Project description:Gprc5b, a retinoic acid-inducible orphan G protein–coupled receptor, is a member of the group C metabotropic glutamate receptor family. Its function is unknown. However, recent evidence suggests that it binds Frizzled Wnt receptors and may activate noncanonical Wnt signaling pathways. Here we report the discovery of a brain-enriched C-terminal splice variant of Gprc5b, Gprc5b_v2, by cDNA microarray and RT-PCR analyses. The variant appeared to have been downregulated in the brains of learning/memory-deficient p97FE65 null mice. Despite the fact that the mice had been backcrossed with the C57Bl/6J strain for more than ten generations, Gprc5b and other genes surrounding the FE65 locus on mouse chromosome 7 were retained from the 129-derived ES cells used to generate the knockout line. The differential splicing is unlikely due to FE65 function, as originally suspected, as Gprc5b_v2 expression is also downregulated in the brains of 129/Sv substrains in comparison to C57Bl/6J mice. Further characterization revealed the expression of both Gprc5b_v2 and the previously described variant, Gprc5b_v1, in neurons. Interestingly, Gprc5b_v2 mRNA levels increase with neuronal maturation, paralleling the expression of synaptic proteins involved in the regulation of synaptic plasticity. Finally, we report evidence that both Gprc5b_v2 and Gprc5b_v1 regulate neurite outgrowth. These results are consistent with a putative function of Gprc5b in noncanonical Wnt signaling, which play roles in the regulation of neuronal morphology, and the formation and modulation of neuronal circuitry. Cerebral cortex tissues were dissected from five FE65 wild-type and p97FE65 null littermate pairs (6 months of age)

Project description:The ability to generate defined null mutations in mice revolutionized the analysis of gene function in mammals. However, gene-deficient mice generated by using 129-derived embryonic stem (ES) cells may carry large segments of 129 DNA, even when extensively backcrossed to reference strains, such as C57BL/6J, and this may confound interpretation of experiments performed in these mice. Tissue plasminogen activator (tPA), encoded by the PLAT gene, is a fibrinolytic serine protease that is widely expressed in the brain. A large number of neurological abnormalities have been reported in tPA-deficient mice. The studies here compare genes differentially expressed in the brains of Plat-/- mice from two independent Plat-/- mouse derivations to wild-type C57BL/6J mice. One strain denoted “Old” was constructed in ES cells from a 129 mouse and backcrossed extensively to C57BL/6J, and one denoted “New” Plat-/- mouse was constructed using zinc finger nucleases directly in the C57BL/6J-Plat-/- mouse strain. We identify a significant set of genes that are differentially expressed in the brains of Old Plat-/- mice that preferentially cluster in the vicinity of Plat on chromosome 8, apparently linked to more than 20 Mbp of DNA flanking Plat being of 129 origin. No such clustering is seen in the New Plat-/- mice.

Project description:A frequently used experimental model of chronic pancreatitis (PC) recapitulating human disease is repeated injection of cerulein to mice. We found that two common substrains of C57BL/6 , C56BL/6J (Jackson) and C57BL/6NHsd (Harlan), exhibit different degree of CP with C57BL/6J beeing more susceptible to repetitive cerulein induced CP. The goal of this study was to identify genes associated with CP and also to identify genes differentially regulated between two substrains as candidates for the CP progression.

Project description:A frequently used experimental model of chronic pancreatitis (PC) recapitulating human disease is repeated injection of cerulein to mice. We found that two common substrains of C57BL/6 , C56BL/6J (Jackson) and C57BL/6NHsd (Harlan), exhibit different degree of CP with C57BL/6J beeing more susceptible to repetitive cerulein induced CP. The goal of this study was to identify genes associated with CP and also to identify genes differentially regulated between two substrains as candidates for the CP progression. RNAs were isolated from the pancreas of 8-week old Jackson and Harlan mice after the cerulein induction of chronic pancreatitis and hybridized on Affymetrix microarrays. Saline injected mice were used as controls. Three mice from each experimental and control groups were used in the experiment.

Project description:Thermogenic brown and beige adipocytes counteract obesity by enhancing energy dissipation via uncoupling proein-1 (Ucp1). However, the effect of genetic variation on these cells, a major source of disease susceptibility, has been less well studied. Here we examined beige adipocytes from obesity-prone C57BL/6J (B6) and obesity-resistant 129X1/SvJ (129) mouse strains and identified a cis-regulatory variant rs47238345 that is responsible for differential Ucp1 expression. The alternative T allele of rs47238345 at the Ucp1 -12kb enhancer in 129 facilitates the allele-specific binding of nuclear factor I-A (NFIA) to mediate allele-specific enhancer-promoter interaction and Ucp1 transcription. We also identified Lim homeobox protein 8 (Lhx8), whose expression is higher in 129 than in B6, as a trans-acting regulator of Ucp1 in mice and humans. These results demonstrate the cis- and trans-acting effects of genetic variation on Ucp1 expression that underlie phenotypic diversity.

