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Current Pharmaceutical Design

Editor-in-Chief

ISSN (Print): 1381-6128
ISSN (Online): 1873-4286

Research Article

Influence of Length and Amino Acid Composition on Dimer Formation of Immunoglobulin based Chimera

Author(s): Manoj Patidar, Naveen Yadav and Sarat K. Dalai*

Volume 24, Issue 11, 2018

Page: [1211 - 1223] Pages: 13

DOI: 10.2174/1381612823666171018115206

Price: $65

Abstract

Background: The dimeric immunoglobulin (Ig) chimeras used for drug targeting and delivery are preferred biologics over their monomeric forms. Designing these Ig chimeras involves critical selection of a suitable Ig base that ensures dimer formation. In the present study, we systematically analyzed several factors that influence the formation of dimeric chimera. We designed and predicted 608 cytokine-Ig chimeras where we tested the contributions of (1) different domains of Ig constant heavy chain, (2) length of partner proteins, (3) amino acid (AA) composition and (4) position of cysteine in the formation of homodimer.

Method: The sequences of various Ig and cytokines were procured from Uniprot database, fused and submitted to COTH (CO-THreader) server for the prediction of dimer formation. Contributions of different domains of Ig constant heavy chain, length of chimeric proteins, AA composition and position of cysteine to the homodimer formation of 608 cytokine-Ig chimeras were tested. Various in silico approaches were adopted for validating the in silico findings. Experimentally we also validated our approach by expressing the chimeric design of shorter cytokine with Ig domain in CHO cells and analyzing the protein by SDS-PAGE.

Results: Our results advocate that while the CH1 region and the Hinge region of Ig heavy chain are critical, the length of partner proteins also crucially influences homodimer formation of the Ig-based chimera. We also report that the CH1 domain of Ig is not required for dimer formation of Ig based chimera in the presence of larger partner proteins. For shorter partner proteins fused to CH2-CH3, careful selection of partner sequence is critical, particularly the hydrophobic AA composition, cysteine content & their positions, disulphide bond formation property, and the linker sequences. We validated our in silico observation by various bioinformatics tools and checked the ability of chimeras to bind with the receptors of native protein by docking studies. As a proof of concept, we have expressed the chimeric proteins in CHO cells and found that our design favors the synthesis of dimeric proteins.

Conclusion: Our structural prediction study suggests that extra amino acids in the range of 15-20 added to the CH2 domain of Ig is a critical requirement to make homodimer. This information from our study will have implication in designing efficacious homodimeric chimera.

Keywords: Immunoglobulin, chimeric proteins, homodimerization, linker, Ig chimeras, amino acid.


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