DrugBank:APRD00216 - FACTA Search

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Query: DrugBank:APRD00216 (ABC)
8,859 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Measurement of intracellular ATP content by the luciferin-luciferase photometric reaction appears to be an extremely sensitive method for detecting complement dependent cytotoxicity (DCD) mediated by antibodies directed against H-2 antigens. Within the 15 min following the addition of complement, a considerable loss of ATP is observed in the antibody-coated target cells. The reaction is detectable using normal spleen lymphocytes as target cells, completely specific and much more sensitive than the classical dye exclusion test. Preliminary findings from our current study indicate that this simple and very rapid CDC method should be considered for the purpose of HLA ABC and D typing in humans.
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PMID:[Detection of anti-H-2-antibody-induced cytolysis by ATP measurement (author's transl)]. 49 4

Synaptic vesicles were isolated from the caudate nucleus of the pigs by differential centrifugation and incubated with labelled monoamines in the absence or in the presence of ATP-Mg(2+). Addition of ATP-Mg(2+) enhanced the uptake of (14)C-dopamine into the vesicles. Serotonin competitively inhibited the ATP-Mg(2+)-dependent uptake of (14)C-dopamine without influencing the uptake which took place in the absence of ATP-Mg(2+). Likewise, dopamine caused a dose-dependent inhibition of the ATP-Mg(2+)-dependent uptake of (14)C-serotonin without inhibiting the uptake in the absence of ATP-Mg(2+). Incubation of the vesicles with equal concentrations of(3)-dopamine and (14)C-serotonin revealed that the presence of the one amine competitively inhibited the ATP-Mg(2+)-dependent uptake of the other. Tyranimine competitively inhibited the ATP-Mg(2+)-dependent uptake of (14)C-dine, (14)C-serotonin and (14)C-noradrenaline into the vesicles; the uptake of the amines which took place in the absence of ATP-Mg(2+) was not impairedby tyramine. Analysis of the amine uptake by the ABC test showed that a mutual inhibition exists between dopamine and serotonin for the uptake into the synaptic vesicles. GABA did not influence the uptake of (14)C-dopamine either in the absence, or in the presence of ATP-Mg(2+)...
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PMID:Competition of some biogenic amines for uptake into synaptic vesicles of the striatum. 78 43

Bovine adrenal chromaffin cells were incubated with inorganic thiophosphate, using a protocol similar to experiments with inorganic phosphate, in order to determine the source of previously observed thiophosphoproteins. Incubation of cultured cells with [35S]thiophosphate resulted in its incorporation into cell constituents within 2 min. SDS-PAGE of the treated cells showed incorporation of label into a broad 97-121 kDa band that was evident after 5 min of treatment and increased progressively to the 40 min exposure limit. Monolayers of chronically treated cells were fractionated into subcellular constituents. The only particulate fraction containing radiolabelled proteins was the chromaffin vesicle fraction. Two-dimensional electrophoresis of the treated cells and isolated chromaffin vesicles showed a majority of proteins in the acidic region of the first dimension gel. A fluorogram of the gel revealed two regions of radiolabelled proteins at acidic and neutral regions of the 2-D gel. These were within the boundaries of the 97-121 kDa band. The thiophosphorylated proteins were released as soluble proteins upon osmotic or freeze-thaw lysis of the vesicles. Chromaffin vesicles isolated from either cultured cells or adrenal medulla tissue were energized by 2 mM ATP but not by the analog adenosine 5'-O-(3-thiotriphosphate). The 97-121 kDa proteins in intact or lysed vesicles prepared from adrenal medulla tissue were not thiophosphorylated by either inorganic thiophosphate or adenosine 5'-O-(3-thiotriphosphate) in the presence or absence of energization by ATP. Nearly complete loss of radiolabel from matrix proteins treated with chondroitinase ABC suggests that it is a component of vesicle proteolgycans.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Thiophosphorylated proteins in chromaffin cells are chromaffin vesicle matrix proteins. 130 66

