Issue 38, 2020

Reduction chemistry-assisted nanopore determination method for immunoglobulin isotypes

Abstract

Immunoglobulins can bind to an unlimited array of foreign antigens presented to the immune system. Among those isotypes, IgG and IgM play crucial roles in initial immune defense associated with innate immunity factors. Hence, the determination of IgG and IgM deficiencies or varying concentrations is widely used as a diagnostic indicator for immune deficiency disorders. Herein, we report a reduction chemistry-assisted nanopore method for IgG and IgM determination. TCEP (tris(2-carboxyethyl)phosphine) was used to cleave Ig proteins in fragments by means of disulfide bond reduction under different experimental conditions. This strategy enabled the observation of distinguishable current signals afforded by separated polypeptide fragments in an αHL nanopore. Together with molecular dynamics (MD) simulation results, highly effective electrostatic potentials and H-bonds, the dominant factors for these current signals, facilitated the capture of Ig fragments in an α-HL nanopore. More importantly, the signature signals were applicable for differentiating between IgG and IgM in blood serum without any problems of protein adsorption and clogging in the nanopore sensing. Furthermore, with comparative sensing sensitivity and selectivity, it is concluded that our method is a label-free single-molecule approach to measuring disease states that present as a result of the absence or over presence of immunoglobulin isotypes.

Graphical abstract: Reduction chemistry-assisted nanopore determination method for immunoglobulin isotypes

Supplementary files

Article information

Article type
Paper
Submitted
30 Jun 2020
Accepted
10 Sep 2020
First published
11 Sep 2020

Nanoscale, 2020,12, 19711-19718

Reduction chemistry-assisted nanopore determination method for immunoglobulin isotypes

Q. Liu, Y. Wang, Y. Liu, H. Wang, W. Li, P. Tang, T. Weng, S. Zhou, L. Liang, J. Yuan, D. Wang and L. Wang, Nanoscale, 2020, 12, 19711 DOI: 10.1039/D0NR04900J

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