Therapeutic potential of parkin as a tumor suppressor via transcriptional control of cyclins in glioblastoma cell and animal models.

Parkin (PK) is an E3-ligase harboring tumor suppressor properties that has been associated to various cancer types including glioblastoma (GBM). However, PK is also a transcription factor (TF), the contribution of which to GBM etiology remains to be established. The impact of PK on GBM cells proliferation was analyzed by real-time impedance measurement and flow cytometry.

The human WNT5A isoforms display similar patterns of expression but distinct and overlapping activities in normal human osteoblasts.

WNT5A activates noncanonical Wnt signaling pathways and has critical functions in early development, differentiation, and tissue homeostasis. Two major WNT5A protein isoforms, which in this study we term WNT5A-L(A) and WNT5A-S(B), have been identified that differ by 18 AA at their amino terminus. Functional differences between the isoforms have been indicated in studies utilizing cancer cell lines but the activities of the isoforms in normal cells and during differentiation have not been explored.

Inactivation of the WNT5A Alternative Promoter B Is Associated with DNA Methylation and Histone Modification in Osteosarcoma Cell Lines U2OS and SaOS-2.

WNT5A is a secreted ligand involved in Wnt pathway signaling and has a role in cell movement and differentiation. Altered WNT5A expression is associated with various cancers, although in most studies the focus has been on only one of the known WNT5A isoforms. In this study, we analyzed expression from two of the major WNT5A promoters, termed promoter A and promoter B, in normal human osteoblasts, SaOS-2 and U2OS osteosarcoma cell lines, and osteosarcoma tumor tissue.

Differential regulation of the mouse and human Wnt5a alternative promoters A and B.

Wnt5a is an extracellular glycoprotein that activates Wnt signaling pathways, important in development and tissue homeostasis. Wnt5a expression is often misregulated during cancer progression. In this study, we analyzed the transcriptional regulation of two of the Wnt5a alternative promoters, termed A and B.

Effects of various polyphenolics on hydrogen peroxide-induced p53 activity in NIH3T3 cells.

A cell-based assay system was developed to evaluate the potential antioxidant and pro-oxidant effects of various dietary polyphenolic compounds based on the induction of p53 activity by hydrogen peroxide. A p53-luciferase reporter vector was stably transfected into NIH3T3 cells. Individual clones were isolated, and one clone (number 33) was selected that showed the highest induction levels with different generators of free radicals.

Folate deficiency in normal human fibroblasts leads to altered expression of genes primarily linked to cell signaling, the cytoskeleton and extracellular matrix.

The molecular basis linking folate deficiency to certain health conditions and developmental defects is not fully understood. We examined the consequences of folate deficiency on global gene expression by microarray and compared transcript levels in normal human fibroblast cells (GM03349) grown in folate-deficient and -sufficient medium. The largest represented groups from the selected genes functioned in cell signaling, the cytoskeleton and the extracellular matrix and included the Wnt pathway genes DKK1, WISP1 and WNT5A.

Relative ability of dietary compounds to modulate nuclear factor-kappaB activity as assessed in a cell-based reporter system.

The ability of various dietary compounds to modulate the activity of the transcription factor nuclear factor kappaB (NF-kappaB) was examined using a cell-based reporter system. NF-kappaB is central to the response of cells to stress and has been linked to cancer. HCT 116 (human colon carcinoma) and HepG2 (human liver carcinoma) cell lines were stably transfected with a NF-kappaB luciferase reporter vector.

Cell cycle specific changes in the human cyclin B1 gene regulatory region as revealed by response to trichostatin A.

The human cyclin Bl gene is cell cycle regulated with maximal activity during G(2)/M. We examined the role of histone deacetylation in cyclin Bl regulation using the histone deacetylase inhibitor trichostatin A (TSA). TSA treatment (100 ng/ml) of NIH3T3 cells containing the luciferase reporter construct pCycB(-287)-LUC caused an increase in promoter activity in G(0) and G(1) but no significant change in G(2).

