Project description:Podocyte specific knockout mice for Parva (Parva-fl/fl*hNPHS2Cre) were generated. Transcriptome profiling (RNA-Seq) and differential gene expression analysis of isolated renal glomeruli from KO and WT mice was performed. Parva KO mice showed transcriptional changes associated with podocyte and glomerular disease.

Project description:Glomeruli were isolated from the kidney of a 72 yo male patient. The kidney was surgically removed due to renal cell carcinoma. The glomeruli were isolated from uninvolved renal parenchyma. Histology (H&E) of glomeruli and interstitium was normal. Keywords: Kidney Subcompartment

Project description:Glomeruli were isolated from the kidney of a 72 yo male patient. The kidney was surgically removed due to renal cell carcinoma. The glomeruli were isolated from uninvolved renal parenchyma. Histology (H&E) of glomeruli and interstitium was normal. Keywords: Kidney Subcompartment Glomeruli were isolated using the sieving technique in ice-cold PBS, followed by isolation of total RNA with RNeasy kit. RNA was judged intact by agarose gel electrophoresis. SAGE library was custom-synthesized by Genzyme Corportation.

Project description:mRNAseq and proteomic data set of one week old WT (Chop wt/wt CkmmCre wt/wt Dars2 fl/fl), Chop KO (Chop ko/ko CkmmCre wt/wt Dars2 fl/fl), Dars2 KO (Chop wt/wt CkmmCre tg/wt Dars2 fl/fl) and DKO (Chop ko/ko CkmmCre tg/wt Dars2 fl/fl) mice

Project description:Alpha-parvin (PARVA) is known to involve in the linkage of integrins, regulation of actin cytoskeleton dynamics, and cell survival. However, the role of PARVA in cancer progress is still unclear. Here, we identify PARVA as a potential oncogene from a lung cancer invasion cell line model by expression microarrays. Overexpression of PARVA enhances cell invasion, colony formation ability, and endothelial cell tube formation but knockdown of PARVA inhibits invasion and tube formation in vitro. PARVA also promotes tumorigenicity, angiogenesis, metastasis and mortality by in vivo tumorigenesis and metastasis mouse models. To explore the underlying mechanism, the PARVA-regulated signaling pathways were analyzed in PARVA-overexpressing cells compare with mock controls by expression microarrays. We used microarrays to profile the global gene expression of PARVA-overexpressing cells compared with mock control cells and identified the pathways involved in PARVA-induced biofunctional alterations.

Project description:We investigated the gene expression profiles of RNA isolated from kidney glomeruli and renal tubules from aged, 24 week old type-2 diabetic (db/db) and non-diabetic mice

Project description:Theileria parva parva Genome sequencing and assembly

Project description:Edothelial cells were FACS sorted as CD31+CD45- population from PYMT-BO1 transplant tumor bearing WT and Cdh-cre Myct1 fl/fl mice on Day 14 post tumor transplantation

Project description:Toxicity of LCDD monoclonal Ig free light chains on renal glomeruli

Project description:The protozoan parasite Theileria parva infects and transforms bovine lymphocytes inducing uncontrolled proliferation. The transforming schizont resides free in the host cell cytoplasm and it is assumed that proteins released from the parasite contribute to host cell transformation and parasite persistence. The identification and characterisation of parasite genes encoding candidate secreted proteins constitutes a first step towards elucidating this complex process. In earlier work, it was shown that the genes encoding subtelomere-encoded variable secreted proteins (SVSPs) are located at the subtelomeres of all four T. parva chromosomes and, with 85 members, form the largest Theileria gene family. The majority of predicted proteins contain signal peptides, suggesting secretion into the host cell cytoplasm. We analysed SVSP expression in T. parva-transformed cell lines established in vitro by infection of T or B lymphocytes with cloned T. parva parasites. Preliminary microarray followed by quantitative real-time PCR analysis revealed mRNA expression for a wide range of SVSP genes. The pattern of mRNA expression was neither influenced by the cell type transformed by T. parva, nor by the animal background. Instead, the pattern of SVSP mRNA expression was largely defined by the parasite genotype and found to be relatively stable when monitored in vitro over a period of two months. Experiments using antibodies raised against the SVSP TP03_0882 provided first evidence for protein expression. Interestingly, results indicate that SVSP expression in cell lines established from a cloned parasite is limited to only a small percentage of parasites, suggesting SVSP expression by individual parasites is restricted. Expression of epitope-tagged TP03_0882 in mammalian cells revealed nuclear translocation and localisation to different nuclear compartments, including nucleoli, nucleoplasm and other nuclear bodies. Nuclear translocation to the mammalian cell nucleus was shown to involve two different types of nuclear localisation signals present in the conserved C-terminal region of TP03_0882. This first characterisation, opens up possibilities for future studies on the regulation of gene expression and the biological role of these enigmatic proteins. Expression patterns of SVSP genes in different T. parva-infected cloned cell lines Keywords: Gene expression We performed a three-condition experiment comparing SVSP gene transcription in three T. parva infected cell lines: (1) 211T-A3 (consisting of CD4+ T cells), (2) 211B-A3 (consisting of B cells), and 951T-F44 (consisting of CD4+ T cells). We used direct two-color experiment design, comparing each cell line with the other, i.e. (1) 211T-A3 vs 211B-A3, (2) 211T-A3 vs 951T-F44 and (3) 211B-A3 vs 951T-F44. There were two biological replicates for each hybridization and dye-flips for each hybridization pair. Microarray consisted of four in-slide replicates peer gene as well as no-DNA spots as negative controls.