UNIPROT:P06889 - FACTA Search

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Transforming growth factor beta 1 (TGF beta 1) mRNA has previously been identified in human thyroid cells and this agent has been shown to inhibit DNA synthesis in thyroid cells of some other species. In normal human thyroid cells in primary culture, TGF beta 1 inhibited inconstantly the low basal DNA synthesis and strongly the stimulation of DNA synthesis by epidermal growth factor (EGF) and serum, and by thyroid-stimulating hormone (TSH) acting through cAMP. This inhibition, by TGF beta 1, of the TSH and cAMP-dependent DNA synthesis was associated with an inhibition of PCNA (proliferating cell nuclear antigen) synthesis. TGF beta 1 almost completely abolished the cAMP induced stimulation of iodide uptake and thyroperoxidase synthesis. It thus, like EGF, also acts as a dedifferentiating agent. Investigation of the pattern of protein synthesis by two-dimensional gel electrophoresis revealed that while TGF beta 1, by itself, increased the synthesis of only one protein, a tropomyosin isoform, it inhibited most of the effects of cAMP on protein synthesis (35 out of 45 cAMP-regulated proteins were affected). It also reversed the effect of cAMP on the morphology of the thyrocytes. The fact that TGF beta 1 did not affect the increase in cAMP provoked by TSH in human thyroid cells while inhibiting most of the effects of dibutyryl cAMP in these cells suggests an action at a step distal to cAMP generation.(ABSTRACT TRUNCATED AT 250 WORDS)
Mol Cell Endocrinol 1993 Sep
PMID:General inhibition by transforming growth factor beta 1 of thyrotropin and cAMP responses in human thyroid cells in primary culture. 790 4

We have recently shown that two proteins, proliferating cell nuclear antigen (PCNA) and p21, are associated with cyclin D. Here we show that PCNA and p21 are common components of a wide variety of cyclin/cyclin-dependent kinase complexes in nontransformed cells. These include kinase complexes containing cyclin A, cyclin B, and cyclin D, associated either with CDC2, CDK2, CDK4, or CDK5. We show that PCNA and p21 form separate quaternary complex with each cyclin/CDK and that these quaternary complexes contain a substantial, if not major, fraction of the cell cycle kinases in asynchronously growing cells. These results suggest that PCNA and p21 may perform a common function for all these kinases.
Mol Biol Cell 1993 Sep
PMID:Proliferating cell nuclear antigen and p21 are components of multiple cell cycle kinase complexes. 790 56

The determination of the structure of the processivity factor (beta subunit) of Escherichia coli DNA polymerase III holoenzyme showed that this protein acts to clamp the polymerase onto DNA by forming a closed circular structure that can encircle duplex DNA (X.-P. Kong, R. Onrust, M. O'Donnell & J. Kuriyan. (1992). Cell, 69, 425-437). In this review we describe the features of the beta subunit that allow it to be linked tightly but non-specifically to DNA, and discuss the surprisingly symmetrical architecture of the molecule. The simple repeating pattern of the chain fold allows a connection to be made to the as yet unknown structures of eukaryotic proliferating cell nuclear antigen and the gene 45 protein of bacteriophage T4, which are the processivity factors of the corresponding DNA polymerases.
J Mol Biol 1993 Dec 20
PMID:Sliding clamps of DNA polymerases. 790 1

Previous analyses defined a proliferating cell nuclear antigen (PCNA) E1A-responsive element (PERE) in the PCNA promoter that is essential for transactivation by the 243-residue product of the adenovirus type 2 E1A 12S mRNA (E1A 243R). In this report, we show that the PERE activates a heterologous basal promoter and confers susceptibility to transactivation by E1A 243R, indicating that the PERE is both necessary and sufficient for the response of the PCNA promoter to this oncoprotein. Insertion of linker sequences between the PERE and the site of transcription initiation in the PCNA promoter severely impairs the promoter's response to E1A 243R transactivation. GAL4 sites can replace the function of the PERE in the E1A 243R response of the PCNA basal promoter if transcriptional activators of suitable strength are supplied as GAL4 fusion proteins. Weak transcriptional activators render the PCNA basal promoter subject to transactivation by E1A 243R but do not endow the adenovirus E1B basal promoter with a similar response. Strong transcriptional activators do not support transactivation by E1A 243R, however; instead, E1A reduces the ability of the strong activators to activate both the PCNA and E1B basal promoters. Although other mechanistic differences might determine the response, the data imply a relationship between the activation strength of promoter-proximal effectors and the response of the PCNA basal promoter to E1A 243R. These experiments indicate that the PERE can function autonomously in mediating transactivation by E1A 243R and that the PCNA basal promoter is configured in a manner that permits modulation by E1A 243R of transcriptional activation by promoter-proximal effectors.
Mol Cell Biol 1994 Jan
PMID:Modulation of transcriptional activation of the proliferating cell nuclear antigen promoter by the adenovirus E1A 243-residue oncoprotein depends on proximal activators. 790 20