Cyclin b1 promoter activity and functional cdk1 complex formation in G1 phase of human breast cancer cells.

Overexpression of cyclin B has been detected in various human breast cancer cell lines, breast tumor tissues, and immortalized but nontransformed breast cells. The cause of this overexpression has not been thoroughly investigated, nor is it known if cyclin B protein forms a functional complex with its partner, cdk1, at inappropriate cell cycle periods. In this study we examined the pattern of cyclin B1 promoter activity in three breast cancer cell lines, BT-549, MDA-MB-157, T-47D, and the immortalized breast cell line MCF-10F.

Inverse regulation of cyclin B1 by c-Myc and p53 and induction of tetraploidy by cyclin B1 overexpression.

We have shown previously that mitotic spindle inhibitors allow the c-Myconcoprotein to uncouple mitosis from DNA synthesis, resulting in the acquisition of tetraploidy. This can also occur in the absence of spindle inhibition if c-Myc deregulation is combined with inactivation of the p53 tumor suppressor. Under these conditions, cyclin B1 protein is induced but retains its normal cell cycle regulation.

Mechanisms of G2 arrest in response to overexpression of p53.

Overexpression of p53 causes G2 arrest, attributable in part to the loss of CDC2 activity. Transcription of cdc2 and cyclin B1, determined using reporter constructs driven by the two promoters, was suppressed in response to the induction of p53. Suppression requires the regions -287 to -123 of the cyclin B1 promoter and -104 to -74 of the cdc2 promoter.

Modifications in protein binding to upstream sequences of the sea urchin cytoplasmic actin gene CyIIa in comparison to its linked neighbors, CyI and CyIIb.

The sequences corresponding to regions upstream of the ATG and transcription start site of the CyIIa cytoplasmic actin gene of the sea urchin Strongylocentrotus purpuratus were determined and compared to the genomically linked CyI and CyIIb actin genes. Sites of protein-DNA interaction in the CyIIa upstream sequences were identified by DNase I footprinting. The similarity between CyIIa and CyI (and CyIIb) upstream sequences was limited and included a consensus octamer sequence, serum response element (SRE) and some short sequences within the proximal promoter region.

Differential response of the human cyclin B1 promoter to inhibitors of the cell cycle in NIH3T3 cells.

In this study, NIH3T3 cells stably transfected with a cyclin B1-luciferase reporter vector were utilized to investigate if cyclin B1 promoter activity is linked to either DNA replication or the activities of various cyclin-cyclin dependent kinases (cdks). Synchronized cells treated at the time of serum re-stimulation with 2 micrograms/ml of the DNA synthesis inhibitor, aphidicolin, did not display an increase in luciferase activity in comparison to control cells. When treated with aphidicolin during S phase, luciferase activity decreased.

Cyclin-dependent kinase activation and S-phase induction of the cyclin B1 gene are linked through the CCAAT elements.

Control of cell proliferation is dependent on the regulated expression of the cyclin genes. Induction of cyclin B1 gene expression in S phase has been shown to require sequences within the first 90 bp of the proximal promoter region. In this study, we defined the cell cycle regulatory elements within this region and explored the mechanism by which the cyclin B1 gene is activated.

Expression of ceruloplasmin gene in human and rat lymphocytes.

The acute phase plasma protein ceruloplasmin (Cp) appears to play some role in host defense. The possibility that production of Cp in extrahepatic sites may also be essential for the activation, effector functions and cytoprotection of immune cells in localized environments has received minimal attention. Here, we have surveyed various types of human and rat immune cells for the presence of Cp mRNA using RT-PCR with primers that span exons 17-19 as an initial step in addressing this possibility.

Promoter binding factors regulating cyclin B transcription in the sea urchin embryo.

Cyclin B is a key regulatory protein of the cell cycle, central to the control of the G2/M transition. In the developing sea urchin embryo, the cyclin B gene is transcriptionally regulated in concert with changing patterns of cell division. In an effort to understand the mechanism controlling cyclin B expression during development, we have conducted an analysis of the Strongylocentrotus purpuratus cyclin B gene promoter.

