Project description:Scaffold proteins regulate intracellular MAP kinase signaling by providing critical spatial and temporal specificity. We have shown previously that the scaffold protein MEK1 partner (MP1) is localized to late endosomes by the adaptor protein p14. Using conditional gene disruption of p14 in livers of mice we analysed protein and transcript signatures in tissue samples. Further biological network analysis predicted that the differentially expressed transcripts and proteins are involved in cell cycle progression and regulation of cellular proliferation. Although some of the here identified signatures were previously linked to phospho-ERK activity, most of them were novel targets of late endosomal p14/MP1/MEK/ERK signaling module. Finally, the proliferation defect was confirmed in a chemically induced liver regeneration model in p14 liver knock-out mice. Conditional liver p14 KO mice were generated by mating p14 f/f mice with mice expressing Cre recombinase under control of Alb promoter and alpha-fetoprotein enhancer. The obtained p14 floxed/floxed;AlfpCre(p14 liver KO) mice were used in experiments as KO mice. To prevent the influence of AlfpCre transgene we used p14 +/+;AlfpCre mice as a control. All mice were derived in a C57BL/6 background and were six weeks old.

Project description:We characterize the phenotype of mice in which the deletion of Lkb1 has been targeted in the liver. Lack of Lkb1 in the liver results in bile duct paucity leading to cholestasis. This phenotype is similar to that obtained upon inactivation of Notch signaling in the liver. We test the hypothesis of a functional overlap between the Lkb1 and Notch pathways by gene expression profiling of livers deficent in Lkb1 or in the Notch mediator RbpJκ. We used AlfpCre mice for liver-specific deletion of LKB1 that were crossed with a conditional knockout mouse model (LKB1 floxed mice). We used also AlfpCre mice for liver-specific inactivation of the Notch pathway. AlfpCre mice were crossed with the RbpJκ floxed mice. RNA was extracted from the liver of LKB1 KO mice (Lkb1Floxed, AlfpCre positive mice) and their wild-type counterpart (Lkb1Floxed, AlfpCre negative mice). RNA was also extracted from liver of RbpJK KO mice (RbpJK floxed, AlfpCre positive) and their wild type mice (RbpJK floxed, AlfpCe negative).

Project description:We characterize the phenotype of mice in which the deletion of Lkb1 has been targeted in the liver. Lack of Lkb1 in the liver results in bile duct paucity leading to cholestasis. This phenotype is similar to that obtained upon inactivation of Notch signaling in the liver. We test the hypothesis of a functional overlap between the Lkb1 and Notch pathways by gene expression profiling of livers deficent in Lkb1 or in the Notch mediator RbpJκ. We used AlfpCre mice for liver-specific deletion of LKB1 that were crossed with a conditional knockout mouse model (LKB1 floxed mice). We used also AlfpCre mice for liver-specific inactivation of the Notch pathway. AlfpCre mice were crossed with the RbpJκ floxed mice. RNA was extracted from the liver of LKB1 KO mice (Lkb1Floxed, AlfpCre positive mice) and their wild-type counterpart (Lkb1Floxed, AlfpCre negative mice). RNA was also extracted from liver of RbpJK KO mice (RbpJK floxed, AlfpCre positive) and their wild type mice (RbpJK floxed, AlfpCe negative). 6 samples for the liver-specific deletion of LKB1 corresponding to 3 KO LKB1 (Cre positive) and 3 normal liver (Cre negative). 6 samples for the liver-specific inactivation of the Notch pathway corresponding to 3 KO RbpJk (Cre positive) and 3 normal liver (Cre negative).

Project description:Effect of Cyld inactivation in liver. The Cyld gene was conditionally inactivated specifically in the liver by crossing mice carrying floxed exon 9 allele of Cyld with Alfp-Cre transgenic mice. Liver RNAs from Cyld lox/lox-AlfpCre mice were compared with RNAs prepared from the livers of wild type littermates.

Project description:Liver tissue from Vps33b liver ko (Vps33bfl/fl-AlfpCre) mice is a model of liver disease associated with ARC syndrome, an autosomal recessive inherited metabolic disorder cause by mutations in VPS33B or VIPAS39. ARC is a multisystem disorder, with liver and kidneys affected in particular. Defects in hepatocyte polarity have been identified. Affymetrix arrays were used to characterise the changes in the liver transcriptome when Vps33b is not expressed. Mouse liver tissue, 10 samples in total, 4 from control mice, 6 from ko mice.

