A collaborative international trial was conducted to evaluate the reproducibility and transferability of an in vivo mutation assay based on the enumeration of CD59-negative rat erythrocytes, a phenotype that is indicative of Pig-a gene mutation. Fourteen laboratories participated in this study, where anti-CD59-PE, SYTO 13 dye, and flow cytometry were used to determine the frequency of CD59-negative erythrocytes (RBC(CD59-)) and CD59-negative reticulocytes (RET(CD59-)). To provide samples with a range of mutant phenotype cell frequencies, male rats were exposed to N-ethyl-N-nitrosourea (ENU) via oral gavage for three consecutive days (Days 1-3). Each laboratory studied 0, 20, and 40 mg ENU/kg/day (n = 5 per group). Three sites also evaluated 4 mg/kg/day. At a minimum, blood samples were collected three times: predosing and on Days 15 and 30. Blood samples were processed according to a standardized sample processing and data acquisition protocol, and three endpoints were measured: %reticulocytes, frequency of RET(CD59-) , and frequency of RBC(CD59-) . The methodology was found to be reproducible, as the analysis of technical replicates resulted in experimental coefficients of variation that approached theoretical values. Good transferability was evident from the similar kinetics and magnitude of the dose-related responses that were observed among different laboratories. Concordance correlation coefficients showed a high level of agreement between the reference site and the test sites (range: 0.87-0.99). Collectively, these data demonstrate that with adequate training of personnel, flow cytometric analysis is capable of reliably enumerating mutant phenotype erythrocytes, thereby providing a robust in vivo mutation assay that is readily transferable across laboratories.
Autoantibodies to nucleolar components are a common serological feature of patients suffering from scleroderma, a collagen vascular autoimmune disease. While animal models, which spontaneously develop abundant antinucleolar antibodies, have not yet been described, high titers of such antibodies may be induced by treating susceptible strains of mice with mercuric chloride. We have identified the nucleolar autoantigen against which the HgCI2-induced IgG autoantibodies from mice of strain B10.S are directed. It is a protein with an apparent molecular mass of 36 kDa and a pI value of =8.6, which is associated with the nucleolar small nuclear RNA U3, and by these criteria must be identical with a polypeptide called fibrillarin. It is striking that scleroderma patients spontaneously produce autoantibodies against the same U3 ribonucleoprotein (RNP). The HgCl2-induced murine and the scleroderma-specific human anti-U3 RNP autoantibodies were indistinguishable in their reactivities toward fibrillarin. They further resemble each other insofar as both recognize epitopes on the 36-kDa protein, which have been highly conserved throughout evolution. Our results provide a basis to investigate at the molecular level whether similar immunoregulatory dysfunctions may lead to the preferential anti-U3 RNP autoantibody production in the animal model and in scleroderma patients.
Testosterone induces susceptibility to Plasmodium chabaudi malaria by imposing restrictions on those mechanisms which mediate resistance controlled by genes of the H-2 complex and the non-H-2 background in mice. This study investigated whether these restrictions are abolished after withdrawal of testosterone. Female mice of the inbred strain C57BL/10 were treated with 0.9 mg testosterone twice a week for 3 weeks and testosterone was then withdrawn for 12 weeks. The treatment raised plasma testosterone levels from 0.18 ng/ml to 3.79 ng/ml. After the testosterone treatment, these levels progressively dropped and reached 0.21 ng/ml by week 12 after testosterone withdrawal. Surprisingly, however, the testosterone-induced susceptibility still persisted. When mice were challenged on week 12 after testosterone withdrawal, P. chabaudi infections were still fatal in testosterone-treated mice, in contrast to self-healing infections in resistant, i.e. untreated, control mice. In addition, testosterone caused a persistent decrease in the levels of total IgG antibodies, especially IgG1 and IgG2b isotypes. In contrast, testosterone-induced changes in spleen cells, such as the reduction in number by 50%, the relative increase in CD8+ cells and the decrease in Ig+ cells, as well as the acquisition of the susceptible phenotype, were completely reversed on week 10 after testosterone withdrawal at the latest. Testosterone did not affect the production of the TH1-signalling cytokine interferon-gamma and the TH2-signalling cytokines interleukin (IL)-4 and IL-10 in response to P. chabaudi malaria. Together, our data indicated that the gene-controlled host resistance to P. chabaudi malaria is subject to superior hormonal imprinting: when once induced by testosterone, mechanisms which suppress resistance thus causing susceptibility persist independently of testosterone.
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