UNIPROT:P06889 - FACTA Search

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Tumor cells of glial origin express high levels of basic fibroblast growth factor (bFGF) which stimulates their proliferation in an autocrine manner. In the present study we examined bFGF receptor (FGFR) expression and 125I-bFGF binding and processing in a human glioma cell line. RT-PCR demonstrated the co-expression of bFGF and FGFR mRNAs in five glioma cell lines examined. The high-affinity FGFR was visualized in U87-MG glioma cells by crosslinking with 125I-bFGF and by Western blotting with anti-receptor antisera. Both techniques identified a discrete 110-kDa moiety associated with the cell membrane, consistent with the reported size of one of the FGFR-1 isoforms. Western blotting also identified an intracellular receptor pool which was not accessible with exogenous 125I-bFGF. Suramin treatment induced a 2-fold increase in immunoreactive FGFR and a 1.5-fold increase in 125I-bFGF binding sites, indicating that FGFRs are chronically down-regulated by endogenous bFGF in U87-MG cells. Removal of extracellular bFGF with heparin resulted in a rapid, cycloheximide-sensitive increase in high-affinity bFGF binding sites. At 37 degrees C, receptor-bound 125I-bFGF was internalized and subjected to limited proteolytic cleavage over 12 h. U87-MG cells also contained abundant low-affinity bFGF binding sites which were removed by digestion with heparinase III but not by chondroitinase ABC. The presence of heparin (25 micrograms/ml) in the binding reaction eliminated the association of 125I-bFGF with the heparin-like sites but did not prevent binding to the high-affinity receptor. Scatchard binding analysis in the presence of heparin revealed a single class of high-affinity sites in U87-MG cells (Kd = 4.9 +/- 0.9 pM; 10-12 x 10(3) sites per cell). Neither heparin nor heparinase digestion prevented the binding of 125I-bFGF to the detergent-extractable high-affinity receptor, although both treatments significantly reduced the extent of 125I-bFGF association with the receptor. These findings indicate that in U87-MG cells, heparan sulfate proteoglycans may be involved in presentation of bFGF to the high-affinity receptor, but are not essential for high-affinity binding to occur.
Mol Cell Endocrinol 1995 Oct 30
PMID:Basic fibroblast growth factor binding and processing by human glioma cells. 867 45

1. Preproenkephalin (PPEnk) mRNA expressing cells have been identified in rat pineal gland using radioactive in situ hybridization histochemistry. 2. Approximately 7% of the cells in the pineal gland (7.5 +/- 0.86, mean +/- 95% CI) express PPEnk mRNA. These cells are distributed throughout the pineal as either scattered single cells or small groups of cells with large round or oval nuclei. 3. Using in situ hybridization combined with ABC immunocytochemistry for serotonin (5-HT) in the same pineal sections, the PPEnk mRNA labeling cells are found not to be serotonin-immunoreactive cells. These data indicate that the PPEnk mRNA is expressed in a certain discrete subpopulation of cells in the rat pineal gland and these cells are not serotonin-producing pinealocytes. 4. The physiologic role of PPEnk-derived peptides in the pineal remains unknown. It is possible that these peptides either are synthesized and secreted as hormones or act as pineal paracrine signals.
Cell Mol Neurobiol 1996 Feb
PMID:Cells expressing preproenkephalin mRNA in the rat pineal gland are not serotonin-producing pinealocytes: evidence using in situ hybridization combined with immunocytochemistry for serotonin. 871 61