Using monoclonal antibodies against proliferating cell nuclear antigen or PCNA (PC10) and the Ki-67 antigen (MIB1), an immunohistochemical and morphometric study was performed on routinely processed splenic tissue from ten patients with primary (idiopathic) osteomyelofibrosis (OMF). To determine the proliferation capacity of erythroid precursors and the endoreduplicative activity of megakaryocytes, corresponding antibodies (Ret40f and CD61) were applied in combination with the cell-cycle markers (sequential double-immunostaining). Morphometric analysis revealed no significant differences in PCNA or Ki-67 reactivity in either cell lineages. In comparison with previous studies on normal bone marrow, in splenic tissue showing myeloid metaplasia, the numbers of PCNA-labelled proerythroblasts, erythroblasts and megakaryocytes were conspicuously increased. Considering the ineffective erythropoiesis in OMF, there seemed to be a disproportional enhancement in PCNA and Ki-67 immunostaining of the red cell lineage. Similarly, the small size of megakaryocytes in advanced, OMF-associated myeloid metaplasia was in keeping with an impairment of endoreduplicative activity. In addition to various other contributory factors, anaemia in OMF may be partially caused by secondary folate (haematinic) deficiency. From experimental studies this defect is known to cause an abnormal arrest in the S-phase of the cell-cycle, comparable to that characterising pernicious anaemia. As a sequel of this pathomechanism, an undue overexpression of PCNA and Ki-67 has to be assumed, that is not necessarily associated with DNA synthesis or cell cycling.
Virchows Arch B Cell Pathol Incl Mol Pathol 1993
PMID:Splenic haematopoiesis in primary (idiopathic) osteomyelofibrosis: immunohistochemical and morphometric evaluation of proliferative activity of erytro- and endoreduplicative capacity of megakaryopoiesis (PCNA- and Ki-67 staining). 790 16

Previously constructed Swiss mouse 3T3 fibroblasts producing polyomavirus large T antigen after addition of dexamethasone were used to study the transcriptional activation by the viral protein of five genes coding for enzymes involved in DNA synthesis and precursor production, namely, dihydrofolate reductase, thymidine kinase, thymidylate synthase, DNA polymerase alpha, and proliferating-cell nuclear antigen. It was found that all these genes, whose expression is stimulated at the G1/S boundary of the cell cycle after growth stimulation by serum addition, are coordinately trans activated when T antigen is induced in cells previously growth arrested by serum withdrawal. Cell lines carrying the information for a mutant form of large T antigen, in which a glutamic acid residue in the binding site for the retinoblastoma protein was changed into aspartic acid, were constructed to test the involvement of an interaction of T antigen with the retinoblastoma protein in this reaction. It was found that the mutated T protein is incapable of stimulating transcription of any one of the genes. The promoter of three of the genes (dihydrofolate reductase, thymidine kinase, and DNA polymerase alpha) unequivocally carries binding sites for transcription factor E2F, suggesting that complexes forming with this growth- and cell cycle-regulating transcription factor are the targets for T antigen. Although there is so far no evidence that thymidylate synthase and proliferating cell nuclear antigen are regulated via E2F, our data indicate that the retinoblastoma protein still is involved in the control of these genes. mRNA for E2F itself increases in amount at the G1/S border in serum-stimulated cells but not during polyomavirus T antigen-induced transcriptional activation of DNA synthesis enzymes in arrested cells.
Mol Cell Biol 1994 Mar
PMID:Coordinated trans activation of DNA synthesis- and precursor-producing enzymes by polyomavirus large T antigen through interaction with the retinoblastoma protein. 790 59

