azide-alkyne cycloaddition (SPAAC), we synthesized covalent DNA-antibody conjugates, optimized the reaction conditions, and developed an efficient protocol for the purification of conjugates, with which all unreacted antibodies and oligonucleotides are separated. Covalent DNA-antibody conjugates were tested with iPCR assays that were previously developed for the detection of IgE and IgM antibodies with the use of the supramolecular complex of 5'- and 3'-biotinylated DNA and streptavidin. The results show that the modification of antibodies with amino groups did not allow us to obtain monolabeled antibodies or antibodies with a strictly defined number of DNA-labels. The degree of labeling determined by the dyes introduced through the azido group reflects the actual labeling degree statistically. If the average labeling degree for azido groups is 1.1, the conjugates contain 25% mono-labeled antibodies, 50% double-labeled antibodies, and 25% unlabeled ones. The specificity of the monoclonal antibody to human IgE (BE5) changed after conjugation with the oligonucleotide. The sensitivity of iPCR in the detection of IgM antibodies produced against the LeC disaccharide using a covalent conjugate was similar to that of a supramolecular complex of 5'- and 3'-biotinylated DNA and streptavidin, but the new procedure is two steps shorter.

Highlights

Immuno-polymerase chain reaction (PCR) is a highly sensitive method for the detection of a wide range of analytes ranging from bacterial and viral antigens and antibodies to non-protein drugs and toxins
DNA-antibody conjugates are currently used for iPCR, immunoRCA [2], proximity ligation assay (PLA) [3], and Electrochemical Proximity Assay (ECPA) [4]
In the case of iPCR, after applying of detecting antibodies, a solution of streptavidin is added to the wells of a plate, followed by a biotincontaining DNA label

Summary

Introduction

Immuno-PCR (iPCR) is a highly sensitive method for the detection of a wide range of analytes ranging from bacterial and viral antigens and antibodies to non-protein drugs and toxins. It combines advantages of both the polymerase chain reaction (PCR) and enzyme immunoassay methods. IPCR is based on the usage of an antibody-DNA conjugate followed by the amplification of the DNA label [1]. The antibody-streptavidin-DNA conjugate is formed during analysis. This approach is known as "universal iPCR" and is popular for its simplicity [5]. An obvious disadvantage of the method is the three-stage assembly of the conjugate during analysis, which increases the analysis time and the number of washings

Methods

Results

Discussion

Conclusion