Mithramycin is an antitumor antibiotic synthesized by Streptomyces argillaceus. This producer strain is highly resistant in vivo to mithramycin (MIC 100 micrograms/ml) but sensitive to the related drugs chromomycin and olivomycin (MIC 10 micrograms/ml). From a genomic library of S. argillaceus DNA two cosmid clones were isolated which confer a high level of resistance to mithramycin on S. albus. The resistance genes were mapped by subcloning to a 3.9-kb PstI-PvuII fragment. DNA sequence analysis of this fragment revealed one incomplete and three complete open reading frames. Subcloning experiments demonstrated that resistance to mithramycin is mediated by the genes mtrA and mtrB. The mtrA gene can potentially encode an ATP-binding protein of the ABC transporter superfamily, containing one nucleotide-binding domain and showing similarity with other ABC transporters involved in resistance to daunorubicin, oleandomycin and tetronasin in their respective producer strains. The mtrB gene codes for an integral membrane protein with six putative transmembrane helices. A mithramycin-sensitive mutant was generated in a gene replacement experiment by disrupting the mtrA gene, thus demonstrating that the system encoded by the mtrAB genes is essential for conferring resistance to mithramycin in S. argillaceus.
Mol Gen Genet 1996 Jul 26
PMID:An ABC transporter is essential for resistance to the antitumor agent mithramycin in the producer Streptomyces argillaceus. 875

The htrB gene was discovered because its insertional inactivation interfered with Escherichia coli growth and viability at temperatures above 32.5 degrees C, as a result of accumulation of phospholipids. The msbA gene was originally discovered because when cloned on a low-copy-number plasmid vector it was able to suppress the temperature-sensitive growth phenotype of an htrB null mutant as well as the accumulation of phospholipids. The msbA gene product belongs to the superfamily of ABC transporters, a universally conserved family of proteins characterized by a highly conserved ATP-binding domain. The msbA gene is essential for bacterial viability at all temperatures. In order to understand the physiological role of the MsbA protein, we mutated the ATP-binding domain using random PCR mutagenesis. Six independent mutants were isolated and characterized. Four of these mutations resulted in single-amino-acid substitutions in non-conserved residues and were able to support cell growth at 30 degrees C but not at 43 degrees C. The remaining two mutations behaved as recessive lethals, and resulted in single-amino-acid substitutions in Walker motif B, one of the two highly conserved regions of the ATP-binding domain. Despite the fact that neither of these two mutant proteins can support E. coli growth, they both retained the ability to bind ATP in vitro. In addition, we present evidence to show that N-acetyl [3H]-glucosamine, a precursor of lipopolysaccharides, accumulates at the non-permissive temperature in the inner membrane of either htrB null or msbA conditional lethal strains. Translocation of the precursor to the outer membrane is restored by transformation with a plasmid containing the wild-type msbA gene. A possible role for MsbA as a translocator of lipopolysaccharides or its precursors is discussed.
Mol Microbiol 1996 Jun
PMID:Mutational analysis and properties of the msbA gene of Escherichia coli, coding for an essential ABC family transporter. 880 74

Multiple or pleiotropic drug resistance in the yeast Saccharomyces cerevisiae can arise from overexpression of the Pdr5 and Snq2 ATP binding cassette multidrug transporters. Expression of Pdr5 and Snq2 is regulated by the two transcription factors Pdr1 and Pdr3, as multidrug-resistant pdr1 and pdr3 gain-of-function mutants overexpress both drug efflux pumps. One such pdr1 mutant allele was previously cloned in a genetic screen by its ability to suppress the squelching toxicity mediated by an estradiol-inducible chimeric VP16-human estrogen receptor (VEO) expressed in yeast (Gilbert, D. M. , Heery, D. M., Losson, R., Chambon, P., and Lemoine, Y. (1993) Mol. Cell. Biol. 13, 462-472). In this study, we demonstrate that relief of estradiol toxicity in yeast cells expressing VEO requires functional PDR5 and SNQ2 genes, since a Deltapdr5 Deltasnq2 double deletion leads to an increased estradiol toxicity. Furthermore, using URA3 as an estradiol-inducible reporter gene, we show that Pdr5 and Snq2, when overexpressed from high-copy plasmids, can reduce the intracellular concentration of estradiol. In contrast, a Deltapdr5 Deltasnq2 double deletion mutant accumulates almost 30-fold more intracellular estradiol than the isogenic wild type. Indirect immunofluorescence showed that a pdr1-3 mutant massively overexpresses Pdr5 at the plasma membrane, suggesting that estradiol efflux from the cells occurs across the plasma membrane. Our data demonstrate that Pdr5 and Snq2 can transport steroid substrates in vivo and suggest that steroids and/or related membrane lipids could represent physiological substrates for certain yeast ABC transporters, which are otherwise involved in the development of pleiotropic drug resistance.
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PMID:The ATP binding cassette transporters Pdr5 and Snq2 of Saccharomyces cerevisiae can mediate transport of steroids in vivo. 881 Feb 73