DNA damage frequently leads to the production of apurinic/apyrimidinic (AP) sites, which are presumed to be repaired through the base excision pathway. For detailed analyses of this repair mechanism, a synthetic analog of an AP site, 3-hydroxy-2-hydroxymethyltetrahydrofuran (tetrahydrofuran), has been employed in a model system. Tetrahydrofuran residues are efficiently repaired in a Xenopus laevis oocyte extract in which most repair events involve ATP-dependent incorporation of no more than four nucleotides (Y. Matsumoto and D. F. Bogenhagen, Mol. Cell. Biol. 9:3750-3757, 1989; Y. Matsumoto and D. F. Bogenhagen, Mol. Cell. Biol. 11:4441-4447, 1991). Using a series of column chromatography procedures to fractionate X. laevis ovarian extracts, we developed a reconstituted system of tetrahydrofuran repair with five fractions, three of which were purified to near homogeneity: proliferating cell nuclear antigen (PCNA), AP endonuclease, and DNA polymerase delta. This PCNA-dependent system repaired natural AP sites as well as tetrahydrofuran residues. DNA polymerase beta was able to replace DNA polymerase delta only for repair of natural AP sites in a reaction that did not require PCNA. DNA polymerase alpha did not support repair of either type of AP site. This result indicates that AP sites can be repaired by two distinct pathways, the PCNA-dependent pathway and the DNA polymerase beta-dependent pathway.
Mol Cell Biol 1994 Sep
PMID:Proliferating cell nuclear antigen-dependent abasic site repair in Xenopus laevis oocytes: an alternative pathway of base excision DNA repair. 791 6

Biopsy specimens (n = 61) from patients with chronic active hepatitis B and progressive fibrosis (n = 61) were studied immunohistochemically to obtain information about the histogenesis of neoductules. All the biopsies contained clusters of oval-shaped cells often arranged in the form of neoductular aggregates. These expressed cytokeratins 7 and 19 which in the normal liver are found only in bile duct and ductular epithelium but not in hepatocytes. Using monoclonal and polyclonal antibodies both hepatocytes and these oval neoductular cells were found to express HBs- and HBc-antigen in 15% and 20% of the biopsies, respectively. Taking into consideration the strong hepatocytotropism of the hepatitis B virus, the expression of HBV-antigens in neoductular cells suggest their development from HBV-infected hepatocytes. Using proliferating cell nuclear antigen (PCNA) as a marker of cell proliferation positive staining was detected only in hepatocytes but not in neoductular cells. Taken together findings further support the concept of hepatoductular metaplasia in the histogenesis of so-called "proliferating" ductules. In general the data show that hepatitis B virus infection does not prevent hepatocytes from undergoing ductular metaplasia.
Virchows Arch B Cell Pathol Incl Mol Pathol 1993
PMID:Expression of HBs- and HBc-antigen in neoductular epithelium in chronic active hepatitis B. A further support for hepato-ductular metaplasia. 809 73

Studies of simian virus 40 (SV40) DNA replication in vitro have identified a small (approximately 30-nucleotide) RNA-DNA hybrid species termed primer-DNA. Initial experiments indicated that T antigen and the polymerase alpha-primase complex are required to form primer-DNA. Proliferating cell nuclear antigen, and presumably proliferating cell nuclear antigen-dependent polymerases, is not needed to form this species. Herein, we present an investigation of the stages at which primer-DNA functions during SV40 DNA replication in vitro. Hybridization studies indicate that primer-DNA is initially formed in the origin region and is subsequently synthesized in regions distal to the origin. At all time points, primer-DNA is synthesized from templates for lagging-strand DNA replication. These studies indicate that primer-DNA functions during both initiation and elongation stages of SV40 DNA synthesis. Results of additional experiments suggesting a precursor-product relationship between formation of primer-DNA and Okazaki fragments are presented.
Mol Cell Biol 1993 May
PMID:Primer-DNA formation during simian virus 40 DNA replication in vitro. 809 77

The change of proliferative activity in mouse kidney cortex cells due to aging was studied by PCNA/cyclin immunostaining. Mouse kidney tissues of various ages: late fetal, newborn, suckling, weaning, adult and senescent were used for this experiment. Small pieces of kidney tissues were fixed in methacarn solution and embedded in paraffin. Sections were stained with PCNA/cyclin monoclonal antibody. The reaction product for PCNA/cyclin was observed mainly on nuclei. The ratio of the PCNA/cyclin positive nuclei to the total number of nuclei were calculated. PCNA/cyclin positive ratios in glomeruli and uriniferous tubules in the superficial layer were higher than those in the deep layer from late fetal period to suckling period. They decreased due to aging after birth and became to nearly zero after weaning period.
Cell Mol Biol (Noisy-le-grand) 1993 Mar
PMID:Proliferative activity in the kidneys of aging mice evaluated by PCNA/cyclin immunohistochemistry. 809 38

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