Among the different mechanisms of multidrug resistance, the overexpression of the mdr1 gene has been actively investigated during the last 5 years. This gene encodes a 170 kDa protein, named P-gp, a member of a transporter superfamily, the ABC (ATP Binding Cassette) proteins. P-gp actively expels out of the tumoral cell different drugs like anthracyclins, vinca alkaloids, epipodophyllotoxins. The involvement of mdr1 gene in clinical drug resistance is now demonstrated, and several trials using P-gp modulators and chemotherapy are going on in resisting tumors. Other intrinsic drug resistance mechanisms, such as increase of intracellular glutathione content or decrease of topoisomerase activity, could be involved in clinical drug resistance.
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PMID:[Drug resistance genes]. 135 69

P-glycoprotein, the product of the multidrug resistance (MDR1) gene, is an ATP-driven transmembrane pump that increases the resistance of cells by actively exporting toxic chemicals. In addition to transporting anticancer drugs, P-glycoprotein has been reported to extrude a variety of lipophilic drugs, such as calcium channel blockers, phenothiazines, cyclosporines etc. Interestingly, recent experiments suggest that steroid hormones may be physiologic substrates for P-glycoprotein. In addition, there exists a family of transporter genes with high structural homology to P-glycoprotein, the so-called ABC (ATP-binding casette) family. Although the physiological ligands for most of these transporters are unknown, there is increasing evidence that peptides may be transported by some of these proteins. Thus, the a-factor, a farnesylated pheromone with 13 amino acids, is exported from yeast cells by the product of the STE6 gene, a transporter protein with high homology to P-glycoprotein. Recently, we have cloned a novel member of the ABC-transporter gene family from neuroblastoma x glioma hybrid (NG-108-15) cells. This putative transporter gene ("NG-TRA") is expressed in the adrenal gland, kidney and in the brain. High amounts of NG-TRA mRNA are found in a variety of human brain tumors. Whether NG-TRA and/or other MDR-related transporters are involved in the transport of steroids, peptide hormones or growth factors remains to be established. If so, the cellular export of hormones by active pumps may represent a new mechanism of hormone secretion.
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PMID:New mechanisms of hormone secretion: MDR-like gene products as extrusion pumps for hormones? 135

Expression of P-glycoprotein, the product of the MDR1 gene, confers multidrug resistance on cell lines and human tumours (reviewed in refs 1,2). P-glycoprotein (relative molecular mass 170,000) is an ATP-dependent, active transporter which pumps hydrophobic drugs out of cells, but its normal physiological role is unknown. It is a member of the ABC (ATP-binding cassette) superfamily of transporters, which includes many bacterial transport systems, the putative peptide transporter from the major histocompatibility locus, and the product of the cystic fibrosis gene (the cystic fibrosis transmembrane regulator, CFTR). CFTR is located in the apical membranes of many secretory epithelia and is associated with a cyclic AMP-regulated chloride channel. At least two other chloride channels are present in epithelial cells, regulated by cell volume and by intracellular Ca2+, respectively. Because of the structural and sequence similarities between P-glycoprotein and CFTR, and because P-glycoprotein is abundant in many secretory epithelia, we examined whether P-glycoprotein might be associated with one or other of these channels. We report here that expression of P-glycoprotein generates volume-regulated, ATP-dependent, chloride-selective channels, with properties similar to channels characterized previously in epithelial cells.
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PMID:Volume-regulated chloride channels associated with the human multidrug-resistance P-glycoprotein. 137 98

Two sets of recent findings draw our attention to questions concerning the origin of ion channels. First, there is sequence similarity among five classes of channels: voltage-gated channels, a putative Ca(2+)-activated K+ channel, cyclic nucleotide-gated cation channels, a putative Ca2+ channel for phosphoinositide-mediated Ca2+ entry, and a plant K+ channel/transporter. Like voltage-gated K+ channels, the most recently identified members of the superfamily share the basic design of one set of six potential membrane-spanning segments plus the H5 sequence; as such, they may resemble more closely the ancestral channel, which is likely to predate the separation of the animal and plant kingdoms. Second, several members of the ABC superfamily function as ion channels, even though they were previously known as transporters or enzymes. Did some ancestral enzymes subsequently acquire channel/transporter function? Or could it be the other way around? Aside from evolutionary considerations, enzymes and ion channels can no longer be treated as separate and nonoverlapping groups of proteins. When one molecule exhibits both functions, there are interesting mechanistic questions: How might the enzyme activity such as ATP hydrolysis be coupled to activation/regulation of the intrinsic channel activity? How might interactions between the permeant ions and the channel pore in turn regulate the enzymatic function of the same molecule? It seems possible that the latter is an extension of the observed coupling between permeant ions and the gating machinery of an ion channel (Swenson and Armstrong, 1981). Finally, the potential cross-regulation between channel activity and enzyme activity within the same molecule offers many intriguing possibilities for the integration of different cellular functions.
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PMID:Tracing the roots of ion channels. 137 39

