Project description:We previously showed that the proteasome inhibitor bortezomib (Velcade) induces cell death in a subset of human bladder cancer cell lines. Heat shock protein 72 kDa (Hsp72) is the major cytosolic stress-inducible molecular chaperone, and is thought to protect cells from proteasome inhibition. Here, using whole genome mRNA expression profiling, we identify isoform-specific expression of Hsp72 within a heterogeneous panel of bladder cancer cell lines. Bortezomib induced strong upregulation of both the HSPA1A and HSPA1B isoforms of Hsp72 in 253J B-V and SW780 (HSPA1A-high) cells, whereas only HSPA1B isoform expression was induced in UM-UC10 and UM-UC13 (HSPA1A-low) cells. Bortezomib stimulated the binding of heat shock factor-1 (HSF1) to the HSPA1A promoter much more efficiently in 253JB-V cells than in UM-UC13, but other HSF1 transcriptional targets were induced in all of the cell lines, implicating a specific defect in HSPA1A induction. Methylation-specific PCR revealed that the HSPA1A promoter was selectively methylated in the HSPA1A-low cell lines (UM-UC10 and UM-UC13), and exposure to the chromatin demethylating agent 5-aza-2'-deoxycytidine restored HSPA1A expression. Overexpression of Hsp72 promoted bortezomib resistance in the UM-UC10 and UM-UC13 cells, whereas transient knockdown of HSPA1B sensitized these cells to bortezomib. Exposure to the chemical HSF1 inhibitor KNK-437 promoted bortezomib sensitivity in the 253J B-V cells. Finally, shRNA-mediated stable knockdown of Hsp72 in 253J B-V promoted sensitivity to bortezomib both in vitro and in vivo. Together, our results suggest that a subset of human bladder cancer cells possess epigenetic modifications that shut off the HSPA1A promoter and increases dependency on the HSPA1B isoform to maintain Hsp72 expression. Our data also support the targeting of HSF1 or Hsp72 for use as tools to enhance bortezomib sensitivity in solid tumors. RNA was isolated from cells using the TRIzol Reagent (Invitrogen/ Life Technologies, Grand Island, NY), followed by cleanup with RNeasy Mini kits (Qiagen, Germantown, MD). RNA was used for the synthesis of biotin-labeled cRNA, which was prepared using the Illumina RNA amplification kit (Ambion/ Life Technologies), and then hybridized to Illumina Human-HT12 (Illumina, Inc., Hayward, CA) chips. Washed chips were scanned with BeadStation 500x (Illumina) and the signal intensities quantified with BeadStudio (Illumina).

Project description:The onset of the liver inflamentation in the Sox17+/- embryos. The expression of Cxcl10, Cxcl2, Cxcl1 and stress-induced heat shock protein Hspa1a and Hspa1b were elevated in Sox17+/- livers at 17dpc, as compared with the wildtype livers.

Project description:The onset of the liver inflamentation in the Sox17+/- embryos. The expression of Cxcl10, Cxcl2, Cxcl1 and stress-induced heat shock protein Hspa1a and Hspa1b were elevated in Sox17+/- livers at 17dpc, as compared with the wildtype livers. Total RNAs from liver tissues of wildtype and Sox17+/- mice at 17dpc were subjected to microarray analyses. Two biological replicates of each genotype were analyzed.

Project description:In this study we employed a label-free global proteomics approach, with a sensitivity of over 10k quantified proteins per sample, to determine contributions of different compensatory mechanisms upon the proteasome inhibition with carfilzomib - in cells of multiple myeloma, normal fibroblasts and cancers of lung, colon and pancreas. We identified several responding pathways, while the main HSP70 family stress inducible molecular chaperones HSPA1A and HSPA1B (often addressed jointly as HSPA1A/B or simply “Hsp70”, due to nearly identical protein sequences) were the most universal proteasome inhibition responders in proteomes of all the studied cell types. Further overlap of differential proteomics with RNA-seq analysis obtained at the same condions (DMSO control vs carfilzomib treatment) and a subsequent validation showed that the proteasome inhibition-dependent induction of HSPA1A/B and other chaperone proteins in cancer cells is in fact transcription-driven.

Project description:RP11-115N4.1 was identified as the most differentially expressed lncRNA which was highly upregulated in peripheral blood of non-pregnant URSA patients (P = 3.63E-07, Fold change = 2.96),andthis dysregulation was further validated in approximately 26.7% additional patients (4/15). RP11-115N4.1 expression was detected in both lymphocytes and monocytes of human peripheral blood, andin vitro overexpression of RP11-115N4.1 decreased cell proliferation in K562 cellssignificantly. Furthermore, heat-shock HSP70 genes (HSPA1A and HSPA1B) were found to be significantly upregulated upon RP11-115N4.1 overexpression by transcriptome analysis (HSPA1A (P = 4.39E-08, Fold change = 4.17), HSPA1B (P = 2.26E-06, Fold change = 2.99)).RNApull down and RNA immunoprecipitation assay (RIP) analysis demonstrated that RP11-115N4.1 bound to HNRNPH3 protein directly, which in turn activateheat-shock proteins (HSP70) analyzed by protein-protein interaction and HNRNP` knockdown assays. Most importantly,the high expression of HSP70 was also verified in the serum of URSA patients and the supernatant of K562 cells with RP11-115N4.1 activation, andHSP70 in supernatant can exacerbate inflammatory responses in monocytes by inducing IL-6, IL-1β and TNF-α and inhibit the migration of trophoblast cells, which might associate with URSA.

Project description:To further identify the underlying mechanisms of HSF1 in LN metastasis, we performed genome-wide RNA expression profile screening in which we compared gene expression profiles in HSF1-knockdown and control T24 cells To further identify the underlying mechanisms of HSF1 in LN metastasis, we performed genome-wide RNA expression profile screening in which we compared gene expression profiles in HSF1-knockdown and control UM-UC-3 cells

Project description:Genome-wide analysis of gene expression in bladder cancer cell lines 253JB-V and UM-UC13 exposed to bortezomib

Project description:Genome-wide DNA methylation profiling of parental (native) and 3-bromopyruvate-resistant UM-UC-3 bladder cancer cells. The Illumina Infinium 450k Human DNA methylation Beadchip v1.2 was used to obtain DNA methylation profiles across approximately 450,000 CpGs in treatment-naive and 3-bromopyruvate-resistant UM-UC-3 bladder cancer cells.

Project description:This study shows for the first time that the FOXP3Δ3 isoform is preferentially expressed in bladder cancer and induces a more aggressive and luminal isoform is preferentially expressed in bladder cancer and induces a more aggressive and luminal regulation of cancer differentiation and the plasticity amongst cancer subtypes which can be leveraged to optimize therapeutic regimens. These findings also identify a novel molecular marker as a putative companion diagnostic to guide therapy and target to undermine chemotherapy resistance. examination of RNA-Seq in two bladder cancer cell lines

Project description:Bladder cancer stem cells (CSCs) contribute to tumorigenesis, recurrence and chemoresistance of bladder cancer. However, the molecular mechanisms underlying their self-renewal are poorly unknown. Long noncoding RNAs (lncRNAs) act as crucial regulators in a lot of human cancers, yet their potential roles and molecular mechanisms in bladder CSCs are poorly understood. The goal of this study is to identify the differentially expressed lncRNAs in bladder CSCs (UM-UC-3 4th spheres), its two differentiation sublines and bladder non-CSCs (UM-UC-3). Our study reveals that deregulation of lncRNAs is involved in the bladder CSCs.