Project description:The gene encoding the aquaporin-2 water channel is regulated transcriptionally in response to vasopressin. In the renal collecting duct, vasopressin stimulates the nuclear translocation and phosphorylation (at Ser552) of β-catenin, a multifunctional protein that can act as a transcriptional co-regulator in the nucleus. The purpose of this study was to identify β-catenin interacting proteins in nuclei of rat inner medullary collecting duct (IMCD) cells using both experimental and computational approaches. We used chromatin immunoprecipitation coupled to mass spectrometry (ChIP-MS) in nuclei isolated from rat IMCD suspensions to identify β-catenin interacting proteins. We reproducibly (n=4) identified 43 β-catenin binding proteins, which included a number of known β-catenin binding partners as well as novel interacting proteins. Multiple proteins involved in transcriptional regulation were identified (Taf1, Jup, Tdrd3, Cdh1, Cenpj, and several histones). Many of the identified β-catenin binding partners were found in prior studies to translocate to the nucleus in response to vasopressin. There was one DNA-binding transcription factor (TF), viz. Taf1, part of the RNA-polymerase II pre-initiation complex. To identify sequence-specific TFs that may interact with β-catenin but are expressed at abundance levels too low to be detected by MS, Bayes’ Theorem was used to integrate data from several information sources. The analysis identified several TFs with potential binding sites in the Aqp2 gene promoter that could interact with β-catenin in the regulation of Aqp2 gene transcription viz. Jun, Junb, Jund, Atf1, Atf2, Mef2d, Usf1, Max, Pou2f1, and Rxra. The findings provide information necessary for modeling the transcriptional response to vasopressin.

Project description:Regulation of renal water excretion is dependent on control of the molecular water channel aquaporin‐2 by the peptide hormone vasopressin in renal collecting duct cells. The control is in part due to the regulation of transcription of the Aqp2 gene and other genes by vasopressin. A systems biology‐based approach to understanding transcriptional control in renal collecting duct cells depends on knowledge of what transcription factors and other regulatory proteins are present in the cells' nucleus. The goal of this paper is to report comprehensive proteomic profiling of nuclear proteins in native inner medullary collecting duct (IMCD) cells of the rat. Multi‐dimensional separation procedures and state‐of‐the art protein mass spectrometry allowed the high stringency identification of a total of 5105 proteins in nuclear pellet (NP) and nuclear extract (NE) fractions of biochemically isolated rat IMCD cells (URL: https://helixweb.nih.gov/ESBL/Database/IMCD_Nucleus/)*. The analysis identified 369 transcription factor proteins out of the 1371 transcription factors coded by the rat genome. The analysis added 1898 proteins to the recognized proteome of rat IMCD cells, now amounting to 7003 unique proteins. Analysis of samples treated with the vasopressin analog dDAVP (1 nM for 30min) or its vehicle revealed 99 proteins in the NP fraction and 88 proteins in the NE fraction with significant changes in spectral counts (Fisher Exact Test, P<0.005). Among those altered by vasopressin were 7 distinct histone proteins all of which showed decreased abundance in the NP fraction, consistent with a possible effect of vasopressin to induce chromatin remodeling.

Project description:miRNA plays a role as post-transcriptional regulator. However, miRNAs in the kidney collecting duct cell have not been well understood. So we aimed to profile miRNAs in the kidney inner medullary collecting duct (IMCD) cells, and to identify the vasopressin-responsive miRNAs in the kidney IMCD cells. The microarray assay revealed that relative expression of miRNAs in the kidney IMCD cells was changed by desmopressin (dDAVP) stimulation.

Project description:miRNA plays a role as post-transcriptional regulator. However, miRNAs in the kidney collecting duct cell have not been well understood. So we aimed to profile miRNAs in the kidney inner medullary collecting duct (IMCD) cells, and to identify the vasopressin-responsive miRNAs in the kidney IMCD cells. The microarray assay revealed that relative expression of miRNAs in the kidney IMCD cells was changed by desmopressin (dDAVP) stimulation. Fresh IMCD tubules were prepared from rat kidney and incubated in the medium in the absence or presence of dDAVP (1 nM, 2 h). Total RNA purified from IMCD tubules was used to analyze miRNA expression by GeneChipM-BM-. miRNA 3.0 Array (Affymetrix).

