1. High throughput testing of drug library substances and monoclonal antibodies for capacity to reduce formation of cystatin C dimers to identify candidates for treatment of hereditary cystatin C amyloid angiopathy
- Author
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Össur I. Emilsson, Veronica Lindström, Gustav Östner, Anders Grubb, Alexander B. Postnikov, and Tatiana I. Solovyeva
- Subjects
medicine.drug_class ,Clinical Biochemistry ,Pharmacology and Toxicology ,Monoclonal antibody ,law.invention ,Small Molecule Libraries ,law ,Drug Discovery ,medicine ,Humans ,Cystatin C ,Guanidine ,Electrophoresis, Agar Gel ,biology ,Chemistry ,Antibodies, Monoclonal ,General Medicine ,Cerebral Arteries ,Hereditary cystatin C amyloid angiopathy ,Molecular biology ,In vitro ,Recombinant Proteins ,High-Throughput Screening Assays ,Solutions ,Cerebral Amyloid Angiopathy ,Biochemistry ,Agarose gel electrophoresis ,biology.protein ,Recombinant DNA ,Chromatography, Gel ,Cystatin ,Antibody ,Medicinal Chemistry ,Dimerization - Abstract
Objective. To establish a high-throughput system for testing the ability of drugs or monoclonal antibodies to reduce the in vitro formation of cystatin C dimers to identify substances potentially useful for treatment of patients with hereditary cystatin C amyloid angiopathy (HCCAA). Methods. Various combinations of incubation temperature, time period, guanidinium chloride concentration and concentration of cystatin C monomers were tested in low-volume formats to induce dimer formation of recombinant cystatin C. The extent of dimerization was analysed by gel filtration chromatography and agarose gel electrophoresis. Results. A high-throughput system based upon agarose gel electrophoresis was developed and used to test 1040 drugs in a clinical drug library for their capacity to reduce cystatin C dimer formation in vitro. Seventeen substances reducing dimer formation by more than 30% were identified. A similar system for testing the capacity of monoclonal antibodies against cystatin C to reduce the in vitro formation of cystatin C dimers was also developed and used to test a panel of 12 monoclonal antibodies. Seven antibodies reducing dimer formation by more than 30% were identified and the two most potent, Cyst28 and HCC3, reduced dimerization by 75 and 60%, respectively. Conclusion. We constructed a simple high-throughput system for testing the capacity of drugs and monoclonal antibodies to reduce the in vitro formation of cystatin C dimers and several candidates for treatment of HCCAA could be identified. (Less)
- Published
- 2011