Upregulation of TPX2 by STAT3: identification of a novel STAT3 binding site.

TPX2, a protein involved in mitosis, is considered a good marker for actively proliferating tissues, highly expressed in a number of cancer cells. We show the presence of high-affinity binding site for STAT3 in the 5'-flanking region of the Tpx2 gene, which is in vivo bound by activated STAT3. A specific STAT3 peptide inhibitor represses the expression of the Tpx2 gene and inhibits the binding of STAT3 to its consensus sequence in human cell lines where STAT3 is activated.

The binding of silibinin to ERp57.

The flavonoid silibinin is known to intervene in many cellular processes involved in a variety of pathologies, thus appearing a promising therapeutic tool. The molecular mechanisms responsible for these activities, however, have not been clearly defined, and although some of its interactions with proteins have been identified, the relative affinities are often too low to appear relevant in vivo. Here we describe the interaction of silibinin with the protein disulfide isomerase ERp57, characterized by a submicromolar dissociation constant.

The protein ERp57 contributes to EGF receptor signaling and internalization in MDA-MB-468 breast cancer cells.

The disulfide isomerase ERp57 is a soluble protein mainly located in the endoplasmic reticulum, where it acts in the quality control of newly synthesized glycoproteins, in association with calreticulin and calnexin. It has been also detected in other cell compartments, such as the cytosol, the plasma membrane and the nucleus. In these locations it is implicated in various processes, participating in the rapid response to calcitriol, modulating the activity of STAT3 and being requested for the pre-apoptotic exposure of calreticulin on the plasma membrane.

ERp57/GRP58: a protein with multiple functions.

The protein ERp57/GRP58 is a stress-responsive protein and a component of the protein disulfide isomerase family. Its functions in the endoplasmic reticulum are well known, concerning mainly the proper folding and quality control of glycoproteins, and participation in the assembly of the major histocompatibility complex class 1. However, ERp57 is present in many other subcellular locations, where it is involved in a variety of functions, primarily suggested by its participation in complexes with other proteins and even with DNA.

Role of ERp57 in the signaling and transcriptional activity of STAT3 in a melanoma cell line.

Chromatin immunoprecipitation in M14 melanoma cells showed that the protein ERp57 (endoplasmic reticulum protein 57) binds to DNA in the proximity of STAT3 in a subset of STAT3-regulated genes. In the same cells, IL-6 induced a significant increase of the expression of one of these genes, i.e.

IFI16 and NM23 bind to a common DNA fragment both in the P53 and the cMYC gene promoters.

In the melanoma M14 cell line, we found that the antimetastatic protein NM23/nucleoside diphosphate kinase binds to the promoters of the oncogene cMYC and of P53, a gene often mutated in human cancer (Cervoni et al. [2006] J. Cell.

The binding of antibiotics to ERp57/GRP58.

The effects of five antibiotics, previously described as ligands of protein disulfide isomerase PDI, have now been studied on the homologous protein ERp57. They bind to this protein with much higher affinity than to PDI, and some of them inhibit the reductase and the DNA-binding activities of ERp57. In view of the high affinity of vancomycin, erythromycin and streptomycin, some effects of their interaction with this protein might be expected in vivo.

The stress protein ERp57/GRP58 binds specific DNA sequences in HeLa cells.

The protein ERp57/GRP58 is a member of the protein disulfide isomerase family and is also a glucose-regulated protein, which, together with the other GRPs, is induced by a variety of cellular stress conditions. ERp57/GRP58 is mainly located in the endoplasmic reticulum (ER), but has also been found in the cytoplasm and in the nucleus, where it can bind DNA. In order to identify a possible correlation between the stress-response and the nuclear location of ERp57/GRP58, its binding sites on DNA in HeLa cells have been searched by chromatin immunoprecipitation and cloning of the immunoprecipitated DNA fragments.

Cooperative activity of Ref-1/APE and ERp57 in reductive activation of transcription factors.

ERp57, a protein disulfide isomerase localized mainly in the endoplasmic reticulum, has also been found in lesser amounts in the cytosol and nucleus, where its function is still not characterized. We report here that ERp57 displays affinity for Ref-1, a protein involved in DNA repair as well as in the reduction and activation of transcription factors. Immunoprecipitation experiments showed that Ref-1 and ERp57 also interact in vivo in at least three types of cultured human cells, namely HepG2, M14, and Raji.

DNA sequences acting as binding sites for NM23/NDPK proteins in melanoma M14 cells.

