Jacob M. Bond scite author profile

MRL/lpr mice have been extensively used as a murine model of lupus. Disease progression in MRL/lpr mice can differ among animal facilities, suggesting a role for environmental factors. We noted a phenotypic drift of our in-house colony, which was the progeny of mice obtained from The Jackson Laboratory (JAX; stocking number 000485), that involved attenuated glomerulonephritis, increased splenomegaly, and reduced lymphadenopathy. To validate our in-house mice as a model of lupus, we compared these mice with those newly obtained from JAX, which were confirmed to be genetically identical to our in-house mice. Surprisingly, the new JAX mice exhibited a similar phenotypic drift, most notably the attenuation of glomerulonephritis. Interestingly, our in-house colony differed from JAX mice in body weight and kidney size (both sexes), as well as in splenic size, germinal center formation, and level of anti-dsDNA auto-IgG in the circulation (male only). In addition, we noted differential expression of microRNA (miR)-21 and miR-183 that might explain the splenic differences in males. Furthermore, the composition of gut microbiota was different between in-house and new JAX mice at early time points, which might explain some of the renal differences (e.g., kidney size). However, we could not identify the reason for attenuated glomerulonephritis, a shared phenotypic drift between the two colonies. It is likely that this was due to certain changes of environmental factors present in both JAX and our facilities. Taken together, these results suggest a significant phenotypic drift in MRL/lpr mice in both colonies that may require strain recovery from cryopreservation. ImmunoHorizons, 2022, 6: 36-46.

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NOX4 Drives Exercise-Induced Mitophagy

Mammel

Specht

Nichenko

et al. 2022

Free Radical Biology and Medicine

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Importance of microRNAs and gut microbiota in the characterization of a phenotypic drift in lupus-prone MRL/lpr mice.

Puig

Bond

Wang

et al. 2022

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Systemic lupus erythematosus (SLE) is a multi-system autoimmune disease. The cause of SLE is not only genetic; in fact, environmental factors may play a more important role in disease development. The MRL/lpr mouse model lupus-like symptoms due to multiple SLE susceptible loci in the MRL background, and offers an accelerated model compared to the MRL parent strain due to the Faslpr mutation. Recently, our laboratory witnessed a loss of disease phenotype in our in-house colony of MRL/lpr mice. We thus compared mice newly obtained from The Jackson Laboratory (JAX; Stock Number 000485) to our in-house mice. The single-nucleotide polymorphism (SNP) analysis showed no genetic drift, suggesting that environmental factors could be triggering a phenotypic drift. Surprisingly, the newly purchased JAX mice also had attenuation of glomerulonephritis. Even though JAX mice manifested similar attenuation of lupus nephritis, our in-house colony showed differences in organ weights. Furthermore, males showed a significantly higher level of anti-double stranded DNA auto-IgG consistent with germinal center maturation. In addition, in-house males had significantly higher levels of microRNA-21 and microRNA-183 explaining spleen size difference. Moreover, the composition of gut microbiota was different between in-house and new JAX mice at early age, with many groups of bacteria differing at later time points, which might explain some of the phenotypic differences. These results suggest that microRNAs and gut microbiota might be responsible for the phenotypic differences of MRL/lpr mice in JAX and our colonies as they were genetically identical. On the other hand, the attenuation of nephritis in both groups requires further investigation. Supported by R01AR073240

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Jacob M. Bond

Nox4 mediates skeletal muscle metabolic responses to exercise

Phenotypic Drift in Lupus-Prone MRL/lpr Mice: Potential Roles of MicroRNAs and Gut Microbiota

NOX4 Drives Exercise-Induced Mitophagy

Importance of microRNAs and gut microbiota in the characterization of a phenotypic drift in lupus-prone MRL/lpr mice.

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