Interaction of ivermectin with multidrug resistance proteins (MRP1, 2 and 3)

Ivermectin is a potent antiparasitic drug from macrocyclic lactone (ML) family, which interacts with the ABC multidrug transporter P-glycoprotein (Pgp). We studied the interactions of ivermectin with the multidrug resistance proteins (MRPs) by combining cellular and subcellular approaches. The inhibition by ivermectin of substrate transport was measured in A549 cells (calcein or 2',7'-bis(2-carboxyethyl)-5(6)-carboxyfluorescein, BCECF) and in HL60-MRP1 (calcein). Ivermectin induced calcein and BCECF retention in A549 cells (IC(50) at 1 and 2.5microM, respectively) and inhibited calcein efflux in HL60-MRP1 (IC(50)=3.8microM). The action of ivermectin on the transporters ATPase activity was followed on membranes from Sf9 cells overexpressing human Pgp, MRP1, 2 or 3. Ivermectin inhibited the Pgp, MRP1, 2 and 3 ATPase activities after stimulation by their respective activators. Ivermectin showed a rather good affinity for MRPs, mainly MRP1, in the micromolar range, although it was lower than that for Pgp. The transport of BODIPY-ivermectin was followed in cells overexpressing selectively Pgp or MRP1. In both cell lines, inhibition of the transporter activity induced intracellular retention of BODIPY-ivermectin. Our data revealed the specific interaction of ivermectin with MRP proteins, and its transport by MRP1. Although Pgp has been considered until now as the sole active transporter for this drug, the MRPs should be taken into account for the transport of ivermectin across cell membrane, modulating its disposition in addition to Pgp. This could be of importance for optimizing clinical efficacy of ML-based antiparasitic treatments. This offers fair perspectives for the use of ivermectin or non-toxic derivatives as multidrug resistance-reversing agents.     

Subcellular compartmentation of different lipophilic fluorescein derivatives in maize root epidermal cells

Summary Fluorescence microscopy offers some distinct advantages over other techniques for studying ion transport processes in situ with plant cells. However, the use of this technology in plant cells has been limited by our lack of understanding the mechanisms that influence the subcellular distribution of dyes after loading with the lipophilic precursors. In this study, the subcellular distribution of 5-(and 6-)carboxydichlorofluorescein (CDCF), carboxy-SNAFL-1, and carboxy-SNARF-1 was compared to that of 2,7-bis-(2-carboxyethyl)-5-(and 6-)carboxyfluorescein (BCECF) after incubation of maize roots with their respective lipophilic precursors. Previously, we reported that incubation of roots with BCECF-acetomethyl ester (BCECF-AM) led to vacuolar accumulation of this dye. Similar results were found when roots were incubated with CDCF-diacetate. In contrast, carboxy-SNAFL-1 appeared to be confined to the cytoplasm based on the distribution of fluorescence and the excitation spectra of the dye in situ. On the other hand, incubation of roots with carboxy-SNARF-1-acetoxymethyl acetate yielded fluorescence throughout the cell. When the cytoplasm of epidermal cells was loaded with the BCECF acid by incubation at pH 4 in the absence of external Ca, the dye was retained in the cytoplasm at least 3 h after the loading period. This result indicated that vacuolar accumulation of BCECF during loading of BCECF-AM was not due to transport of BCECF from cytoplasm to vacuole. The esterase activities responsible for the production of either carboxy-SNAFL-1 or BCECF from their respective lipophilic precursor by extracts of roots were compared. The characterization of esterase activities was consistent with the subcellular distribution of these dyes in root cells. The results of these experiments suggest that in maize root epidermal cells the subcellular distribution of these fluorescein dyes may be determined by the characteristics of the esterase activities responsible for hydrolysis of the lipophilic precursor.Abbreviations BCECF (BCECF-AM) 2,7-bis-(2-carboxyethyl)-5-(and 6-)carboxyfluorescein (its acetoxymethyl ester) - BTB bis-trispropane - CDCF (CDCF-DA) 5-(and 6-)carboxy-2,7-dichlorofluorescein (its diacetate derivative) - DAPI 4,6-diamidino-2 phenylindole dihydrochloride - DMSO dimethylsulfoxide - HEPES N-[2-hydroxyethyl] piperazine-N-[2-ethanesulfonic acid] - MES 2-[N-morpholino]ethane-sulfonic acid - SNAFL-1 (SNAFL-1-DA) carboxyl SNAFL-1 (its diacetate) - SNARF-1 (SNARF-1-AM) carboxyl SNARF-1 (its acetoxymethyl acetate)     