We isolated and analyzed by chromatin immunoprecipitation (ChIP) in viable M14 cells DNA sequences bound to the antimetastatic protein nucleoside diphosphate kinase (NM23/NDPK) to shed some light on the nuclear functions of this protein and on the mechanism by which it acts in development and cancer. We assessed the presence of selected sequences from promoters of platelet-derived growth factor A (PDGF-A), c-myc, myeloperoxidase (MPO), CD11b, p53, WT1, CCR5, ING1, and NM23-H1 genes in the cross-linked complexes. Quantitative PCR (Q-PCR) showed a substantial enrichment of the correlated oncosuppressor genes p53, WT1, ING1, and NM23-H1 in the immunoprecipitated (IP) DNA.

ERp57 is present in STAT3-DNA complexes.

STAT3 has been found constitutively activated in M14 melanoma cell line, as previously found in other melanoma cells. Using EMSA, DNA affinity experiments, and chromatin immunoprecipitation, STAT3 was found in M14 to bind the alpha2-macroglobulin gene enhancer in association with the protein disulfide isomerase isoform ERp57. The two proteins have also been found to be associated when bound to the SIE sequence in HepG2 cells stimulated by IL-6.

HP1 controls telomere capping, telomere elongation, and telomere silencing by two different mechanisms in Drosophila.

HP1 is a conserved chromosomal protein, first discovered in Drosophila, which is predominantly associated with the heterochromatin of many organisms. Recently, it has been shown that HP1 is required for telomere capping, telomere elongation, and transcriptional repression of telomeric sequences. Several studies have suggested a model for heterochromatin formation and epigenetic gene silencing in different species that is based on interactions among histone methyltransferases (HMTases), histone H3 methylated at lysine 9 (H3-MeK9), and the HP1 chromodomain.

In vivo cross-linking of nm23/nucleoside diphosphate kinase to the PDGF-A gene promoter.

Human isoforms A and B of nm23/nucleoside diphosphate (NDP) kinase, functionally important in development and cancer, have been reported to bind to DNA, and in particular isoform A to the PDGF-A promoter and isoform B to the c-myc promoter and to telomeric repeats. However, no direct proof of the binding in vivo has yet been obtained. To demonstrate this interaction, human erythroleukemic K562 cells were incubated with two different cross-linking reagents, formaldehyde or cis-diammine dichloro platinum H.

Proteins of the PDI family: unpredicted non-ER locations and functions.

Protein disulfide isomerases (PDIs) constitute a family of structurally related enzymes which catalyze disulfide bonds formation, reduction, or isomerization of newly synthesized proteins in the lumen of the endoplasmic reticulum (ER). They act also as chaperones, and are, therefore, part of a quality-control system for the correct folding of the proteins in the same subcellular compartment. While their functions in the ER have been thoroughly studied, much less is known about their roles in non-ER locations, where, however, they have been shown to be involved in important biological processes.

The DNA-binding activity of protein disulfide isomerase ERp57 is associated with the a(') domain.

ERp57 belongs to the protein disulfide isomerases, a family of homologous proteins mainly localized in the endoplasmic reticulum and characterized by the presence of a thioredoxin-like folding domain. ERp57 is a protein chaperone with thiol-dependent protein disulfide isomerase and additional activities and recently it has been shown to be involved, in cooperation with calnexin or with calreticulin, in the correct folding of glycoproteins. However, we have demonstrated that the same protein is also present in the nucleus, mainly associated with the internal nuclear matrix fraction.

Nuclear localization and DNA interaction of protein disulfide isomerase ERp57 in mammalian cells.

Protein disulfide isomerase ERp57 is localized predominantly in the endoplasmic reticulum, but is also present in the cytosol and, according to preliminary evidence, in the nucleus of avian cells. Conclusive evidence of its nuclear localization and of its interaction with DNA in vivo in mammalian cells is provided here on the basis of DNA-protein cross-linking experiments performed with two different cross-linking agents on viable HeLa and 3T3 cells. Nuclear ERp57 could also be detected by immunofluorescence in HeLa cells, where it showed an intracellular distribution clearly different from that of an homologous protein, located exclusively in the endoplasmic reticulum.

Immunoprecipitation of DNA-protein complexes cross-linked by cis-diamminedichloroplatinum.

For the study of in vitro and in vivo DNA-protein interactions, cross-linking reactions driven by UV or formaldehyde have been frequently used, followed by standard protocols of immunoprecipitation and analysis of the DNA isolated from the complexes. Here we present a basically modified method to analyze the DNA-protein cross-linked complexes obtained by an alternative cross-linking reagent. The innovations presented here include cross-linking by cis-diamminedichloroplatinum II, a fast method to isolate DNA-protein complexes using gel-filtration chromatography, and a modified procedure to obtain specific immunocomplexes that can be analyzed either for DNA or for protein content.

