Development of a novel ELISA for human insulin using monoclonal antibodies produced in serum-free cell culture medium

Abstract

Objectives: Development of an ELISA for human insulin that utilizes monoclonal antibodies (mAbs) produced in serum-free medium. Design and methods: Insulin mAbs were produced in vitro by hybridomas in serum-free medium. A two-step ELISA was developed to replace bovine insulin (standard) and bovine serum albumin (assay buffer) with non-animal reagents. Results: The sensitivity of the insulin ELISA was 0.73 uU/mL with a dynamic range of 2–200 uU/mL. No cross-reactivity with either human C-peptide or human proinsulin was observed. The intra- and inter-assay CVs were < 7%. The mean recovery of insulin added to plasma samples was between 102.2% and 105.7%. The mean linearity of dilution was between 93% and 110% of undiluted plasma samples. The animal serum-free (ASF) insulin ELISA showed no marked degradation of any kit component when stored at 37°C for up to 7 days. Significantly higher fasting insulin levels were observed in overweight or obese subjects ( n = 12) compared to lean subjects ( n = 10, p < 0.05). Feeding markedly increased fasting insulin levels in both lean ( p < 0.02) and overweight or obese ( p < 0.005) subjects. Excellent correlation was observed between insulin levels measured by ASF insulin ELISA and another CE marked insulin ELISA ( y = 1.06 x − 0.44, r = 1.00, n = 44). Conclusions: This novel insulin ELISA provides precision and reliability equal to methods currently used in clinical research and serves as a guide for the development of other serum-free immunoassays.