The Establishment of a Three-color Flow Cytometry Approach for the Scoring of Micronucleated Reticulocytes in Rat Bone Marrow

To develop and verify a flow cytometric measurement of reticulocytes (RETs) micronucleus in rat bone marrow.  Methods  In our flow cytometric protocol, reticulocytes, leukocytes and DNA were labeled by anti-CD71-fluorescein isothiocyanate (FITC), anti-CD45-phycoerythrin (PE) and DRAQ5, respectively. Sprague-Dawley (SD) rats were assigned to four treatment groups randomly, and were exposed to ethyl methanesulfonate (EMS), cyclophosphamide (CP), ethyl nitrosourea (ENU) and colchicine (COL) respectively. Each treatment group was divided into four subgroups (5 rats per subgroup) according to different exposure dosage. A exposure dose of 0 was used as vehicle control for each group. Rats were administered with testing mutagens by gavage twice with a 24 h interval. Bone marrow from both femurs were collected 24 h after the last administration. The frequency of micronucleated reticulocytes (MN-RETs) and the percentage of reticulocytes (RETs%) were determined by flow cytometric measurement established in this study. And the manual counting method with microscope (by Giemsa staining) was conducted at the same time.  Results  A method for detection of reticulocyte micronucleus in bone marrow based on flow cytometry was successfully established. The MN-RETs in rat bone marrow of 20 SD rats treated by vehicle (i.e., background value of MN-RETs) was 0.83‰±0.12‰ by this method. The background value of MN-RETs in manual enumeration method was 1.43‰±0.44‰. It was obvious that the flow cytometric method had lower background value and more stable results. The trend, in which MN-RETs ascended and RETs% descended with increasing dose, can be detected by both methods in rats that exposed to EMS, CP, ENU and COL. Both methods were good to detect the correlation of induced-MN-RETs with four testing mutagens (the correlation coefficients were ranged from 0.834 3 to 0.913 7).  Conclusion  With its sensitivity, rapidity, easy operation and low background value, the three-color flow cytometric enumerative protocol established in our laboratory can be used as a good substitute for manual micronucleus counting method and used in genotoxicity assessment of chemical substances.

 

Keywords: Micronucleus test, Flow cytometry, Rats, Bone marrow, Genotoxicity

 

International Council on Harmonisation of Technical Requirements for Pharmaceuticals for Human Use. ICH Topic S2(R1) Guidance on genotoxicity testing and data interpretation for pharmaceuticals intended for human use. 2011.

U.S. Department of Health and Human Services Food and Drug Administration Center for Drug Evaluation and Research (CDER). Guidance for Industry Genotoxic and Carcinogenic Impurities in Drug Substances and Products: Recommended Approaches. 2008.

DERTINGER S D， TOROUS D K， TOMETSKO K R. Simple and reliable enumeration of micronucleated reticulocytes with a single-laser flow cytometer. Mutat Res，1996，371(3/4): 283–292.

DERTINGER S D， CAMPHAUSEN K， MACGREGOR J T， et al. Three-color labeling method for flow cytometric measurement of cytogenetic damage in rodent and human blood. Environ Mol Mutagen，2004，44(5): 427–435.

KIRKLAND D， KASPER P， MÜLLER L， et al. Recommended lists of genotoxic and non-genotoxic chemicals for assessment of the performance of new or improved genotoxicity tests: a follow-up to an ECVAM workshop. Mutat Res，2008，653(1/2): 99–108.

KHANAL S， SINGH P， AVLASEVICH S L， et al. Integration of liver and blood micronucleus and Pig-a gene mutation endpoints into rat 28-day repeat-treatment studies: proof-of-principle with diethylnitrosamine. Mutat Res，2018，828(4): 30–35.

AVLASEVICH S L， TOROUS D K， BEMIS J C， et al. Suitability of long-term frozen rat blood samples for the interrogation of Pig-a gene mutation by flow cytometry. Environ Mol Mutagen，2019，60(1): 47–55.

DERTINGER S D， TOROUS D K， HAYASHI M， et al. Flow cytometric scoring of micronucleated erythrocytes: an efficient platform for assessing in vivo cytogenetic damage. Mutagenesis，2011，26(1): 139–145.

ZHOU C， WANG Q， WANG Z， et al. Comparison of three-colour flow cytometry and slide-based microscopy for the scoring of micronucleated reticulocytes in rat bone-marrow and peripheral blood. Mutat Res，2013， 758(1/2): 12–17.

HUTTER K J， STÖHR M. Rapid detection of mutagen induced micronucleated erythrocytes by flow cytometry. Histochemistry，1982， 75(3): 353–362.

GRAWÉ J， ZETTERBERG G， AMNÉUS H. Flow‐cytometric enumeration of micronucleated polychromatic erythrocytes in mouse peripheral blood. Cytometry，1992，13(7): 750–758.

CRISWELL K A， KRISHNA G， ZIELINSKI D， et al. Use of acridine orange in: flow cytometric assessment of micronuclei induction. Mutat Res，1998，414(1/2/3): 63–75.

WEAVER J L， TOROUS D. Flow cytometry assay for counting micronucleated erythrocytes: development process. Methods，2000，21(3): 281–287.