BACKGROUND: The aim of the study was to establish fast methods for postmortem HLA class I and II typing of cornea donors using cadaveric blood. METHODS: The commercially available reagents Lymphokwik MN and Dynabeads were evaluated here to provide an enriched living mononuclear cell (MNC) population and B-cell population for HLA class I and II typing of cadaveric blood by serology. Cadaveric blood was obtained 1-80 h post mortem. After isolation of living B-cells and B-cell-depleted living MNC's, cells were serologically typed by double-fluorescence cytotoxicity assay for HLA class I and II antigens. RESULTS: In 373 (81%) of 461 cadaveric blood samples HLA class I typing, and in 36 (62%) of 56 cadaveric blood samples HLA-class II typing, by serology was successful and accomplished within 5 h. Results from the serological HLA class I typing were confirmed by the results of HLA class I typing by RNA-based sequencing in seven cases. To improve the HLA class II typing, DNA typing using PCR with sequence-specific primers was performed in 148 samples and reverse hybridization of PCR-amplified DNA to immobilized HLA class II specific primers in 270 samples. These data were confirmed by DNA-based sequencing in five cases and by sequence-specific oligonucleotide hybridization in all cases. CONCLUSIONS: These results lead to the following typing strategy: HLA class I typing should be performed by serology. HLA class II typing should be performed by DNA technology because of its relative independence of the quality of the blood sample. The strategy we have developed is very successful and fast for tissue typing post mortem, thus expanding the time available for ideal HLA matching, increasing the number of available HLA-matched corneas and therefore reducing the number of graft rejections.
BACKGROUND: The aim of the study was to establish fast methods for postmortem HLA class I and II typing of cornea donors using cadaveric blood. METHODS: The commercially available reagents Lymphokwik MN and Dynabeads were evaluated here to provide an enriched living mononuclear cell (MNC) population and B-cell population for HLA class I and II typing of cadaveric blood by serology. Cadaveric blood was obtained 1-80 h post mortem. After isolation of living B-cells and B-cell-depleted living MNC's, cells were serologically typed by double-fluorescence cytotoxicity assay for HLA class I and II antigens. RESULTS: In 373 (81%) of 461 cadaveric blood samples HLA class I typing, and in 36 (62%) of 56 cadaveric blood samples HLA-class II typing, by serology was successful and accomplished within 5 h. Results from the serological HLA class I typing were confirmed by the results of HLA class I typing by RNA-based sequencing in seven cases. To improve the HLA class II typing, DNA typing using PCR with sequence-specific primers was performed in 148 samples and reverse hybridization of PCR-amplified DNA to immobilized HLA class II specific primers in 270 samples. These data were confirmed by DNA-based sequencing in five cases and by sequence-specific oligonucleotide hybridization in all cases. CONCLUSIONS: These results lead to the following typing strategy: HLA class I typing should be performed by serology. HLA class II typing should be performed by DNA technology because of its relative independence of the quality of the blood sample. The strategy we have developed is very successful and fast for tissue typing post mortem, thus expanding the time available for ideal HLA matching, increasing the number of available HLA-matched corneas and therefore reducing the number of graft rejections.
Authors: Daniel Böhringer; Frieder Daub; Johannes Schwartzkopff; Philip Maier; Florian Birnbaum; Rainer Sundmacher; Thomas Reinhard Journal: Mol Vis Date: 2010-11-11 Impact factor: 2.367