Improved protein A resin for antibody capture in a continuous countercurrent tangential chromatography system.
Dmitriy FedorenkoAmit K DuttaJasmine TanJonathan WalkoMark BrowerNuno D S PintoAndrew L ZydneyOleg ShinkazhPublished in: Biotechnology and bioengineering (2019)
Continuous countercurrent tangential chromatography (CCTC) enables steady-state continuous bioprocessing with low-pressure operation and high productivity. CCTC has been applied to initial capture of monoclonal antibodies (mAb) from clarified cell culture harvest and postcapture polishing of mAb; however, these studies were performed with commercial chromatography resins designed for conventional column chromatography. In this study, a small particle size prototype agarose resin (20-25 µm) with lower cross-linking was co-developed with industrial partner Purolite and tested with CCTC. Due to increased binding capacity and faster kinetics, the resulting CCTC process showed more than a 2X increase in productivity, and a 2X reduction in buffer consumption over commercial protein A resins used in previous CCTC studies, as well as more than a 10X productivity increase versus conventional column operation. Single-pass tangential flow filtration was integrated with the CCTC system, enabling simple control of eluate concentration. A scale-up exercise was conducted to provide a quantitative comparison of CCTC and batch column chromatography. These results clearly demonstrate opportunities for using otherwise unpackable soft small particle size resins with CCTC as the core of a continuous bioprocessing platform.
Keyphrases
- high speed
- liquid chromatography
- mass spectrometry
- tandem mass spectrometry
- high performance liquid chromatography
- high resolution
- climate change
- solid phase extraction
- simultaneous determination
- heavy metals
- wastewater treatment
- binding protein
- physical activity
- high throughput
- high intensity
- body composition
- small molecule
- monoclonal antibody
- risk assessment