Characterization of a FGF19 Variant with Altered Receptor Specificity Revealed a Central Role for FGFR1c in the Regulation of Glucose Metabolism

Diabetes and associated metabolic conditions have reached pandemic proportions worldwide, and there is a clear unmet medical need for new therapies that are both effective and safe. FGF19 and FGF21 are distinctive members of the FGF family that function as endocrine hormones. Both have potent effects on normalizing glucose, lipid, and energy homeostasis, and therefore, represent attractive potential next generation therapies for combating the growing epidemics of type 2 diabetes and obesity. The mechanism responsible for these impressive metabolic effects remains unknown. While both FGF19 and FGF21 can activate FGFRs 1c, 2c, and 3c in the presence of co-receptor βKlotho in vitro, which receptor is responsible for the metabolic activities observed in vivo remains unknown. Here we have generated a variant of FGF19, FGF19-7, that has altered receptor specificity with a strong bias toward FGFR1c. We show that FGF19-7 is equally efficacious as wild type FGF19 in regulating glucose, lipid, and energy metabolism in both diet-induced obesity and leptin-deficient mouse models. These results are the first direct demonstration of the central role of the βKlotho/FGFR1c receptor complex in glucose and lipid regulation, and also strongly suggest that activation of this receptor complex alone might be sufficient to achieve all the metabolic functions of endocrine FGF molecules

SHORT COMMUNICATION: Double pronuclei injection of DNA into zygotes increases yields of transgenic mouse lines

Transgenic mice are increasingly used for gene function and regulation studies of mammalian genes. A major limitation is the necessity to produce a large number of founder animals to obtain one line with the desired expression pattern. We developed a method, the 'double pronuclei injection', that doubles the yield of transgenic mouse lines obtained from each injection session, thereby reducing the time, effort and costs of generating transgenic mice. Three transgenic vectors were microinjected into the male and female pronuclei of zygotes. Approximately half of the resulting born mice were transgenic. This represented a 60% increase in the yield of founders per injected zygote, and a 100% increase in the yield of transgenic mice per born animal, when compared to yields obtained using single pronucleus injection. This method should prove useful for generating large numbers of transgenic mice for gene regulation studies and for conditional gene ablatio

SHORT COMMUNICATION: Double pronuclei injection of DNA into zygotes increases yields of transgenic mouse lines

Transgenic mice are increasingly used for gene function and regulation studies of mammalian genes. A major limitation is the necessity to produce a large number of founder animals to obtain one line with the desired expression pattern. We developed a method, the 'double pronuclei injection', that doubles the yield of transgenic mouse lines obtained from each injection session, thereby reducing the time, effort and costs of generating transgenic mice. Three transgenic vectors were microinjected into the male and female pronuclei of zygotes. Approximately half of the resulting born mice were transgenic. This represented a 60% increase in the yield of founders per injected zygote, and a 100% increase in the yield of transgenic mice per born animal, when compared to yields obtained using single pronucleus injection. This method should prove useful for generating large numbers of transgenic mice for gene regulation studies and for conditional gene ablatio

GPR21 KO mice demonstrate no resistance to high fat diet induced obesity or improved glucose tolerance [version 1; referees: 1 approved, 2 approved with reservations]

Gpr21 KO mice generated with Gpr21 KO ES cells obtained from Deltagen showed improved glucose tolerance and insulin sensitivity when fed a high fat diet. Further mRNA expression analysis revealed changes in Rabgap1 levels and raised the possibility that Rabgap1 gene may have been modified. To assess this hypothesis a new Gpr21 KO mouse line using TALENS technology was generated. Gpr21 gene deletion was confirmed by PCR and Gpr21 and Rabgap1 mRNA expression levels were determined by RT-PCR. The newly generated Gpr21 KO mice when fed a normal or high fat diet chow did not maintain their improved metabolic phenotype. In conclusion, Rabgap1 disturbance mRNA expression levels may have contributed to the phenotype of the originally designed Gpr21 KO mice

GPR21 KO mice demonstrate no resistance to high fat diet induced obesity or improved glucose tolerance [version 2; referees: 1 approved, 2 approved with reservations]

Gpr21 KO mice generated with Gpr21 KO ES cells obtained from Deltagen showed improved glucose tolerance and insulin sensitivity when fed a high fat diet. Further mRNA expression analysis revealed changes in Rabgap1 levels and raised the possibility that Rabgap1 gene may have been modified. To assess this hypothesis a new Gpr21 KO mouse line using TALENS technology was generated. Gpr21 gene deletion was confirmed by PCR and Gpr21 and Rabgap1 mRNA expression levels were determined by RT-PCR. The newly generated Gpr21 KO mice when fed a normal or high fat diet chow did not maintain their improved metabolic phenotype. In conclusion, Rabgap1 disturbance mRNA expression levels may have contributed to the phenotype of the originally designed Gpr21 KO mice

Significant gene content variation characterizes the genomes of inbred mouse strains

The contribution to genetic diversity of genomic segmental copy number variations (CNVs) is less well understood than that of single-nucleotide polymorphisms (SNPs). While less frequent than SNPs, CNVs have greater potential to affect phenotype. In this study, we have performed the most comprehensive survey to date of CNVs in mice, analyzing the genomes of 42 Mouse Phenome Consortium priority strains. This microarray comparative genomic hybridization (CGH)-based analysis has identified 2094 putative CNVs, with an average of 10 Mb of DNA in 51 CNVs when individual mouse strains were compared to the reference strain C57BL/6J. This amount of variation results in gene content that can differ by hundreds of genes between strains. These genes include members of large families such as the major histocompatibility and pheromone receptor genes, but there are also many singleton genes including genes with expected phenotypic consequences from their deletion or amplification. Using a whole-genome association analysis, we demonstrate that complex multigenic phenotypes, such as food intake, can be associated with specific copy number changes