Project description:Thermogenic brown and beige adipocytes counteract obesity by enhancing energy dissipation via uncoupling proein-1 (Ucp1). However, the effect of genetic variation on these cells, a major source of disease susceptibility, has been less well studied. Here we examined beige adipocytes from obesity-prone C57BL/6J (B6) and obesity-resistant 129X1/SvJ (129) mouse strains and identified a cis-regulatory variant rs47238345 that is responsible for differential Ucp1 expression. The alternative T allele of rs47238345 at the Ucp1 -12kb enhancer in 129 facilitates the allele-specific binding of nuclear factor I-A (NFIA) to mediate allele-specific enhancer-promoter interaction and Ucp1 transcription. We also identified Lim homeobox protein 8 (Lhx8), whose expression is higher in 129 than in B6, as a trans-acting regulator of Ucp1 in mice and humans. These results demonstrate the cis- and trans-acting effects of genetic variation on Ucp1 expression that underlie phenotypic diversity.

Project description:Thermogenic brown and beige adipocytes counteract obesity by enhancing energy dissipation via uncoupling proein-1 (Ucp1). However, the effect of genetic variation on these cells, a major source of disease susceptibility, has been less well studied. Here we examined beige adipocytes from obesity-prone C57BL/6J (B6) and obesity-resistant 129X1/SvJ (129) mouse strains and identified a cis-regulatory variant rs47238345 that is responsible for differential Ucp1 expression. The alternative T allele of rs47238345 at the Ucp1 -12kb enhancer in 129 facilitates the allele-specific binding of nuclear factor I-A (NFIA) to mediate allele-specific enhancer-promoter interaction and Ucp1 transcription. We also identified Lim homeobox protein 8 (Lhx8), whose expression is higher in 129 than in B6, as a trans-acting regulator of Ucp1 in mice and humans. These results demonstrate the cis- and trans-acting effects of genetic variation on Ucp1 expression that underlie phenotypic diversity.

Project description:Thermogenic brown and beige adipocytes counteract obesity by enhancing energy dissipation via uncoupling proein-1 (Ucp1). However, the effect of genetic variation on these cells, a major source of disease susceptibility, has been less well studied. Here we examined beige adipocytes from obesity-prone C57BL/6J (B6) and obesity-resistant 129X1/SvJ (129) mouse strains and identified a cis-regulatory variant rs47238345 that is responsible for differential Ucp1 expression. The alternative T allele of rs47238345 at the Ucp1 -12kb enhancer in 129 facilitates the allele-specific binding of nuclear factor I-A (NFIA) to mediate allele-specific enhancer-promoter interaction and Ucp1 transcription. We also identified Lim homeobox protein 8 (Lhx8), whose expression is higher in 129 than in B6, as a trans-acting regulator of Ucp1 in mice and humans. These results demonstrate the cis- and trans-acting effects of genetic variation on Ucp1 expression that underlie phenotypic diversity.

Project description:CD23, the low affinity receptor for IgE, has been proposed to play a critical role in the regulation of IgE production, based on altered IgE levels in CD23-deficient mice and transgenic mouse models, as well as in mouse strains with mutations in the CD23 gene, e.g. 129 substrains. Here, we have investigated a mouse line termed LxT1 that expresses reduced CD23 surface levels on B cells, and its influence on IgE production. Extensive phenotypic analyses showed that CD23 surface expression was reduced in LxT1 compared to the control, without affecting B cell development in general. We linked the CD23low surface level in LxT1 mice to a recessive locus, a 129-derived region spanning 28Mb on chromosome 8, which includes the CD23 gene. Sequence analysis confirmed the five mutations within the CD23 coding region in LxT1 mice, the same as those present in NZB and 129 substrains. However, this CD23low phenotype was not observed in all 129 substrains despite carrying these same CD23 mutations in the coding region. Affymetrix Mouse Diversity Genotyping Array was performed according to the manufacturer's directions on DNA extracted from crossed mice samples. The array can interrogate more than 623,000SNPs, yielding an average SNP density of one marker per 4.3kb. Genetic linkage analysis was performed to exploit the co-segregation of chromosomal regions with the CD23 phenotype to identify the location of causative genes.

Project description:Genetically engineered mice (GEM) are essential tools for understanding gene function and disease modeling. Due to historical reasons, gene targeting was at first done in embryonic stem cells (ESC) derived from the 129 family of inbred strains, leading to mixed background or congenic mice when crossed with C57BL/6 mice. Depending on the number of backcrosses and breeding strategies genomic segments from 129-derived ESC can be introgressed into the C57BL/6 genome at different levels, establishing a unique genetic makeup that needs characterization in order to obtain valid conclusions of experiments using GEM models. We sequenced wild-type (WT), heterozygous (Het) and knockout (KO) mouse embryonic fibroblasts (MEFs) from a knockout model of Sall2 (Sato A. et al, Zinc finger protein sall2 is not essential for embryonic and kidney development. Mol Cell Biol 2003, 23:62-69) maintained in a mixed background between C57BL/6J and 129P2OlaHsd mice. We also treated these cells with doxorubicin, as a global perturbation of the gene expression. With this schema, we aimed to detect genetic introgression of 129 mice onto C57BL/6J, KO-ligated variants (the so-called congenic footprint) and potential modifier genes.