Pseudomonas aeruginosa releases several extracellular proteins which are secreted via two independent secretion pathways. Alkaline protease (AprA) Is released by its own specific secretion machinery which is an ABC-transporter. Despite sequence similarities between components of ABC-transporters in different bacteria, each transporter is dedicated to the secretion of a particular protein or a family of closely related proteins. Heterologous complementation between ABC-transporters for unrelated polypeptides can occur, but only at a very low level. We show that the 50 C-terminal amino acids of AprA constitute an autonomous secretion signal. By heterologous complementation experiments between the unrelated alpha-haemolysin (HlyA) and Apr secretion systems we demonstrated that it is only the recognition of the secretion signal by the translocator which confers specificity to the secretion process. Secretion was size-dependent. However inclusion of glycine-rich repeats from HlyA in AprA seems to overcome the size limitation exerted by the Apr secretion apparatus such that the machinery secreted a hybrid protein 20 kDa larger than the normal maximal size.
Mol Microbiol 1996 Aug
PMID:Protein secretion by heterologous bacterial ABC-transporters: the C-terminus secretion signal of the secreted protein confers high recognition specificity. 886 70

Previous studies of the structure-activity relationships (SAR) for binding of a series of AC-bicyclic cannabinoid structures to the cannabinoid receptors in rat brain (believed to comprise the CB1 subtype) demonstrated the importance of the A-ring aryl C-3 side chain and phenolic hydroxyl substituents, and elucidated the importance of a C-ring hydroxyalkyl substituent [Melvin et al. Mol. Pharmacol. 44, 1008-1015 (1993)]. The present investigation examines the SAR surrounding this region (D-ring) of the molecule that is not present in the structure of delta(9)-THC and other classical cannabinoid compounds. Both rigid fused ring benzo and cyclohexyl derivatives (creating the D-ring) retained binding affinity for the cannabinoid receptor. Extension of ketone or hydroxyl substituents from the C2 position of the D-ring resulted in a 3-fold increase in binding affinity over the unsubstituted structure. However, the fused ring structure is not critical for the interaction with the receptor in as much as opening the ring did not decrease the potency. Extension of the D-ring C-2 alcohol by one carbon in length resulted in a pair of structures, for which the greatest affinity for the CB1 receptor occurred for the hydroxymethyl group in the axial conformation [(+/-)-CP-55,244]. Upon resolution, the latter provided a pair of enantiomers: (-)-CP-55,244 was approximately 3-fold more potent than the racemic mixtures, and (+)-CP-55,244 failed to bind to the CB1 receptor with an IC50 below 1 mM. Opening of the D-ring of these structures resulted in a loss of binding affinity. This study demonstrates that the potency could be optimized in (-)-CP-55,244 for both binding to the CB1 receptor and the biological activity of analgesia. In addition, the rigid positioning of the hydroxypropyl moiety of CP-55,940 enforced by the decalin ring structure of CP-55,244 increased the enantioselectivity by greater than 100-fold. These data define the critical stereochemistry for a region of the nonclassical ACD-tricyclic cannabinoid structure that contributes a potential hydrogen bonding component to the ligand-receptor interaction mechanism. Inasmuch as this region of the molecule is not present on classical ABC-tricyclic cannabinoid compounds, these studies elucidate a unique agonist recognition site on the CB1 receptor.
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PMID:Structure-activity relationships defining the ACD-tricyclic cannabinoids: cannabinoid receptor binding and analgesic activity. 887 58

