Sensitive detection of glucagon aggregation using amyloid fibril-specific antibodies

Samuel D Stimple, Sibel Kalyoncu, Alec A Desai, Jesper E Mogensen, Lotte T Spang, Désirée J Asgreen, Arne Staby, Peter M Tessier
Biotechnology and Bioengineering 2019 April 14
Sensitive detection of protein aggregates is important for evaluating the quality of biopharmaceuticals and detecting misfolded proteins in several neurodegenerative diseases. However, it is challenging to detect extremely low concentrations (<10 ppm) of aggregated protein in the presence of high concentrations of natively-folded (soluble) protein. Glucagon, a peptide hormone used in the treatment of extreme hypoglycemia, is aggregation-prone and forms amyloid fibrils. Detection of glucagon fibrils using conformation-specific antibodies is an attractive approach for identifying such aggregates during process and formulation development. Therefore, we have used yeast surface display and magnetic-activated cell sorting to sort single-chain antibody libraries to identify antibody variants with high conformational specificity for glucagon fibrils. Notably, we find several high-affinity antibodies that display excellent selectivity for glucagon fibrils, and we have integrated these antibodies into a sensitive immunoassay. Surprisingly, the sensitivity of our assay - which involves direct (non-antibody mediated) glucagon immobilization in microtiter plates - can be significantly enhanced by pretreating the microtiter plates with various types of globular proteins prior to glucagon immobilization. Moreover, increased total concentrations of glucagon peptide also significantly improve the sensitivity of our assay, which appears to be due to the strong seeding activity of immobilized fibrils at high glucagon concentrations. Our final assay is highly sensitive (fibril detection limit of ~0.5-1 ppm) and is approximately two orders of magnitude more sensitive than detection using a conventional, amyloid-specific fluorescent dye (Thioflavin T). We expect that this type of sensitive immunoassay can be readily integrated into the drug development process to improve the generation of safe and potent peptide therapeutics. This article is protected by copyright. All rights reserved.

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