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Query: UNIPROT:P06889 (Mol)
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Protein patterns of Japanese newt papilloma in vivo at low (4 degrees C), normal (10 degrees C, control) and elevated (30 degrees C) temperature were investigated by two-dimensional gel electrophoresis. There were nine protein spots in normal skin (skin specific spots: SSS) which did not exist in papillomas. At 10 degrees C, the papillomas possessed three specific protein spots (papilloma specific spots: PSS) which did not appear in normal skin. At the reduced environmental temperature, eight of the nine missing proteins in papillomas had reappeared by 12 weeks exposure. Differential responses in reappearance of SSS in papillomas varied with environmental temperature. The PSS generally were unchanged by environmental temperature modulation, although one specific protein disappeared at 12 weeks at 4 degrees C. Reappearance of normal SSS in papillomas occurred early in treatment and reflected only minor variations in high versus low temperature exposures. These data suggest that temperature-induced tumor regression may be associated with changes in protein composition.
Cell Mol Biol 1989
PMID:Temperature-induced alterations in protein composition of newt papilloma cells. 262 5

The activation of the c-Ha-ras gene and its contribution to the tumorigenic phenotype were examined in cultured mouse keratinocytes and squamous tumors using transfection into NIH 3T3 cells and nucleic acid hybridization. When normal keratinocytes were cultured in medium with 0.05 mM Ca2+ (low Ca2+ medium), many cells died within 2-3 wk, while others formed rapidly growing foci that could be subcultured. These rapidly growing cells produced benign tumors when grafted to nude mice and possessed a heterozygous mutation in the c-Ha-ras gene with an A----T transversion in codon 61. Fibroblast-conditioned low Ca2+ medium prevented cell death, focus formation, c-Ha-ras gene mutation, and tumorigenicity. Thus, suboptimal culture conditions favored a spontaneous mutation in codon 61 of the c-Ha-ras gene of keratinocytes. When a v-Ha-ras gene was introduced into normal keratinocytes by a replication-defective retrovirus, the recipient cells produced papillomas in vivo, and after 2 mo, 60% of the tumors converted to squamos cell carcinomas. None of the 22 converted tumors had an endogenous c-Ha-ras gene mutation at codon 61. However, the A----T transversion mutation developed when these carcinoma cells were cultured in low Ca2+ medium but not in fibroblast-conditioned medium. Cells with both an exogenous v-Ha-ras and an activated c-Ha61-ras gene produced undifferentiated, rapidly lethal carcinomas, while cells with only v-Ha-ras maintained the squamous carcinoma phenotype. Undifferentiated carcinomas also developed when the v-Ha-ras gene was introduced into papilloma cells with a chemically induced endogenous c-Ha61-ras gene mutation. These results suggest that mutation in the c-Ha-ras gene can contribute to initiation, malignant conversion, and malignant progression in skin carcinogenesis, and gene dosage may determine the phenotype expressed.
Mol Carcinog 1989
PMID:Spontaneous Ha-ras gene activation in cultured primary murine keratinocytes: consequences of Ha-ras gene activation in malignant conversion and malignant progression. 267 55

Based on studies that have examined the effect of calcium chelators on cells, it has been proposed that this cation plays a role in regulating cell proliferation. In this study a novel approach was used to indirectly examine the role of calcium in cell cycle progression. A cDNA for the Ca2+-binding protein parvalbumin has been expressed in mouse C127 cells, using a bovine papilloma virus-based expression vector. The normal role of parvalbumin is that of a calcium buffer in vertebrate fast twitch muscle, and the C127 cells do not normally express this protein. The presence of parvalbumin had several effects on the growth of C127 cells. The most striking phenotype was an increase in cell cycle duration which analysis showed was the result of an increase the length of G1 and mitosis (predominantly at prophase). Since changes in cell cycle duration typically occur as a result of changes in G1 duration, the observed increase in the length of mitosis is most unusual. The present results indicate that the previously observed increase in the rate of cell proliferation in cells with elevated calmodulin levels is not the result of a general increase in the level of cytoplasmic calcium-binding protein, but is specific to calmodulin. In addition, the results suggest that calcium regulates progression through mitosis by both calmodulin-dependent (metaphase transition) and -independent (prophase) mechanisms.
Mol Endocrinol 1989 Mar
PMID:The presence of parvalbumin in a nonmuscle cell line attenuates progression through mitosis. 274 61