Photoreactive fatty acid analogues that bind to the rat liver fatty-acid binding protein: 11-(5′-azido-salicylamido)-undecanoic acid derivatives

Summary Photoreactive probes for the hydrophobic pocket of the liver fatty acid-binding protein, 11-(5-azido-salicylamido)-undecanoic acid (5 ASU) and its acetyl ester (Ac5 ASU), were synthesized and their interaction with the protein was assessed. Fatty acid-binding proteins are closely related proteins which are abundantly expressed in tissues with active lipid metabolism. A simple model that assumes that the protein possesses a single kind of sites fitted the binding of radioiodinated 5 ASU to L-FABP satisfactorily. The apparent dissociation constant, 1.34×10^–7 M, evidenced a slightly higher affinity than that reported for C16–C20 fatty acids. Consistent with the binding curve, 5 ASU effectively competed with palmitic acid for the hydrophobic sites and the effect was nearly complete for concentrations of 1 gmM; oleic acid, in turn, displaced the radiolabelled probe. Irradiation at 366 nm of¹²⁵I-5 ASU bound to L-FABP caused the covalent cross-linking of the reagent. The amount of radioactivity covalently bound reached a maximum after 2 min thus agreeing with the photo-activation kinetics of the unlabelled compound that evidenced a t_1/2 of 31.1 sec. The yield with which probes bound to L-FABP became covalently linked to the protein, appraised after SDS-PAGE of irradiated samples, was estimated as 23 and 26 per cent for 5 ASU and Ac5 ASU respectively. In turn, irradiation of L-FABP incubated with 5ASU or Ac5 ASU resulted in the irreversible loss of about one fourth its ability to bind palmitic acid. Both results, taken together, suggested that the derivatives are linked to the protein through the sites for fatty acids. When cross-linking of¹²⁵I-5 ASU was performed after incubation with delipidated cytosol and products were analyzed by SDS-PAGE, a band was visualized in a position similar to that of purified L-FABP.Abbreviations FABP Fatty Acid-Binding Protein - L-FABP Hepatic FABP - I-FABP Intestinal FABP - C-FABP Cardiac FABP - 5 ASU-11 (5-azido-salicylamido)-undecanoic acid - Ac5 ASU-11 (O-acetyl-5-azido-salicylamido)-undecanoic acid     

Detoxification of xenobiotics by plant cells: characterisation of vacuolar amphiphilic organic anion transporters

