UNIPROT:P06889 - FACTA Search

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Query: UNIPROT:P06889 (Mol)
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Intracisternal A-type particle (IAP) transcripts are endogenous retrovirus-like sequences expressed during specific stages of normal development and in a variety of murine tumors. In this study, we have analyzed two cell lines derived originally from the SEWA murine osteosarcoma and grown either as ascites or as solid tumors, for proteins that might regulate IAP expression. We found that subline AA7-NA, originally derived from the ascites tumor, expressed about five times more IAP RNA than the AS12-AD subline, which was derived from a solid tumor. In view of this finding, we examined the binding of cellular proteins from the two cell lines to the 5' end of an IAP long terminal repeat sequence. Gel retardation assays of DNA-protein complexes and DNase I footprinting assays identified several DNA sequences within the long terminal repeat fragment that were protected by protein extracts from both SEWA sublines. Gel retardation assays using specific synthetic oligonucleotide sequences that correspond to two of these protected regions revealed different patterns of DNA-protein complexes with extracts from the two SEWA sublines. These data suggest that expression of IAP sequences is regulated by complex mechanisms involving several proteins that appear to differ between the two sublines.
Mol Carcinog 1992
PMID:Interaction of SEWA sarcoma cell proteins with the intracisternal A-type particle long terminal repeat DNA sequence. 154 43

Plastins are a family of at least three cytoplasmic protein isoforms that are expressed differentially between cells of the hematopoietic lineages and cells of solid tissues. Expression of the L-plastin isoform appears to be restricted to replicating blood cells, and the two T-plastin isoforms appear to be restricted to replicating cells of solid tissues. However, L-plastin is induced in many human solid tumor-derived cells. We used the anchored polymerase chain reaction technique to amplify and clone the missing 5' ends of plastin mRNAs. We found that both plastin isoforms contain a potential calcium binding site near the N terminus.
Mol Cell Biol 1990 Apr
PMID:Correction of the N-terminal sequences of the human plastin isoforms by using anchored polymerase chain reaction: identification of a potential calcium-binding domain. 237 51

Epithelial cells from various sites and at various stages of differentiation reveal distinct cytokeratin polypeptide patterns. WE have localized these heterogeneous elements at the subcellular level in human salivary glands and in a solid tumor of the breast using a monoclonal and a polyclonal antibody against cytokeratin, and an antibody against tissue polypeptide antigen (TPA) which seems to be related to some cytokeratins. Labeling by the cytokeratin antibodies was more intense in squamous and duct cells than in acinar cells. The TPA:B1 antibody reacted predominantly with duct cells and to a lesser extent with acinar and squamous cells. A precise evaluation of the labeling pattern and a well-preserved cell structure appeared to be important factors in obtaining more detailed information about intermediate filament proteins. The cryoultramicrotomy and the protein A-gold technique are suitable for these studies.
Virchows Arch B Cell Pathol Incl Mol Pathol 1985
PMID:Subcellular localization of tissue polypeptide antigen and cytokeratins in epithelial cells (salivary ad mammary glands). Combined use of the cryoultramicrotomy and the protein A-gold technique. 241 12

Cl-958, PD 121373, and PD 114595 belong to a new class of DNA complexers, substituted 2H-[1]benzothiopyrano[4,3,2-cd] indazoles, and are being further developed as antitumor drugs based on their curative properties against murine solid tumor models. The biochemical effects of these drugs on L1210 leukemia cells and their interaction with DNA were studied and compared to clinically used intercalators. The benzothiopyranoindazoles bound to DNA with a relatively high affinity, having intrinsic association constants of between 3 and 4 x 10(5) M-1. Based on viscosity measurements, the mode of DNA binding appears to be through intercalation. Unwinding angles were calculated to be approximately 18 degrees. The benzothiopyranoindazoles were potent inhibitors of nucleic acid synthesis, reducing both DNA and RNA synthesis to the same extent at similar concentrations. Like other known intercalators, these compounds produced DNA single- and double-strand breaks in a time- and concentration-dependent manner in L1210 cells. Between one and two DNA strand breaks were formed per protein-strand crosslink. Repair of these DNA lesions after the drug was removed from the cells was either very slow or did not occur at all for at least 2 hr. Finally, since the high incidence of cardiotoxicity associated with the administration of anthracyclines has been related to the formation of reactive oxygen species, the ability of the benzothiopyranoindazoles to augment superoxide dismutase-sensitive oxygen consumption was observed in a rat liver microsomal system. These compounds produced less than 5% of the activity in this assay that doxorubicin produced.
Mol Pharmacol 1988 Jan
PMID:Biochemical pharmacology and DNA-drug interactions by Cl-958, a new antitumor intercalator derived from a series of substituted 2H-[1]benzothiopyrano[4,3,2-cd]indazoles. 244 81

