Project description:To identify early transcriptional changes downstream of Pkd2 mutations that promote cyst formation, we used tamoxifen-inducible CAG-Cre to induce Pkd2 deletion at postnatal day 2 and compared to wild-type mice at postnatal day 6 and 10. We then performed gene expression profiling analysis using data obtained from RNA-seq of whole mouse kidneys.

Project description:Small noncoding RNA expression in pre-cystic mouse kidneys after Pkd2 deletion.

Project description:To identify differentially expressed small noncoding RNAs downstream of Pkd2 mutations that may regulate early cyst growth, we used tamoxifen-inducible CAG-Cre to induce Pkd2 deletion at postnatal day 2 and compared to wild-type mice at postnatal day 6 and 10.

Project description:This Study sought to understand the differential gene expression profile of Pkd2 mutant mice kidneys in the setting of miR-21 deletion 4 Wild type mice, 3 Pkd2 Knockout mice and 3 Pkd2-miR-21 knockout mice were analyzed

Project description:This Study sought to understand the differential gene expression profile of Pkd2 mutant mice kidneys in the setting of miR-21 deletion

Project description:Purpose: Determine the differential gene expression pattern between wildtype, Pkd2-KO and Pkd2-miR-214 KO mice Methods: kidney mRNA profiles of Pkd2-KO and Pkd2-mir-214-KO mice was sequenced with N of 3 in each group Results: 972 differentially expressed transcripts were identified between Pkd2-KO kidneys and Pkd2-miR-214-KO kidneys Conclusion: Deletion of miR-214 promotes interstitial inflammation in mouse models of ADPKD

Project description:Polycystic Kidney Disease is characterized by the formation of large fluid-filled cysts that eventually destroy the renal parenchyma leading to end-stage renal failure. Although remarkable progress has been made in understanding the pathologic mechanism of the disease, the precise orchestration of the early events leading to cyst formation is still unclear. Abnormal cellular proliferation was traditionally considered to be one of the primary irregularities leading to cyst initiation and growth. Consequently, many therapeutic interventions have focused on targeting this abnormal proliferation, and some have even progressed to clinical trials. However, the role of proliferation in cyst development was primarily examined at stages where cysts are already visible in the kidneys and therefore at later stages of disease development. In this study we focused on the cystic phenotype since birth in an attempt to clarify the temporal contribution of cellular proliferation in cyst development. Using a PKD2 transgenic rat model (PKD2 (1-703)) of different ages (0-60 days after birth) we performed gene expression profiling and phenotype analysis by measuring various kidney parameters. Phenotype analysis demonstrated that renal cysts appear immediately after birth in the PKD2 transgenic rat model (PKD2 (1-703)). On the other hand, abnormal proliferation occurs at later stages of the disease as identified by gene expression profiling. Interestingly, other pathways appear to be deregulated at early stages of the disease in this PKD model. Our data suggest that cystogenesis precedes deregulation of proliferation-related pathways, suggesting that proliferation abnormalities may contribute in cyst growth rather than cyst formation. In this study we focused on the cystic phenotype since birth in an attempt to clarify the temporal contribution of cellular proliferation in cyst development. Using a PKD2 transgenic rat model (PKD2 (1-703)) of different ages (0,6 and 24 days after birth) we performed gene expression profiling of kidney cells.

Project description:We report the findings of deletion of the miR17 binding motif from Pkd2 mRNA

Project description:Kidney global mRNA expression profiles was carried out in the Pkd2-KO model following RGLS4326 treatment PBS-treated controls. We found that RGLS4326 treatment had a significant transcriptome-wide impact and globally de-repressed mRNAs of predicted miR-17 target genes in cystic kidneys of Pkd2-KO model

Project description:Polycystic Kidney Disease is characterized by the formation of large fluid-filled cysts that eventually destroy the renal parenchyma leading to end-stage renal failure. Although remarkable progress has been made in understanding the pathologic mechanism of the disease, the precise orchestration of the early events leading to cyst formation is still unclear. Abnormal cellular proliferation was traditionally considered to be one of the primary irregularities leading to cyst initiation and growth. Consequently, many therapeutic interventions have focused on targeting this abnormal proliferation, and some have even progressed to clinical trials. However, the role of proliferation in cyst development was primarily examined at stages where cysts are already visible in the kidneys and therefore at later stages of disease development. In this study we focused on the cystic phenotype since birth in an attempt to clarify the temporal contribution of cellular proliferation in cyst development. Using a PKD2 transgenic rat model (PKD2 (1-703)) of different ages (0-60 days after birth) we performed gene expression profiling and phenotype analysis by measuring various kidney parameters. Phenotype analysis demonstrated that renal cysts appear immediately after birth in the PKD2 transgenic rat model (PKD2 (1-703)). On the other hand, abnormal proliferation occurs at later stages of the disease as identified by gene expression profiling. Interestingly, other pathways appear to be deregulated at early stages of the disease in this PKD model. Our data suggest that cystogenesis precedes deregulation of proliferation-related pathways, suggesting that proliferation abnormalities may contribute in cyst growth rather than cyst formation.