Yoshinori Kasahara scite author profile

The product of the phosphatidylinositol glycan complementation group A gene (Pig-A) is involved in the synthesis of glycosylphosphatidylinositol (GPI) anchors that link various protein markers to the surface of several types of mammalian cells, including hematopoietic cells. Previous observations indicate that Pig-A mutation results in the lack of GPI synthesis and the absence of GPI-anchored proteins on the cell surface. As a first step in designing a rapid assay for measuring Pig-A mutation in the rat, we developed flow cytometry (FCM) strategies for detecting GPI-negative cells in rat peripheral blood and spleen. Anti-CD59 was used to detect GPI-anchored proteins on red blood cells (RBCs), and anti-CD48 was used to detect GPI-anchored proteins on spleen T-cells. The spontaneous frequency of CD59-negative RBCs in five male F344 rats ranged from 1 x 10(-6) to 27 x 10(-6). In contrast, treatment of five rats with three doses of 40 mg/kg N-ethyl-N-nitrosourea (ENU) increased the frequency of CD59-negative RBCs to 183 x 10(-6) to 249 x 10(-6) at 2 weeks and to 329 x 10(-6) to 413 x 10(-6) at 4 weeks after dosing. In the same 4-week posttreatment rats, the frequency of CD48-negative T-cells was 11 x 10(-6) to 16 x 10(-6) in control rats and 194 x 10(-6) to 473 x 10(-6) in ENU-treated rats. The frequencies of GPI-deficient cells were similar for RBCs and spleen T-cells. These results indicate that FCM detection of GPI-linked markers may form the basis for a rapid in vivo mutation assay. Although RBCs may be useful for a minimally invasive assay, T-cells are a promising tissue for both detecting GPI-deficient cells and confirming that Pig-A gene mutation is the cause of the phenotype.

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Development of an in vivo gene mutation assay using the endogenous Pig‐A gene: II. Selection of Pig‐A mutant rat spleen T‐cells with proaerolysin and sequencing Pig‐A cDNA from the mutants

Miura

Dobrovolsky

Mittelstaedt

et al. 2008

Environ and Mol Mutagen

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We previously reported that rat spleen T-cells and peripheral red blood cells that are deficient in glycosylphosphatidylinositol (GPI) synthesis [presumed mutants for the phosphatidylinositol glycan complementation group A gene (Pig-A)] could be detected by flow cytometry (FCM) as cells negative for GPI-linked markers (CD48 and CD59, respectively). To establish this procedure as a rapid in vivo gene mutation assay, we have examined the Pig-A gene of GPI-deficient rat spleen T-cells for DNA sequence alterations. Splenocytes were isolated from male F344 rats, primed with ionomycin and phorbol-12-myristate-13-acetate, and seeded at limiting-dilution into 96-well plates. To select for GPI-deficient T-cells, the cells were cultured for 10 days in a medium containing rat T-STIM and 2 nM proaerolysin (ProAER). The frequency of ProAER-resistant (ProAER(r)) spleen T-cells from control rats ranged from 1.3 x 10(-6) to 4.8 x 10(-6), while administration of three doses of 40 mg/kg N-ethyl-N-nitrosourea increased the frequency of ProAER(r) T-cells 100-fold at 4 weeks after dosing. FCM analysis of the cells in ProAER(r) clones revealed that they were CD48-negative, and thus presumably GPI-deficient. Sequencing of Pig-A cDNA from six ProAER(r) clones indicated that they all contained alterations in the Pig-A protein coding sequence; five had base pair substitutions and one had multiple exons deleted. These results indicate that GPI-deficient spleen T-cells are Pig-A gene mutants and support the use of FCM analysis of GPI-deficient cells as a rapid assay for measuring in vivo gene mutation.

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Manifestation of Pig-a mutant bone marrow erythroids and peripheral blood erythrocytes in mice treated with N-ethyl-N-nitrosourea: Direct sequencing of Pig-a cDNA from bone marrow cells negative for GPI-anchored protein expression

Kimoto

Suzuki

Kobayashi

et al. 2011

Mutation Research/Genetic Toxicology and Environmental Mutagene

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