The transport activities of two primary ATP-dependent organic-anion transporters in the tonoplast of isolated barley (Hordeum vulgare L. cv. Klaxon) vacuoles have been characterised with N-ethylmaleimide glutathione (NEM-SG) and taurocholate as substrates. The transporters showed different sensitivities to organic anions and a variety of transport inhibitors and drugs. The vacuolar uptake of NEM-SG was inhibited by carbonylcyanide 4-trifluoromethoxyphenylhydrazone, 4,4-diisothiocyanatostilbene-2,2-disulfonic acid (DIDS), S-(2,4-dinitrophenyl)glutathione, alkyl-S-glutathione derivatives and taurocholate but stimulated by probenecid. The uptake of taurocholate was inhibited by vinblastine, DIDS and probenecid. Both transporters were unaffected by verapamil. The kinetic properties of the transporters indicate a general preference for amphiphilic anions with some substrate overlap. These characteristics of the transporters are similar to those displayed by the multidrug resistance protein of mammalian drug-resistant cells. We suggest that these vacuolar transporters be described as plant multispecific organic anion transporters (pMOATs).Abbreviations Bm-S bimane S-glutathione - DIDS 4,4-diisothiocyanatostilbene-2,2-disulfonic acid - DNP-SG S-(2,4-dinitrophenyl)glutathione - FCCP carbonylcyanide 4-trifluoromethoxyphenylhydrazone - LTC₄ cysteinyl leukotriene - MDR multidrug transporter - MRP multidrug resistance protein - NEM-SG N-ethylmaleimide glutathione We thank Prof E. Martinoia for technical advice on the uptake experiments and Prof J. Palmer for helpful discussions and suggestions. M.B.-K. was partially sponsored by a grant from Stichting VSB Fonds, The Netherlands. IACR receives grant-aided support from the Biotechnology and Biological Science Research Council of the United Kingdom     

Epithelial properties of human intestinal Caco-2 cells cultured in a serum-free medium

Human intestinal Caco-2 cells were cultured under serum-free conditions on an insoluble collagen and FCS matrix (Caco-2-SF), and a comparison was made between several characteristics of Caco-2 and Caco-2-SF cells. Their morphological appearance was identical. Slight differences were found in cell growth and expression of brush border enzymes between Caco-2 and Caco-2-SF cells. Similar levels of activity of Gly-Gly transport were expressed in both types of cell. Caco-2 cells cultured on permeable filters showed high transepithelial electrical resistance (TEER), indicating the high monolayer integrity. The transepithelial transport activity for glucose, alanine and Gly-Gly was detected by measuring the change in short-circuit current (Isc) after adding each of these nutrients to the apical chamber. In Caco-2-SF cells, such parameters as TEER and Isc were reduced drastically, suggesting that the monolayer integrity and cell polarity that are important for transepithelial transport were not attained. These parameters, however, could be restored by adding FCS or by milk whey. The result suggested that FCS and milk whey contain factors which regulate the formation of the tight junctions and, consequently, the development of cell polarity. Thus the Caco-2-SF cell-culture system will provide a useful model for studying factors which regulate the intestinal transepithelial transport functions.Abbreviations BCECF 2,7-bis(carboxyethyl)-5(6)-carboxyfluorescein - TEER transepithelial electrical resistance - LY lucifer yellow CH lithium salt     

The mechanism of lactate transport in human erythrocytes

Summary Lactate accumulates in human erythrocytes stored at 4°C in the presence of glucose. Efflux of lactate exhibits an activation energy of 22 kcal/mole and is markedly stimulated with increasing medium pH. Lactate influx into erythrocytes that were depleted of intracellular lactate by incubation at 37° at pH 8.0 was stimulated by decreasing medium pH. Under appropriate conditions the pH-dependent lactate flux was insensitive to 4-acetamido-4-isothiocyano-2,2-disulfonic stilbene or 4,4-diisothiocyano-2,2-disulfonic stilbene, inhibitors of the inorganic anion channel, while, e.g., inorganic phosphate transport was fully sensitive. These experiments as well as measurements of H⁺ movements associated with lactate fluxes demonstrate that lactate transport takes place via a specific monocarboxylate transporter (distinct from the inorganic ion channel) by a H⁺-lactate symport mechanism.     

