Human erythrocyte PIG-A assay: An easily monitored index of gene mutation requiring low volume blood samples

This laboratory has previously described a method for scoring the incidence of rodent blood Pig‐a mutant phenotype erythrocytes using immunomagnetic separation in conjunction with flow cytometric analysis (In Vivo MutaFlow®). The current work extends this approach to human blood. The frequencies of...

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Bibliographic Details
Published in:Environmental and molecular mutagenesis 2015-05, Vol.56 (4), p.366-377
Main Authors: Dertinger, Stephen D., Avlasevich, Svetlana L., Bemis, Jeffrey C., Chen, Yuhchyau, MacGregor, James T.
Format: Article
Language:English
Subjects:
Adult
Age Factors
Aged
Blood Specimen Collection - methods
CD55
CD55 Antigens - genetics
CD59
CD59 Antigens - genetics
Erythrocytes - physiology
Female
flow cytometry
Flow Cytometry - methods
Humans
Immunomagnetic Separation - methods
Male
Membrane Proteins - genetics
Middle Aged
Mutation
Mutation Rate
peripheral blood
PIG-A gene
Reproducibility of Results
Reticulocytes - physiology
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Summary:This laboratory has previously described a method for scoring the incidence of rodent blood Pig‐a mutant phenotype erythrocytes using immunomagnetic separation in conjunction with flow cytometric analysis (In Vivo MutaFlow®). The current work extends this approach to human blood. The frequencies of CD59‐ and CD55‐negative reticulocytes (RETCD59−/CD55−) and erythrocytes (RBCCD59−/CD55−) serve as phenotypic reporters of PIG‐A gene mutation. Immunomagnetic separation was found to provide an effective means of increasing the number of reticulocytes and erythrocytes evaluated. Technical replicates were utilized to provide a sufficient number of cells for precise scoring while at the same time controlling for procedural accuracy by allowing comparison of replicate values. Cold whole blood samples could be held for at least one week without affecting reticulocyte, RETCD59−/CD55− or RBCCD59−/CD55− frequencies. Specimens from a total of 52 nonsmoking, self‐reported healthy adult subjects were evaluated. The mean frequency of RETCD59−/CD55− and RBCCD59−/CD55− were 6.0 × 10−6 and 2.9 × 10−6, respectively. The difference is consistent with a modest selective pressure against mutant phenotype erythrocytes in the circulation, and suggests advantages of studying both populations of erythrocytes. Whereas intra‐subject variability was low, inter‐subject variability was relatively high, with RETCD59−/CD55− frequencies differing by more than 30‐fold. There was an apparent correlation between age and mutant cell frequencies. Taken together, the results indicate that the frequency of human PIG‐A mutant phenotype cells can be efficiently and reliably estimated using a labeling and analysis protocol that is well established for rodent‐based studies. The applicability of the assay across species, its simplicity and statistical power, and the relatively non‐invasive nature of the assay should benefit myriad research areas involving DNA damage, including studies of environmental factors that modify “spontaneous” mutation frequencies. Environ. Mol. Mutagen. 56:366–377, 2015. © 2014 Wiley Periodicals, Inc.
ISSN:0893-6692
1098-2280
DOI:10.1002/em.21924