The spontaneous activity of natural killer (NK) cells against most solid tumor targets is low but can be increased by incubation with interleukin 2 (IL-2). This phenomenon, termed lymphokine-activated killer (LAK) activity, has been used in recent clinical trials against some pulmonary malignancies. We compared the LAK activity of blood and lung lymphocytes after activation with IL-2. Lung lymphocytes did not develop LAK activity despite demonstrating a significant increase in NK activity against K562 targets after incubation with IL-2. This functional difference correlated with a reduced expression of Leu-19, a marker present on virtually all LAK cells derived from peripheral blood, on lung NK cells. Because pulmonary macrophages (PM) are important regulators of NK function, we next investigated whether PM could be responsible for the functional and phenotypic differences noted. Measuring NK and LAK activity in parallel, we found that the addition of PM to IL-2-activated lymphocytes resulted in a preferential suppression of LAK activity and a loss of Leu-19 expression from IL-2-activated blood lymphocytes as well as a Leu-19+ T cell clone. We conclude that pulmonary NK cells are phenotypically and functionally different from peripheral blood NK cells and that this likely reflects local regulation, perhaps by PM.
Am J Respir Cell Mol Biol 1989 Oct
PMID:Human pulmonary natural killer (NK) cells exhibit limited lymphokine-activated killer (LAK) activity. 248 21

Resistance of noncycling cells to amsacrine (m-AMSA) has been widely reported and may limit the activity of this drug against solid tumors. The biochemical mechanism(s) for this resistance have been investigated using spontaneously transformed Chinese hamster fibroblasts (AA8 cells, a subline of Chinese hamster ovary-cells) in log- and plateau-phase spinner cultures. In early plateau phase most cells entered a growth-arrested state with a G1-G0 DNA content and showed a marked decrease in sensitivity to cytotoxicity induced by a 1-h exposure to m-AMSA or to its solid tumor-active analogue, CI-921. Studies with radiolabeled m-AMSA established that similar levels of drug were accumulated by log- and plateau-phase cells and that there was no significant drug metabolism in either of these cultures after 1 h. However, marked differences in sensitivity to m-AMSA-induced DNA breakage were observed using a fluorescence assay for DNA unwinding (Kanter P.M., and Schwartz, H.S., Mol. Pharmacol., 22: 145-151, 1982). Changes in sensitivity to DNA breakage occurred in parallel with changes in sensitivity to m-AMSA-induced cell killing. DNA breaks disappeared rapidly after drug removal (half-time approximately 4 min), suggesting that these lesions were probably mediated by DNA topoisomerase II. Resistance to m-AMSA may therefore be associated with changes in topoisomerase II activity in noncycling cells.
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PMID:Mechanism of resistance of noncycling mammalian cells to 4'-(9-acridinylamino)methanesulfon-m-anisidide: comparison of uptake, metabolism, and DNA breakage in log- and plateau-phase Chinese hamster fibroblast cell cultures. 282 71

Monoclonal antibodies reacting exclusively with laminin of human origin and a polyclonal antibody reacting with both murine and human laminin were used to immunohistochemically study the extracellular matrix of four human tumors grown as xenografts in nude mice: a lung carcinoma and a yolk sac carcinoma because they produced cell associated laminin in vitro; and two hepatocellular carcinomas which did not produce cell associated laminin in vitro. The extracellular matrix of the xenografts of the lung carcinoma and the yolk sac carcinoma contained laminin of both human and murine origin. Xenografts of liver carcinoma contained only laminin of mouse origin. This shows that the malignant cells capable of laminin production in vitro contribute this glycoprotein to the extracellular matrix of the solid tumor formed by them in vivo.
Virchows Arch B Cell Pathol Incl Mol Pathol 1985
PMID:Origin of laminin in the extracellular matrix of human tumor xenografts in nude mice. 286 34