Influence of isolation media on synaptosomal properties: Intracellular pH,pCa, and Ca2+ uptake

Preparations of synaptosomes isolated in sucrose or in Na⁺-rich media were compared with respect to internal pH (pH₁), internal Ca²⁺ concentration ([Ca²⁺]_i), membrane potential and⁴⁵Ca²⁺ uptake due to K⁺ depolarization and Na⁺/Ca²⁺ exchange. We found that synaptosomes isolated in sucrose media have a pH_i of 6.77±0.04 and a [Ca²⁺]_i of about 260 nM, whereas synaptosomes isolated in Na⁺-rich ionic media have a pH_i of 6.96±0.07 and a [Ca²⁺]_i of 463 nM, but both types of preparations have similar membrane potentials of about –50 mV when placed in choline media. The sucrose preparation takes up Ca²⁺ only by voltage sensitive calcium channels (VSCC'S) when K⁺-depolarized, while the Na⁺-rich synaptosomes take up⁴⁵Ca²⁺ both by VSCC'S and by Na⁺/Ca²⁺ exchange. The amiloride derivative 2, 4 dimethylbenzamil (DMB), at 30 M, inhibits both mechanisms of Ca²⁺ influx, but 5-(N-4-chlorobenzyl)-2, 4 dimethylbenzamil (CBZ-DMB), at 30 M, inhibits the Ca²⁺ uptake by VSCC'S, but not by Na⁺/Ca²⁺ exchange. Thus, DMB and CBZ-DMB permit distinguishing between Ca²⁺ flux through channels and through Na⁺/Ca²⁺ exchange. We point out that the different properties of the two types of synaptosomes studied account for some of the discrepancies in results reported in the literature for studies of Ca²⁺ fluxes and neurotransmitter release by different types of preparations of synaptosomes.Abbreviations used BCECF 2,7-Biscarboxyethyl-5(6)-carboxyfluorescein - BCECF/AM acetoxymethyl ester of BCECF - [Ca²⁺]_i Internal free calcium ion concentration - CBZ-DMB 5-(N-4-chlorobenzyl)-2,4-dimethylbenzamil - DMB 2, 4-dimethylbenzamil - DMSO dimethyl sulfoxide - Indo-1/AM acetoxymethyl ester of Indo-1 - MES 2-|N-Morpholino|ethanesulfonic acid - NMG N-methyl-D-glucamine - pH_i internal pH - TPP⁺ tetraphenylphosphonium - _p plasma membrane potential     

Detection of MRP functional activity: calcein AM but not BCECF AM as a Multidrug Resistance-related Protein (MRP1) substrate

Resistance to anticancer drugs has been attributed to an array of cellular changes. The multidrug resistance-related protein (MRP1) is an efflux pump whose overexpression confers resistance to several classes of drugs, such as the anthracyclines, epipodophyllotoxins, and vinca alkaloids. These drugs are mainstays in cancer therapy. MRP1 overexpression is hypothesized to be a causative agent of clinical treatment failure. Consistently accurate methods for detecting this protein are necessary to further understand its biology and delineate its possible clinical relevance. Flow cytometric analysis of multidrug resistance (MDR) is a valuable method to evaluate both antigen expression and function. Using flow cytometry, we assayed MRP1 functional activity in pediatric leukemic blasts and an array of MDR+ and WT cell lines. We conclude that calcein AM, when used in a retention assay with MRP1-specific modulators, is able to reliably detect MRP functional activity. 2'-7'-bis(2-carboxyethyl)-5(6)-carboxyfluorescein (BCECF AM) transport is not indicative of MRP1 overexpression. .     

Acidic pH of the lateral intercellular spaces of MDCK cells cultured on permeable supports