Project description:To elucidate the mechanisms underlying the role of Atf4 deficiency in erythropoiesis, we performed 10X Genomics single-cell RNA sequencing on Lin-cKit+ cells from Atf4 hematopoietic cell-specific conditional knockout mice (KO) and Atf4 floxed mice (WT) at steady state (referred to KO_BM and WT_BM) and after secondary transplantation (referred to cKO_t and WT_t). Furthermore, we also sorted CMP cells from Atf4 hematopoietic cell-specific conditional knockout mice (KO) and ATF4 floxed mice (WT) for 10X Genomics scRNA-seq.

Project description:Background and Aims: p53 can limit the self-renewal of stem cells from various tissues. Experimental evidence suggests that deletion of p53 can cooperate with other oncogenic events to induce aberrant self-renewal and transformation of progenitor cells. It is not known whether p53 deletion alone can lead to liver tumor formation. Methods: We used AlfpCre mice for liver-specific deletion of Trp53 in a conditional knockout mouse model to analyze liver carcinogenesis. Results: Here, we show that liver-specific deletion of p53 in mice consistently induces formation of liver carcinoma depicting bilineal differentiation. Freshly isolated p53-/- liver progenitor cells and hepatocytes exhibit chromosomal imbalances and an enhanced clonogenic capacity compared to p53-positive cells or p21-deficient cells. Primary cultures of hepatocytes and liver progenitor cells from p53-/- mice formed tumors with bilineal differentiation when transplanted into immuno-compromised mice. Together, these results indicate that loss of p53 alone is sufficient to induce primary liver cancer with bilineal differentiation originating from chromosomal instable cultured liver progenitor cells or hepatocytes. Conclusions: The study shows that p53-dependent checkpoints inhibit transformation of liver progenitor cells and hepatocytes involving p21-independent mechanisms. Liver tumors derived from Trp53 KO mice, liver tumors from DEN-treated wildtype mice, Trp53 KO liver and wildtype liver were isolated and RNA was extracted. Agilent-026655 Mouse 4x44K v2 arrays were used.

Project description:Liver tissue from Vps33b liver ko (Vps33bfl/fl-AlfpCre) mice is a model of liver disease associated with ARC syndrome, an autosomal recessive inherited metabolic disorder cause by mutations in VPS33B or VIPAS39. ARC is a multisystem disorder, with liver and kidneys affected in particular. Defects in hepatocyte polarity have been identified. Affymetrix arrays were used to characterise the changes in the liver transcriptome when Vps33b is not expressed.

Project description:As part of a study of the role of the aryl hydrocarbon receptor (Ahr) in maintenance and senescence of hematopoietic stem cells (HSC), global gene expression profiling was done with HSC isolated from bone marrow restricted conditional Ahr-knockout and AhR floxed mice. HSC from young-adult (8 wk old) cAhR-KO mice had changes in expression of many genes related to HSC maintenance, consistent with the phenotype observed in Ahr-KO mice. Aged cAhR-KO mice (18 months old) also displayed alterations in peripheral white blood cell counts, serial repopulation potential and levels of ROS in bone marrow cells, consistent with previous observations on the role of AhR in the hematopoietic system. 22 samples: 5 young Ahr knockout, 6 old Ahr knockout, 5 young floxed Ahr, 6 old floxed Ahr

Project description:Foxl2 is a forkhead transcription factor expressed only in the female, but not in the male gonad. We have created mice homozygous mutant for the Foxl2 gene (KO) as well as mice carrying a conditional mutant Foxl2 allele (floxed). The expression profiles of conventional Foxl2 knockout and wildtype ovaries were compared at P3, using the Affy Mouse Genome 430 2.0 Array. Adult wildtype and conditional mutant (Foxl2 floxed x RosaCre-EBD treated with tamoxifen) ovaries were compared to adult wildtype testes using the Affymetrix Mouse Gene 1.0 ST Array. Both experiments (KO/WT P3 and Mutant/WT/Testis Adult were also compared to each other.)