The aim of this work was to determine whether treatments of rats with estradiol (E) in conditions known to decrease the proliferation rate, the mitotic index and the thymidine incorporation into the DNA of the MtTF4 tumor act at a specific point in the cell cycle. Two weeks after grafting a piece of tumor under the kidney capsule, adult male Fischer rats were treated or not treated with E. Tumors were collected between 12 h and 11 days later. Cells were dispersed by collagenase-DNAse treatment and fixed with ethanol. DNA content, cell size, cell granularity and protein content were analyzed, alone or in combination with a flow cytometer. E treatments did not apparently modify the distribution of cells according to their DNA content whereas they did increase dramatically cell size, cell granularity and cell protein content. Simultaneous analysis of DNA content and light scattering or protein content allowed us to demonstrate that there was an increase of a population of large granular and protein-rich cells regardless of the phase of the division cycle considered. These effects are time-dependent, dose-dependent and hormone-specific. This work shows both the interest of flow cytometry to describe the consequences of E treatment at any phase of the cycle of cells dispersed from a solid tumor and the limits of this method in the conditions used to specify the E target points: at the present time, it cannot be decided whether E acts at one or several points of the cell cycle for inhibiting tumor growth.
Mol Cell Endocrinol 1986 Dec
PMID:Flow cytometry analysis of cells dispersed from the MtTF4 tumor whose growth is inhibited by estradiol treatment. 310 Mar 60

Retinoic acid (RA) has profound effects on cell proliferation and differentiation both in vitro and in vivo. Many human cell lines are known to be sensitive to the growth-inhibitory action of RA. We analyzed established human solid tumor-derived cell lines for their RA sensitivity. Growth inhibition by RA in monolayer was examined by [3H]thymidine incorporation and cell proliferation. Here we report that 11 widely used human cell lines were RA resistant. The majority are carcinoma derived (A-431, BT-20, C-41, ACHN, HCT116, 293, A549, and PA-1); two are sarcoma derived (Saos-2 and A673); and one is a melanoma cell line (A-375). Since nuclear retinoid receptors are implicated in the biological effects of RA, we examined the expression of retinoic acid receptors (RARs) RAR alpha, RAR beta, RAR gamma, and the retinoid X receptors (RXRs) RXR alpha, RXR beta, and RXR gamma in the RA-resistant cell lines by northern blotting and by RNase protection analysis for RAR beta. RAR alpha transcripts were constitutively expressed in all cell lines. By contrast, RAR beta was expressed in only seven RA-resistant cell lines (Saos-2, ACHN, 293, A549, A-375, A673, and PA-1), and its level was enhanced by RA in some cases. In most cell lines, RAR gamma expression was low and was not affected by RA. The RXR genes showed a very distinct expression pattern in the group of selected cell lines. In general, RXR alpha was the most abundantly expressed subtype, RXR beta was expressed at low levels, and RXR gamma could not be detected. In none of the RA-resistant cell lines was RXR expression modulated by RA. The results presented here indicate that the resistance of these human tumor cell lines to RA cannot be simply correlated with expression of RAR or RXR or both.
Mol Carcinog 1993
PMID:Retinoic acid receptor and retinoid X receptor expression in retinoic acid-resistant human tumor cell lines. 769 Oct 69

Ganglioside composition was examined in an experimental mouse brain tumor growing as a solid tumor in vivo and as a cultured cell line in vitro. Gangliosides were also studied in the solid tumor rederived from the cultured tumor cell line. Although GM3-NeuAc was the major ganglioside in both the solid tumor and cultured tumor cells, several gangliosides expressed in the solid tumors (e.g., GM2-NeuGc, GM1, and GM1b) were not expressed in the cultured tumor cells. These gangliosides, however, are major components of mouse macrophages. Furthermore, significant amounts of gangliosides containing N-glycolylneuraminic acid (NeuGc) were found in the solid tumor growing in vivo, but only trace amounts were present in the cultured tumor cells. NeuGc is a common ganglioside sialic acid in mouse nonneural cells, whereas N-acetylneuraminic (NeuAc) is the predominant sialic acid in mouse brain. The trace amounts of NeuGc in the cultured cells are attributed to contamination from the fetal bovine serum. Radiolabeling of the cultured tumor cell gangliosides with [14C]galactose revealed that GM3-NeuAc was the only ganglioside synthesized by the tumor cells. The results suggest that nontumor-infiltrating cells, e.g., macrophages, lymphocytes, and endothelial cells, may contribute significantly to the total ganglioside composition of solid tumors growing in vivo.
Mol Chem Neuropathol
PMID:Influence of growth environment on the ganglioside composition of an experimental mouse brain tumor. 808 38

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