Presentation of cytoplasmic antigens to class I-restricted cytotoxic T cells implied the existence of a specialized peptide transporter. For most class I heavy chains, association with peptides of the appropriate length is required for stable assembly with beta 2-microglobulin. Mutant cells RMA-S and .174/T2 neither assemble stable class I molecules nor present intracellular antigens, and we have suggested that they have lost a function required for the transport of short peptides from the cytosol to the endoplasmic reticulum. The genetic defect in .174 has been localized to a large deletion in the class II region of the major histocompatibility complex, within which two genes (RING4 and RING11) have been identified that code for 'ABC' (ATP-binding cassette) transporters. We report here that the protein products of these two genes assemble to form a complex. Defects in either protein result in the formation of unstable class I molecules and loss of presentation of intracellular antigens. The molecular defect in a new mutant, BM36.1, is shown to be in the ATP-binding domain of the RING11/PSF2 protein. This is in contrast to the mutant .134, which lacks the RING4/PSF1 protein.
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PMID:Assembly and function of the two ABC transporter proteins encoded in the human major histocompatibility complex. 153 51

A priming mechanism requiring dnaA, dnaB, and dnaC proteins operates on a single-stranded DNA coated with single-stranded DNA-binding protein. This novel priming, referred to as "ABC-priming," requires a specific hairpin structure whose stem carries a dnaA protein recognition sequence (dnaA box). In conjunction with primase and DNA polymerase III holoenzyme, ABC-priming can efficiently convert single-stranded DNA into the duplex replicative form. dnaA protein specifically recognizes and binds the single-stranded hairpin and permits the loading of dnaB protein to form a prepriming protein complex containing dnaA and dnaB proteins which can be physically isolated. ABC-priming can replace phi X174 type priming on the lagging strand template of pBR322 in vitro, suggesting a possible function of ABC-priming for the lagging strand synthesis and duplex unwinding. Similar to the phi X174 type priming, a mobile nature of ABC-priming was indicated by helicase activity in the presence of ATP of a prepriming protein complex formed at the hairpin. The implications of this novel priming in initiation of replication at the chromosomal origin, oriC, and in its contribution to the replication fork are discussed.
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PMID:The ABC-primosome. A novel priming system employing dnaA, dnaB, dnaC, and primase on a hairpin containing a dnaA box sequence. 216 1

The uvrA, uvrB, and uvrC genes control excision repair in Escherichia coli. Cells with mutations in any of these three genes cannot repair DNA by nucleotide excision. When the purified gene products--the UvrA, UvrB, and UvrC proteins--are mixed together, an excision nuclease is formed that incises on both sides of the damaged nucleotide in an ATP-dependent reaction; it has been presumed that the excision nuclease was an ABC complex containing all three Uvr proteins. To determine the stoichiometry of the subunits in the enzyme, we conducted hydrodynamic studies with mixtures of the subunits with or without DNA substrate. We found that without DNA the UvrA subunit is a dimer and that when UvrB protein is also present, a (UvrA)2(UvrB)1 complex forms. Without DNA no detectable interaction of either the UvrA or UvrB subunits or the (UvrA)2(UvrB)1 complex with the UvrC subunit occurs. Unexpectedly, with UV-irradiated DNA, the UvrA/UvrB ratio in isolated DNA-protein complexes is variable, and the ratio becomes infinitesimally low as the UvrA concentration in the reaction mixture decreases. Under conditions of saturating UvrB protein approximately one UvrB molecule binds to DNA per damaged site in a reaction that requires catalytic amounts of UvrA subunit. Addition of UvrC protein to purified UvrB-DNA complexes results in rapid incision of the DNA, presumably catalyzed by an excision nuclease containing only UvrB and UvrC subunits.
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PMID:The (A)BC excinuclease of Escherichia coli has only the UvrB and UvrC subunits in the incision complex. 254 48

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