Astrocyte-conditioned medium (ACM) supports the survival of rat E15 neocortical neurons. Using a microtiter assay for neuronal survival, we demonstrated that part of the survival activity is associated with a proteoglycan fraction obtained after two chromatographic steps: (1) preparative Q-Sepharose anion-exchange chromatography under non-denaturating conditions and (2) MonoQ chromatography in the presence of 8 M urea. Analytical SDS-polyacrylamide gradient gel electrophoresis of pooled active MonoQ-fractions (MQ-pool) revealed a broad proteoglycan band migrating with an apparent M(r) in the range of 150-400 kDa. Digestion of the MQ-pool with chondroitin-ABC-lyase yielded a major core protein of 50 kDa. In Western blots the high molecular weight (150-400 kDa) material as well as the 50 kDa core protein band were immunoreactive to chicken polyclonal antibodies raised against purified biglycan from rat meningeal fibroblasts. Northern blot analysis of total RNA prepared from highly enriched astrocyte cultures revealed a single 2.9 kb biglycan transcript. By using in situ hybridization we demonstrated that essentially all cells in these cultures expressed biglycan mRNA. Furthermore, highly purified biglycan from bovine cartilage was shown to markedly enhance survival of rat neocortical neurons. In conclusion, we have shown that astrocytes synthesize and release the small chondroitin/dermatan sulfate proteoglycan (CS/DSPG) biglycan, a molecule that was found to support survival of neocortical neurons in vitro.
Brain Res Mol Brain Res 1996 Sep 05
PMID:Cultured astrocytes express biglycan, a chondroitin/dermatan sulfate proteoglycan supporting the survival of neocortical neurons. 888 35

Blotting of rat parotid gland proteins separated by SDS-PAGE and transferred to Immobilon transfer membranes revealed that avidin-peroxidase conjugate interacted with bands having estimated molecular weights of 72, 74, and 120 kDa. Even at the lowest concentration of avidin-peroxidase used in the general ABC method (1:2000 dilution), three bands were clearly discernible. The staining reaction of parotid gland proteins was eliminated on preincubating the proteins with native avidin. The staining reaction was markedly reduced with the proteins obtained from submandibular/sublingual glands.
Biochem Mol Biol Int 1996 Sep
PMID:Transblot identification of avidin-interacting proteins in rat salivary glands. 888 71

We have employed oligonucleotide primers directed against the Walker A and B ATP-binding consensus motifs in a PCR-approach to clone a novel member of the eukaryotic ABC protein family of genes from Plasmodium falciparum. The novel gene is predicted to encode a 95.5-kDa protein with two ATP-binding folds each containing a Walker A and B consensus motif and an ABC protein signature sequence. The predicted protein is highly hydrophilic and contains numerous phosphorylation consensus sites but does not contain any potential membrane spanning domains. The gene is present on chromosome 11 and is expressed as a 3.3-kb transcript. The closest homologue with known function to the plasmodial gene is the yeast GCN20 gene which is part of the translation initiation pathway in amino acid starved yeast cells. We have therefore tentatively named the gene Plasmodium falciparum GCN20 homologue (pfgcn20). The pfgcn20 encoded Pfgcn20 protein is also highly homologous to a number of ATP-binding subunits of prokaryotic ABC transporters. We speculate that Pfgcn20 may be an example of a eukaryotic ATP-binding cytosolic subunit of a multipeptide ABC transporter.
Mol Biochem Parasitol 1996 Oct 18
PMID:Cloning and sequence analysis of a novel member of the ATP-binding cassette (ABC) protein gene family from Plasmodium falciparum. 889 4

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