The pH of the lateral intercellular space (LIS) of Madin-Darby canine kidney (MDCK) cell monolayers grown on permeable supports was investigated by microspectrofluorimetry using BCECF (2,7-bis(carboxyethyl)-5,6-carboxyfluorescein). The permeability of the support was selectively reduced by growing ZnAl-silicate crystals inside its pores. The diffusion of BCECF across the filter was sufficiently retarded to allow measurements of fluorescence in the LIS. The LIS pH and intracellular pH of the cells surrounding them were determined in HEPES-buffered solutions. When the perfusate pH was 7.4, the LIS pH was more acidic (7.06±0.02) and equaled the cytoplasmic pH (7.08±0.05). When perfusate was changed to pH 7.0 or 7.8, the LIS changed linearly by about half the magnitude of the perfusate pH. Intracellular pH followed LIS pH variations between perfusate pH 7.0 and 7.4 but was significantly higher when perfusate pH was 7.8. Tight junctional H⁺ permeability was undetectably low. The low steady-state pH in the LIS was not altered by inhibitors of acid transport or low temperature. Rapid perturbations of pH in the LIS showed that protons were not immobilized in the LIS. The acidic microenvironment within the LIS may be the result of buffering by the cell surface proteins.We are indebted to Dr. M.V. King (Wadsworth Center for Laboratories and Research, Albany, NY) for introducing us to the chemistry of silicates. J.-Y.C. is supported in part by the Ciba-Geigy Jubiläums Stiftung (Basel, Switzerland) and the Fondation Académique Vaudoise (Lausanne, Switzerland).     

Concentration/response effect of 2,2′, 4,4′, 5,5′-hexabromobiphenyl on cell-cell communication in vitro: assessment by fluorescence redistribution after photobleaching (“FRAP”)

Inhibition of gap junction-mediated cell-cell communication might be a mechanism for several types of cellular dysfunctions, including tumor promotion. Although many different assays have been designed to measure gap junction-mediated intercellular communication, we applied a new technique, termed Fluorescence Redistribution After Photobleaching (FRAP), to assess the ability of a known tumor promoter, 2,2, 4,4, 5,5-hexabromobiphenyl (245-HBB), to inhibit cell-cell communication in a concentration-dependent manner. WB-F344 (rat epithelial) cells were plated at low density, exposed to noncytotoxic concentrations of 1, 5, or 20 µg 245-HBB/ml medium, and stained with 6-carboxyfluorescein diacetate. Single cells in pairs or clusters of touching cells in each exposure group were examined with FRAP. The results revealed an inverse correlation between the degree offluorescence redistribution in photobleached cells and the concentration of 245-HBB. Therefore, FRAP appears to be a sensitive and rapid technique for determining complete or partial inhibition of chemically induced intercellular communication in vitro. These results also provide further evidence for the ability of 245-HBB to inhibit gap junction-mediated cell-cell communication in a concentration-dependent manner.Abbreviations 6-CFDA 6-carboxyfluorescein diacetate - FRAP fluorescence redistribution after photobleaching - 245-HBB 2,2, 4,4, 5,5-hexabromobiphenyl Michigan Agricultural Experiment Station journal article No. 12531.     

Metabolite detection in Rhodococcus benzothiophene desulfurization using reversed-phase solid-phase extraction and a derivatization technique

Hydrophilic benzo[b]thiophene metabolites produced by Rhodococcus sp. strain T09 were isolated by a solid-phase extraction and a derivatization method, which prevented the dehydration that often occurs during liquid-liquid extraction (LLE), and were identified by GC with atomic emission detection and GC-MS. As a result, cis- or trans-2-(2-hydroxyphenyl) ethen-1-ol, previously reported as the tautomer 2-(2-hydroxyphenyl) ethan-1-al, and 2-(2-hydroxyphenyl) ethen-1-sulfenic acid and its isomer, 1-(1-hydroxyethenyl) benzene-2-sulfenic acid, were identified. Benzothiophene desulfurization in culture broth at neutral pH by the strain T09 was modified as a branched metabolism from benzothiophene S-oxide based on the above compounds.     

