Project description:Target of rapamycin complex 1 (TORC1) is a master regulator of metabolism in eukaryotes that integrates information from multiple upstream signaling pathways. In yeast, the Nitrogen permease regulators 2 and 3 (Npr2 and Npr3) mediate an essential response to amino-acid limitation upstream of TORC1. In mammals, the Npr2 ortholog, Nprl2, is a putative tumor suppressor gene that inhibits cell growth and enhances sensitivity to numerous anticancer drugs including cisplatin. However, the precise role of Nprl2 and Nprl3 in the regulation of metabolism in metazoans remains poorly defined. Here we demonstrate that the central importance of Nprl2 and Nprl3 in the response to amino-acid starvation has been conserved from single celled to multicellular animals. We find that in Drosophila Nprl2 and Nprl3 physically interact and are targeted to lysosomes and autolysosomes. Using oogenesis as a model system, we show that Nprl2 and Nprl3 inhibit TORC1 signaling in the female germline in response to amino-acid starvation. Moreover, the inhibition TORC1 by Nprl2/3 is critical to the preservation of female fertility during times of protein scarcity. In young egg chambers the failure to downregulate TORC1 in response to amino-acid limitation triggers apoptosis. Thus, our data suggest the presence of a metabolic checkpoint that initiates a cell death program when TORC1 activity remains inappropriately high during periods of amino-acid and/or nutrient scarcity in oogenesis. Finally, we demonstrate that Nprl2/3 work in concert with the TORC1 inhibitors Tsc1/2 to fine tune TORC1 activity during oogenesis and that Tsc1 is a critical downstream effector of Akt1 in the female germline.

Project description:We used single nuclei RNA sequencing to discover changes in the developmental trajectory of differentiating neural precusors in the developing murine cortex

Project description:Peroxiredoxins (PRDXs) are members of a highly conserved peroxidase family and maintain intracellular reactive oxygen species (ROS) homeostasis. The family members are expressed in most organisms and involved in various biological processes, such as cellular protection against ROS, inflammation, carcinogenesis, atherosclerosis, heart diseases, and metabolism. In mammals, six PRDX members have been identified and are subdivided into three subfamilies: typical 2-Cys (PRDX1, PRDX2, PRDX3, and PRDX4), atypical 2-Cys (PRDX5), and 1-Cys (PRDX6) subfamilies. Knockout mouse models of PRDXs have been developed to investigate their in vivo roles. This review presents an overview of the knockout mouse models of PRDXs with emphases on the biological and physiological changes of these model mice.

Project description:Radial progenitors deficient in both Mek1 and Mek2 fail to transition to the gliogenic mode in late embryogenesis, and astrocyte and oligodendroglial precursors fail to appear. In exploring mechanisms, we found the Ets transcription family member Etv5/Erm is strongly regulated by MEK. Our microarray assay showed that Erm is specifically downregulated in Mek mutant brain.

Project description:Neurons deficient in both GSK-3 alpha and beta isoforms fail to migrate properly and develop abnormal morphology. In exploring mechanisms, we found no change in Wnt transcriptional target genes. Verified decrease in GSK-3B exon 2

Project description:Radial progenitors deficient in both Mek1 and Mek2 fail to transition to the gliogenic mode in late embryogenesis, and astrocyte and oligodendroglial precursors fail to appear. In exploring mechanisms, we found the Ets transcription family member Etv5/Erm is strongly regulated by MEK. Our microarray assay showed that Erm is specifically downregulated in Mek mutant brain. RNA was extracted from dorsal corticies of E18.5 WT or Mek1,2\NesCre conditional mutant embryos. There were totally 4 samples: 2 WT and 2 mutants. 200 ng of total RNA was prepared for microarray hybridization according to the GeneChip® Whole Transcript (WT) Sense Target Labeling Assay user manual.

Project description:Neurons deficient in both GSK-3 alpha and beta isoforms fail to migrate properly and develop abnormal morphology. In exploring mechanisms, we found no change in Wnt transcriptional target genes. Verified decrease in GSK-3B exon 2 RNA was extracted from presumptive somatosensory cortices of E18 GSK-3 alpha -/- beta loxp/loxp (control) and GSK-3:Nex conditional mutant embryos. There were totally 6 samples: 3 control and 3 mutants.

Project description:Gene expression profile of E15.5 Pantr2 knockout dorsal telencephalon

Project description:To study the effect of miRNA depletion in the embryonic forebrain, we isolated RNA from E13.5 dorsal telencephalon of mice homozygous for a floxed Dicer allele and hemizygous for the forebrain expressed Emx1Cre (Dicer KO mice). These samples were compared to littermates heterozygous for the floxed allele and hemizygous for Emx1Cre.

Project description:To study the effect of miRNA depletion in the embryonic forebrain, we isolated RNA from E13.5 dorsal telencephalon of mice homozygous for a floxed Dicer allele and hemizygous for the forebrain expressed Emx1Cre (Dicer KO mice). These samples were compared to littermates heterozygous for the floxed allele and hemizygous for Emx1Cre. 5 Dicerko mice and 4 controls, partly littermates, no technical replicates