Project description:The present study evaluated the effects of a repeated-dose exposure of environmentally relevant BPA concentrations during the in vitro 3D neural induction of human induced pluripotent stem cells (hiPSCs), emulating a chronic exposure scenario. Quantitative proteomics at D21 revealed several differentially abundant proteins across all BPA-treated groups with important functions in NSC proliferation and maintenance.

Project description:Vasopressin controls water excretion by regulating the water channel protein, aquaporin 2. Vasopressin acts in the renal collecting duct by binding to a G-protein coupled receptor and activating protein kinase A (PKA). Signaling events beyond PKA are largely unknown. Ultra-deep phosphoproteomic analysis of collecting duct cells isolated from rat kidneys identified and quantified 10,738 phosphorylation sites. Vasopressin significantly altered the abundance of only 219 of these phosphorylation sites, suggesting a highly selective effect on cell signaling. The regulated sites were mapped to cellular processes shown in prior studies to be involved in aquaporin-2 regulation. The mapping and full data set was used to create an online data resource to guide future studies.

Project description:cis-antisense RNAs (cis-asRNAs) in prokaryotes are more pervasive than originally thought. However, little is known about their expression patterns and functions. Here we determined transcriptomes and proteomes of E. coli at multiple time points in five culture conditions using directional RNA-seq and tandem mass spectrometry. We found that a highly varying portion (27.2%~90.8%) of transcribed genes had cis-asRNAs dependent on growth phases and culture conditions, and that almost all transcribed genes changed their cis-asRNA levels relative to the mRNA level at different growth phases and culture conditions. Intriguingly, the correlation between the protein and mRNA levels of genes is abolished the increasing cis-asRNA levels relative to the mRNA levels, suggesting that cis-asRNAs might directly or indirectly inhibit translation by forming duplexes with mRNAs. All data sets are available for data mining from a unified resource to support further biological discoveries and insights into cis-asRNA-mediated gene expressional regulation.

Project description:Castleman disease is polyclonal lymphoproliferative disorder characterized by unicentric or multicentric lymphadenopathy with characteristic histomorphologic features, in addition to variable inflammatory symptomatology. The molecular mechanisms and etiologies of unicentric Castleman disease (UCD) and idiopathic multicentric Castleman disease (iMCD) are poorly understood, and identification of targetable disease mediators remains an unmet clinical need. We performed whole exome sequencing on lymph node biopsies from patients with UCD and iMCD; and compared the transcriptomic profile to that of benign control lymph nodes. We identified significantly upregulated genes in UCD (443), iMCD (316) or both disease subtypes (51); in addition to downregulated genes in UCD (321), iMCD (105) or both (10). The transcriptomes of UCD and iMCD showed enrichment and upregulation of elements of the complement cascade. By immunohistochemistry, C4d deposits indicative of complement activation were present in UCD and iMCD mostly within abnormally regressed germinal centers, but also in association with plasma cell clusters, endothelial cells and stroma cells proliferations. Other enriched gene sets included collagen organization, S1P3 pathway and VEGFR pathway in UCD; and humoral response, oxidative phosphorylation and proteosome in iMCD. Analysis of cytokine transcripts showed upregulation of CXCL13 but not IL-6 in UCD and iMCD. Among angiogenic mediators, the VEGFR1 ligand placental growth factor (PGF) was upregulated in both disease subtypes. We hereby report for the first time the whole lymph node transcriptome of UCD and iMCD, underscoring findings that could aid in the discovery of targetable disease mediators.

Project description:Identification of gene expressed in the enriched inner medullary collecting duct cells in rat. Experiment Overall Design: Rat inner medullary collecting duct (IMCD) cells were isolated from 7 male Sprage-Dawley rats by collagenase and hyaluronidase digestion and follow by low speed centrifugation. The non-IMCD cells were collected by centrifugation of supernatant of enriched IMCD samples. Experiment Overall Design: Total RNA about 3 ug were used per microarray (Rat 230 2.0 Genechip array). Experiment Overall Design: The experiments were repeat 3 times (3 pairs of IMCD VS non-IMCD)

Project description:Early embryonic development represents a sensitive time-window during which the foetus might be highly vulnerable to the exposure of environmental contaminants, potentially leading to heart diseases also later in life (Developmental Origins of Health and Disease (DOHaD) concept). Bisphenol A (BPA), a synthetic chemical widely used in plastics manufacturing, has been associated with heart developmental defects, even in low concentrations. This study aims to investigate the effects of environmentally relevant doses of BPA on developing cardiomyocytes using a human induced pluripotent stem cell (hiPSC)-derived model.