Full 1H NMR assignment of a 24-nucleotide RNA hairpin: Application of the 1H 3D-NOE/2QC experiment

The subject RNA models the binding site for the coat protein of the R17 virus, as well as the ribosome recognition sequence for the R17 replicase gene. With an RNA of this size, overlaps among the sugar protons complicate assignments of the ¹H NMR spectrum. The cross peaks that overlap significantly in 2D-NOE spectra can frequently be resolved by introducing a third, in our approach the double-quantum, frequency axis. In particular the planes in a 3D-NOE/2QC spectrum perpendicular to the 2Q axis are extremely useful, showing a highly informative repeating NOE-2Q pattern. In this experiment substantial J-coupling confers special advantages. This always occurs for geminal pairs (H5/H5 for RNA plus H2/H2 for DNA), as well as for H5/H6, for H3/H4 in sugars with substantial populations of the N-pucker, for H1/H2 for S-puckered sugars, and usually for H2/H3. For the 24-mer RNA hairpin the additional information from the 3D-NOE/2QC spectrum allowed assignment of all of the non-exchangeable protons, eliminating the need for stable-isotope labeling.     

Carotenoid pigments of Sorangium compositum (Myxobacterales) including two new carotenoid glucoside esters and two new carotenoid rhamnosides

Summary The carotenoid pigments of the myxobacterium Sorangium compositum were analyzed by chromatographical and chemical techniques and by visible, infra red, and mass spectroscopy. Besides -carotene, neurosporene, torulene, lycopene, and 1,2-dihydro-1-hydroxy--carotene, four new carotenoid glycosides were found. These pigments were identified as 1,2-dihydro-1-hydroxy-torulene glucoside ester (I), 1,2-dihydro-3,1-dihydroxy-torulene glucoside ester (III), 1,2-dihydro-1-hydroxy-torulene rhamnoside (II), and 1,2-dihydro-3,1-dihydroxytorulene rhamnoside (IV).Fifth communication on the carotenoids of myxobacteria. Fourth communication see Arch. Mikrobiol. 76, 364–380 (1971).     

Seasonal use of oceanographic and fisheries management zones by juvenile southern elephant seals (<Emphasis Type="Italic">Mirounga leonina</Emphasis>) from Macquarie Island

The foraging distribution of marine predator populations is important for effective modelling and management of pelagic marine systems. We tracked 31 juvenile southern elephant seals from Macquarie Island (158°57E, 54°30S) over their annual post-moult and mid-year trips to sea. We calculated the amount of time spent in regional fisheries management areas and within bounded oceanographic regions. During the austral summer, juvenile seals spent over 90% of their time south of the Antarctic Polar Front and ~80% within fisheries management regions [Commission for the Conservation of Antarctic Marine Living Resources (CCAMLR) and exclusive economic zones]. In winter, seals spent ~75% of their time in the region bounded by the Antarctic Polar Front and the southern boundary of the Antarctic Circumpolar Current, and ~60% within fisheries management regions. The time spent per region differed significantly between summer and winter. Our results demonstrate that juvenile southern elephant seals from Macquarie Island spent more time south of the Antarctic Polar Front and within fisheries management areas than previously suspected.     

Molecular dynamics simulations of ribonuclease T1

Molecular dynamics simulations in vacuum and with a water sphere around the active site were performed on the 2GMP-RNase T1 complex. The presence of water led to the maintenance of the 2-GMP-RNase T1 interactions as compared to the X-ray structure, including the hydrogen bonds implicated in the enzyme-inhibitor recognition process. The sidechain of His92 in the molecular dynamics water simulation, however, hydrogen bonds directly to the phosphate of 2GMP in contrast to the X-ray structure but in support of the role of that residue in the enzyme's catalytic mechanism. Fluctuations of activesite residues are not strongly influenced by water, possibly owing to the exclusion of water by the bound 2GMP, which did show an increase in mobility. Analysis of the 2GMP-RNase T1 interactions versus time reveal an equilibrium fluctuation in the presence of water, leading to a less favorable 2GMP-RNase T1 interaction energy, suggesting a possible relationship between picosecond fluctuations and inhibitor dissociation occurring in the millisecond time domain.Abbreviations RNase T1 Ribonuclease T1 (EC.3.1.27.3) - 2GMP Guanosine-2-monophosphate - SBS Stochastic Bondary Simulation - VS Vacuum Simulation - MD Molecular Dynamics     

