BACKGROUND: HLA-G in biological fluids has been proposed to be useful as a tumor marker as both a diagnostic and prognostic factor. Most HLA-G measurement procedures are based on ELISA methods using highly specific antibodies. However, results of published studies are in conflict regarding the clinical utility and even the nature of HLA-G present in circulation. METHODS: We collected 118 exudates, 94 from cancer patients and 24 from patients without tumors. We measured HLA-G concentrations by ELISA using MEM-G/9 or G233 as capture antibody. Samples were immunoprecipitated with an anti-HLA-G antibody and analyzed by Western blot using a different anti-HLA-G antibody. RESULTS: Discrepancies in HLA-G concentrations in exudates were observed depending on what capture anti-HLA-G antibody was used for ELISA (r = 0.376). These discrepancies were not observed when the ELISAs were performed using culture supernatants from HLA-G1-transfected cells (r = 0.983). Immunoprecipitation and Western blot of cell culture supernatants with 2 different anti-HLA-G antibodies produced the typical band at 39 kDa assigned to HLA-G. When the immunoprecipitation and western blot were performed with exudates, however, there were bands at 53 kDa and 70-76 kDa, higher molecular weights than those usually assigned to HLA-G. These HLA-G-like molecules were associated with β(2)-microglobulin and could also form disulfide bridges with other HLA-G-like molecules. CONCLUSIONS: The main HLA-G antigenic molecules in exudates are HLA-G-like complexes, a factor that should be considered when analyzing HLA-G in biological fluids.
BACKGROUND:HLA-G in biological fluids has been proposed to be useful as a tumor marker as both a diagnostic and prognostic factor. Most HLA-G measurement procedures are based on ELISA methods using highly specific antibodies. However, results of published studies are in conflict regarding the clinical utility and even the nature of HLA-G present in circulation. METHODS: We collected 118 exudates, 94 from cancerpatients and 24 from patients without tumors. We measured HLA-G concentrations by ELISA using MEM-G/9 or G233 as capture antibody. Samples were immunoprecipitated with an anti-HLA-G antibody and analyzed by Western blot using a different anti-HLA-G antibody. RESULTS: Discrepancies in HLA-G concentrations in exudates were observed depending on what capture anti-HLA-G antibody was used for ELISA (r = 0.376). These discrepancies were not observed when the ELISAs were performed using culture supernatants from HLA-G1-transfected cells (r = 0.983). Immunoprecipitation and Western blot of cell culture supernatants with 2 different anti-HLA-G antibodies produced the typical band at 39 kDa assigned to HLA-G. When the immunoprecipitation and western blot were performed with exudates, however, there were bands at 53 kDa and 70-76 kDa, higher molecular weights than those usually assigned to HLA-G. These HLA-G-like molecules were associated with β(2)-microglobulin and could also form disulfide bridges with other HLA-G-like molecules. CONCLUSIONS: The main HLA-G antigenic molecules in exudates are HLA-G-like complexes, a factor that should be considered when analyzing HLA-G in biological fluids.
Authors: Tiago Degani Veit; José Artur Bogo Chies; Magdalena Switala; Bettina Wagner; Peter A Horn; Mauricio Busatto; Claiton Viegas Brenol; João Carlos Tavares Brenol; Ricardo Machado Xavier; Vera Rebmann Journal: PLoS One Date: 2015-04-08 Impact factor: 3.240
Authors: Roberta Rizzo; Giuseppe Lo Monte; Daria Bortolotti; Angela Graziano; Valentina Gentili; Dario Di Luca; Roberto Marci Journal: Int J Mol Sci Date: 2015-03-10 Impact factor: 5.923
Authors: Franziska M Wuerfel; Hanna Huebner; Lothar Häberle; Paul Gass; Alexander Hein; Sebastian M Jud; Carolin C Hack; Marius Wunderle; Rüdiger Schulz-Wendtland; Ramona Erber; Arndt Hartmann; Arif B Ekici; Matthias W Beckmann; Peter A Fasching; Matthias Ruebner Journal: Sci Rep Date: 2020-09-25 Impact factor: 4.379