Spatial Pattern of Expression of Cyl Actin-β-Galactosidase Fusion Genes injected into Sea Urchin Eggs.

The Cyl actin gene of the sea urchin Strongylocentrotus purpuratus displays a pattern of expression that is correlated with cell division; the gene is initially activated in all cells of the early blastula stage embryo, but after 18 hours Cyl actin transcripts disappear from the aboral ectoderm at a time when these cells are withdrawing from the cell cycle. As part of our investigation of the transcriptional regulation of Cyl, we tested various Cyl-β-gal fusion genes for their spatial pattern of expression by microinjection into fertilized eggs of the sea urchin, Lytechinus pictus. The plasmid Cyl-β-gal containing 2.

Analysis of the DNA binding proteins interacting with specific upstream sequences of the S. purpuratus CyI actin gene.

The CyI actin gene of the sea urchin, Strongylocentrotus purpuratus, is regulated temporally and spatially within the cells of the early embryo. In an effort to understand the molecular basis for the CyI actin pattern of expression, we have begun analyzing the protein-DNA interactions within regions previously shown to be of potential functional importance (Katula et al., 1987).

Ontogenic expression of a CyI actin fusion gene injected into sea urchin eggs.

The 5' terminus of the CyI actin gene transcription unit of Strongylocentrotus purpuratus was located by primer extension and other procedures, and the flanking upstream region was partially sequenced and mapped. A fusion gene was constructed containing about 2.5 kb of 5' flanking sequence, the transcribed leader sequence, and the first few codons of the CyI gene ligated to the bacterial gene coding for chloramphenicol acetyl transferase (CAT).

Persistence and integration of cloned DNA in postembryonic sea urchins.

Cloned DNA was injected into the cytoplasm of unfertilized sea urchin eggs which were then fertilized and cultured in the laboratory through metamorphosis. The exogenous DNA replicated manyfold and persisted for weeks in a majority of growing larvae, as shown by hydridizing "dot blots" of the DNA of single individuals with appropriate labeled probes. After metamorphosis 5-15% of the juvenile sea urchins retained the exogenous sequences.

Introduction of cloned DNA into sea urchin egg cytoplasm: replication and persistence during embryogenesis.

Cloned DNA sequences were introduced into the cytoplasm of unfertilized sea urchin eggs by a simple microinjection technique. Sperm was then added, and development allowed to proceed. If linearized plasmids are injected they form random concatenates, and during the early development of the embryos replicate repeatedly.

High mobility group nonhistone chromosomal proteins of the developing sea urchin embryo.

The high mobility group or HMG proteins are nonhistone chromosomal proteins that have been found in relatively high amounts in nuclei of many tissues. A number of studies have shown that some of these proteins are preferentially associated with actively transcribed regions of the genome and may play a role in maintaining these regions in an active state. In this study, we undertook an investigation of the high mobility group proteins from the sea urchin, Stronglyocentrotus purpuratus.

mRNA populations during wing development in the silkmoth Antheraea polyphemus.

Pupal wing tissue of the American silkmoth Antheraea polyphemus has been used as a model system to study 20-hydroxyecdysone and juvenile hormone control of cuticle protein synthesis. Juvenile hormone does not affect either the content or rate of synthesis of RNA and protein of the wing tissue. both of which show linear increases during the first few days of hormonal treatment.

DNA-dependent RNA polymerase activity in silkmoth-wing epidermis after hormone treatment.

DNA-dependent RNA polymerase activity of wing epidermal tissue from the silkmoth, Antheraea polyphemus, has been studied after treatment of pupae with either molting hormone 20-hydroxyecdysone or 20-hydroxyecdysone and juvenile hormone. Enzyme activity has been measured both on endogenous template in isolated nuclei and on exogenous template after solubilization and correlated with transcriptional activity measured as the incorporation of [3H]uridine into RNA. Within 4 h of either hormonal regimen, increases in nuclear transcriptional activity for enzymes I and II are observed.