DNA-protein cross-linking in nuclei of immature and mature chicken erythrocytes.

DNA-protein cross-linkages were formed in isolated nuclei from immature and mature chicken erythrocytes by reaction with cis-diammine dichloroplatinum. On the basis of electrophoretic behaviour, the most abundant proteins involved in the cross-linking appeared to be present also in preparations of nuclear matrix. The maturation of the erythrocyte, which is accompanied by transcriptional inactivation, leads to a decrease in the amount of DNA-interacting proteins, to a loss of proteins capable of a specific recognition of DNA sequences and, unexpectedly, to the appearence of some new DNA-protein interactions.

Binding of the protein disulfide isomerase isoform ERp60 to the nuclear matrix-associated regions of DNA.

Protein ERp60, previously found in the internal nuclear matrix in chicken liver nuclei, is a member of the protein disulfide isomerase family. It binds DNA and double helical polynucleotides in vitro with a preferential recognition toward the matrix-associated regions of DNA and poly(dA) x poly(dT), and its binding is inhibited by distamycin. ERp60 can be cross-linked chemically to DNA in the intact nuclei, suggesting that its association with DNA is present in vivo.

Cross-linked telomere-protein complexes from chicken erythrocyte nuclei: isolation by a new procedure.

DNA-protein cross-linkages were produced in intact nuclei of chicken erythrocytes by the action of cis-diammine dichloroplatinum. The telomeric DNA-protein cross-linked complexes were then isolated by hybridization with a biotinylated oligonucleotide and selective binding on immobilized streptavidin. Two main nonhistone proteins were present in the purified complexes, migrating in SDS-gel electrophoresis with apparent molecular masses of 66 and 58 kDa, respectively.

Glycosylation of RNA polymerase II from wheat germ.

RNA polymerase II from wheat germ was analyzed for the presence of sugars. The two largest subunits and the 27 and 25 kDa subunits were found to be glycosylated by a variety of sugars. However, no N-acetylglucosamine was detected, which was found by Kelly et al.

Comparison of DNA-protein interactions in intact nuclei from avian liver and erythrocytes: a cross-linking study.

DNA-protein cross-linkages were formed in intact nuclei of chicken erythrocytes and liver cells by the action of cis-diammine dichloroplatinum (II). Most cross-linked proteins were components of the nuclear matrix, and their heterogeneity reflected the different complexity of liver and erythrocytes matrices, respectively. Some basic proteins, including histones, were also cross-linked, particularly in erythrocyte nuclei.

Nuclear matrix localization of annexin V in chicken liver.

Fractionation of internal matrix proteins from chicken liver nuclei led to the isolation of a 32 kDa protein which was identified by partial amino acid sequence and immunological analysis as annexin V, an unreported nuclear matrix component. Our results showed that this protein is preferentially associated with the internal nuclear matrix fraction, since this is the only nuclear fraction where the protein can be immunodetected. Immunostaining on cultured cells also revealed a nuclear distribution with the exclusion of the nucleolar compartment and an association with cytosolic filamentous structures most likely corresponding to the cytoskeleton.

Influence of the carbohydrate moiety on the stability of glycoproteins.

To study the role of oligosaccharides on the properties of glycoproteins, five glycoproteins (yeast external invertase, bovine serum fetuin, glucoamylase from Aspergillus niger, and chicken egg white ovotransferrin and avidin) of previously established glycan patterns were purified to homogeneity and deglycosylated with endo- and exo-glycosidases in native conditions. Thermal stability and conformational changes were measured by high-resolution differential scanning microcalorimetry and circular dicroism spectroscopy before and after they were deglycosylated. It was found that deglycosylation decreases protein thermal stability, as judged by the decrease in denaturation temperature and denaturation enthalpy, while it does not affect substantially the conformation as indicated by the CD spectra in the far UV range.

Purification of a 60-kDa protein from chicken liver associated with the internal nuclear matrix and closely related to carboxylesterases.

A 60-kDa protein was purified from chicken liver internal nuclear matrix and its nuclear localization was confirmed by immunofluorescence analysis. Structural information acquired from sequence analysis of the intact protein and of fragments obtained from enzymatic and chemical cleavages strongly suggests that it belongs to the carboxylesterases family, even if with some very peculiar features. The N-terminal sequence of the 60-kDa protein is completely different from the other carboxylesterases, but is similar to a region that is normally internal to all mammalian esterase sequences and localized after the serine residue at the active site.