Restriction enzymes produced by bacteria serve as a defense against invading bacteriophages, and so phages without other protection would be expected to undergo selection to eliminate recognition sites for these enzymes from their genomes. The observed frequencies of all restriction sites in the genomes of all completely sequenced DNA phages (T7, lambda, phi X174, G4, M13, f1, fd, and IKe) have been compared to expected frequencies derived from trinucleotide frequencies. Attention was focused on 6-base palindromes since they comprise the typical recognition sites for type II restriction enzymes. All of these coliphages, with the exception of lambda and G4, exhibit significant avoidance of the particular sequences that are enterobacterial restriction sites. As expected, the sequenced fraction of the genome of phi 29, a Bacillus subtilis phage, lacks Bacillus restriction sites. By contrast, the RNA phage MS2, several viruses that infect eukaryotes (EBV, adenovirus, papilloma, and SV40), and three mitochondrial genomes (human, mouse, and cow) were found not to lack restriction sites. Because the particular palindromes avoided correspond closely with the recognition sites for host enzymes and because other viruses and small genomes do not show this avoidance, it is concluded that the effect indeed results from natural selection.
Mol Biol Evol 1986 Jan
PMID:Molecular evolution of bacteriophages: evidence of selection against the recognition sites of host restriction enzymes. 283 88

We have studied the interaction of covalent dexamethasone 21-mesylate (DM) labeled, activated glucocorticoid receptor with mouse mammary tumor virus (MMTV) chromatin. Studies were performed on a murine cell line (904.13) which contains 200 copies per cell of a MMTV long terminal repeat (LTR) v-rasH casette mobilized on bovine papilloma virus based episomes. DM binds covalently to glucocorticoid receptors and displays almost full antagonist activity in this cell line. In situ transcription extension assays indicate that activated receptor-DM complex cannot stimulate LTR-initiated transcription. The receptor-DM complex also fails to induce DNase I hypersensitivity (HSR) and transcription factor loading at the MMTV promoter. Transcription activation, HSR formation, and factor binding induced with the agonist dexamethasone are blocked by covalent occupation of the receptor by DM. Although DM-activated receptor binds specifically to receptor sites on purified LTR DNA, the antagonist receptor complex does not interact productively with MMTV LTR chromatin in vivo.
Mol Endocrinol 1987 Sep
PMID:Mechanism of dexamethasone 21-mesylate antiglucocorticoid action: II. Receptor-antiglucocorticoid complexes do not interact productively with mouse mammary tumor virus long terminal repeat chromatin. 285 14

Specific antisera against three mammalian beta-galactoside-specific lectins of apparent molecular weights 14.5 kDa, 18 kDa and 29 kDa have been used to localize these lectins in normal breast, and in benign and malignant mammary lesions. In normal breast tissue discrete localization of two lectins (Mrs 14.5 kDa and 18 kDa) was demonstrated in fibroblasts, smooth muscle cells, myoepithelial cells and capillary endothelium. Extracellular localization of one lectin (Mr 14.5 kDa) in collagen was apparent. The third lectin (Mr 29 kDa) labelled preferentially luminal cells and their secretory product. Two benign tumours (an analyzed fibroadenoma and a papilloma) revealed strong staining with two lectins (Mrs 18 kDa and 29 kDa). Of the 24 mammary carcinomas examined, the lectin (Mr 14.5 kDa) was expressed by only occasional tumour cells, the lectin (Mr 18 kDa) occurred in many tumour cells and the lectin (Mr 29 kDa) labelled tumour cells in nearly all cases. The expression of these beta-galactoside-specific endogenous lectins therefore appears to be regulated differently in normal breast compared with mammary tumours.
Virchows Arch B Cell Pathol Incl Mol Pathol 1986
PMID:Localization of endogenous lectins in normal human breast, benign breast lesions and mammary carcinomas. 287 27

Messenger RNAs present in C127 mouse cells transformed by bovine papilloma virus type 1 (BPV-1) were studied by the S1 nuclease protection technique, Northern blotting, and electron microscopic heteroduplex analysis. The results revealed at least five classes of spliced mRNAs which we designate types 1 to 5. They had a common poly(A) addition site located at co-ordinate 53 and all mRNAs, except the type 3 mRNAs, contained an exon located between co-ordinates 41 and 53. In the type 1 mRNAs this exon was connected to a very short leader sequence located around co-ordinate 31. The type 2 mRNAs contained 220 to 400-nucleotide long leaders which were located approximately 1.5 X 10(3) base-pairs further upstream. Two different subclasses of type 2 molecules (2A and 2B) were identified and these had slightly different leaders. The type 4 mRNAs contained a bipartite leader, whereas the type 5 mRNAs carried an approximately 900-nucleotide long leader. The type 3 mRNAs consisted of a main exon located between co-ordinates 32 and 53, linked to the same leader as is present in the type 2A mRNAs. A cap site which presumably is utilized by the type 2A, type 3, type 4 and type 5 mRNAs was mapped at nucleotide 89 in the BPV-1 sequence. A putative cap site for the type 1 mRNAs was mapped at co-ordinate 31.
J Mol Biol 1985 Apr 20
PMID:Messenger RNAs from the transforming region of bovine papilloma virus type I. 298 33

