A Agin1, N Jeandidier, F Gasser, D Grucker, R Sapin. 1. Centre national de la recherche scientifique, UMR 7004, institut de physique biologique, faculté de médecine, université Louis-Pasteur, 67091 Strasbourg, France. arnaud-agin@chru-strasbourg.fr
Abstract
AIM: Glargine, a long-acting insulin analogue, is metabolized in the bloodstream and in subcutaneous tissue. Glargine metabolism and its implications for diabetes therapy remain poorly understood. The aim of our study was to assess in vitro the glargine blood biotransformation and its inter-individual variability. METHODS: Formation of M1 glargine metabolite in vitro was studied with Elecsys Insulin immunoassay in pools of sera and sera from patients spiked with glargine. Elecsys Insulin assay is specific of human insulin, does not recognize glargine and its M2 metabolite but does recognize its M1 metabolite. RESULTS: Glargine incubation with serum resulted in M1 metabolite formation which was detected and characterized as an enzymatic process: metabolite kinetics were dependant on temperature, substrate concentration and serum proportion. Carboxypeptidase inhibitors and chelating agents partially inhibited the activity of the enzyme(s). Glargine biotransformation was decreased when blood was collected on EDTA tubes. After 30 min incubation of glargine (100 mU/l) in 69 sera at 37 degrees C, percentage of glargine converted into M1 ranged from 46% to 98% (mean 72%; S.D. 11%). CONCLUSION: Glargine blood biotransformation is an enzymatic process probably involving serum carboxypeptidase(s). Metabolite formation is rapid and non negligible. Inter-individual variability of glargine biotransformation is noteworthy and should be confronted to M1 metabolite bioactivity which has not been fully documented yet.
AIM: Glargine, a long-acting insulin analogue, is metabolized in the bloodstream and in subcutaneous tissue. Glargine metabolism and its implications for diabetes therapy remain poorly understood. The aim of our study was to assess in vitro the glargine blood biotransformation and its inter-individual variability. METHODS: Formation of M1 glargine metabolite in vitro was studied with Elecsys Insulin immunoassay in pools of sera and sera from patients spiked with glargine. Elecsys Insulin assay is specific of humaninsulin, does not recognize glargine and its M2 metabolite but does recognize its M1 metabolite. RESULTS:Glargine incubation with serum resulted in M1 metabolite formation which was detected and characterized as an enzymatic process: metabolite kinetics were dependant on temperature, substrate concentration and serum proportion. Carboxypeptidase inhibitors and chelating agents partially inhibited the activity of the enzyme(s). Glargine biotransformation was decreased when blood was collected on EDTA tubes. After 30 min incubation of glargine (100 mU/l) in 69 sera at 37 degrees C, percentage of glargine converted into M1 ranged from 46% to 98% (mean 72%; S.D. 11%). CONCLUSION:Glargine blood biotransformation is an enzymatic process probably involving serum carboxypeptidase(s). Metabolite formation is rapid and non negligible. Inter-individual variability of glargine biotransformation is noteworthy and should be confronted to M1 metabolite bioactivity which has not been fully documented yet.
Authors: Mark R Sommerfeld; Günter Müller; Georg Tschank; Gerhard Seipke; Paul Habermann; Roland Kurrle; Norbert Tennagels Journal: PLoS One Date: 2010-03-04 Impact factor: 3.240
Authors: Jutta M Nagel; Jürgen Staffa; Ingrid Renner-Müller; David Horst; Michael Vogeser; Markus Langkamp; Andreas Hoeflich; Burkhard Göke; Frank T Kolligs; Christos S Mantzoros Journal: Horm Cancer Date: 2010-12 Impact factor: 3.869
Authors: Geremia B Bolli; Annke D Hahn; Ronald Schmidt; Tanja Eisenblaetter; Raphael Dahmen; Tim Heise; Reinhard H A Becker Journal: Diabetes Care Date: 2012-10-23 Impact factor: 19.112