We have studied the extrachromosomal maintenance and the transcription regulation of two glucocorticoid-inducible genes on bovine papilloma virus (BPV) vectors in c127 mouse fibroblasts. These genetic elements were the rat tryptophan oxygenase (TOase) gene promoter, which is active in vivo only in hepatocytes, and the long terminal repeat of the mouse mammary tumor virus (MMTV-LTR). From both genes, fusions of the 5'-flanking region of the transcription unit to the bacterial gene for chloramphenicol acetyltransferase (CATase) were constructed. These fusion genes were inserted either into pCGBPV9, a BPV vector encoding G418 resistance, into pBPV-BV1, a vector containing "stabilizing" segments of the human beta-globin gene, or into a BPV construct, whose bacterial plasmid sequences could be removed before transfection. Five constructs of the two latter groups, selectable in c127 cells only as foci, were normally maintained in the extrachromosomal state. In contrast, three out of five constructs based on pCGBPV9 and selectable for resistance against G418 were maintained in a high molecular weight form, most probably of intrachromosomal concatemeric nature, while the remaining two G418-resistant constructs appeared alternatively in this or the extrachromosomal monomeric form. In contrast to its absence of expression in fibroblasts in vivo, the TOase gene element present on BPV vectors was found to be active in fibroblasts in these transfection experiments. As judged by CATase activities and for TOase also by mapping of the transcription start sites, transcription of both genes was under hormonal regulation. All BPV vectors proved to be useful tools in the study of these regulated genes, and in only one out of ten constructs was regulation atypical, possibly due to effects from flanking vector sequences.
J Mol Biol 1986 Feb 20
PMID:Physical state, expression and regulation of two glucocorticoid-controlled genes on bovine papilloma virus vectors. 301 94

We identified a bovine papilloma virus function encoded by the E6/E7 gene, which is required for both BPV high-copy-number replication and maintenance of transformation of cultured cells. A cDNA copy of this gene was isolated and expressed from a retrovirus vector. We found that complete complementation of a BPV low-copy-number mutant (dl576) by the cDNA encoding the E6/E7 gene was temporally dependent. When both the E6/E7 cDNA and dl576 were introduced together into cells, wild-type replication and stable transformation resulted. In contrast, introduction of the complementing cDNA into cells already carrying dl576 led to only partial amplification of the resident mutant DNA accompanied by a restoration of the transformed phenotype. These results, along with other findings, suggest that the establishment of BPV plasmid replication occurs in two stages: an initial amplification of the incoming DNA followed by stable homeostatic replication which maintains the existing copy number.
Mol Cell Biol 1986 Mar
PMID:Complementation of a bovine papilloma virus low-copy-number mutant: evidence for a temporal requirement of the complementing gene. 302 34

To address the relationship between chromatin structure and histone gene expression, the nucleosomal organization of a cell cycle-dependent human H4 histone gene in a bovine papilloma virus (BPV) minichromosome was examined. The nucleosome repeat length of the human H4 histone gene, maintained as a stable episome in a C127 mouse cell line designated I-8, was compared with that of the chromosomal copy of the H4 gene in human (HeLa) cells. In both cell lines, the H4 histone gene is predominantly expressed during the S phase of the cell cycle. The nucleosome repeat length of total HeLa cell and C127 mouse cell chromatin was similarly examined. Nuclei were digested with micrococcal nuclease and the DNA was fractionated electrophoretically, transferred to nitrocellulose filters and hybridized with radiolabelled (32P) cloned DNA probes. The nucleosome repeat length of the H4 gene, as an episome in the C127 mouse cell (153 +/- 8) and as an integrated copy in a HeLa cell (163 +/- 10) was considerably shorter than total genomic host cell (C127) (190 +/- 5) or HeLa cell chromatin (183 +/- 7). Our results indicate that the episomal H4 histone gene is packaged as chromatin. Moreover, the shortened nucleosome repeat length of the H4 gene, both as an episome or integrated chromosome sequence, suggests that the repeat length is characteristic of the gene and may be functionally related to its cell cycle regulated expression.
Mol Cell Biochem 1987 Apr
PMID:Nucleosomal organization of a BPV minichromosome containing a human H4 histone gene. 303 7


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