Calcium-loaded 1,2-bis(2-aminophenoxy)ethane-N,N,N′,N′-tetraacetic acid blocks cell-to-cell diffusion of carboxyfluorescein in staminal hairs of Setcreasea purpurea

The effect of microinjected calcium-loaded 1,2-bis(2-aminophenoxy) ethane-N,N,N,N-tetraacetic acid (CaBAPTA) on cell-to-cell diffusion of carboxyfluorescein (CF) was examined in staminal hairs of S. purpurea Boom. The CaBAPTA was microinjected into the cytoplasm of the staminal hairs either with CF or prior to a subsequent microinjection of CF. The cell-to-cell diffusion of CF along the hair was monitored using enhanced-fluorescence video microscopy. Cytoplasmic streaming stopped in cells treated with CaBAPTA, indicating that intracellular Ca²⁺ had increased. Cell-to-cell diffusion of CF was blocked in cells treated with Ca-BAPTA. An inhibition of cytoplasmic streaming and cell-to-cell diffusion was observed in the cells adjoining the CaBAPTA-microinjected cell, indicating that the Ca-BAPTA appeared to pass through plasmodesmata. While cytoplasmic streaming resumed 5–10 min after CaBAPTA treatment, cell-to-cell diffusion did not resume until 30–120 min later. These data support an involvement of calcium in the regulation of cell-to-cell communication in plants.Abbreviations BAPTA 1,2-bis(2-aminophenoxy)ethane-N,N,N, N-tetraacetic acid - CF carboxyfluorescein This work was supported by Professional Staff Congress-City University (PSC-CUNY) of New York grant No. 667180 and U.S. Department of Agriculture grant No. 87-CRCR-1-244.     

Sequence- and Regio-Selectivity in the Montmorillonite-Catalyzed Synthesis of RNA

The six binary montmorillonite clay-catalyzed reactions of the5-phosphorimidazolides of adenosine, cytidine, guanosine anduridine were performed and the eight dimers from each reactionwere separated and analyzed by HPLC. A 16–51-fold higher yieldof the 5-purine-pyrimidine dimers over that of the5-pyrimidine-purines was observed. The total yield of the5-purine-pyrimidine dimers was in the 50–70% range while thatof the 5-pyrimidine-purine dimers was 1.3–7.0%. Less sequenceselectivity was observed in the homodimers formed.Regioselectivity for the formation of 3, 5-phosphodiesterbonds over that found in the absence of clay was observed. The5-purine-pyrimidine, 5-pyrimidine-pyrimidine and5-purine-purine dimers had 3, 5-links in about half of theirphosphodiester bonds. The percent phosphodiester links in the5-pyrimidine-pyrimidine dimers was 18%, a value close to thatobserved in the absence of the montmorillonite catalyst. Themontmorillonite-catalyzed reaction of all four activatednucleotides was performed and the 24 products were separated andanalyzed. The trends observed in the binary reactions wereconfirmed and the results also showed that the relativereactivity of the activated monomers was A>G>C>U in theratio 8.2: 4.8: 1.3: 1 respectively. No 5-pyrimidine-purineswith a 5-U and pG³pU, pC³pAand pC³pG weredetected. These studies suggest that a limited population ofRNAs would have formed in catalyzed prebiotic reactions.     

Phenothiazine maleates stimulate MRP1 transport activity in human erythrocytes

The expression of multidrug resistance-associated protein (MRP1) results in ATP-dependent reduction of drugs' concentration in cancer cells, i.e., multidrug resistance (MDR). Since the majority of projects are concentrated on the search of the new MDR modulators, there are very few reports on drug-induced stimulation of MDR transporters activity. In the present work, by means of functional fluorescence assay we have shown that MRP1-mediated efflux of 2',7'-bis-(3-carboxypropyl)-5-(and-6)-carboxyfluorescein (BCPCF) out of human erythrocytes is stimulated by phenothiazine maleates that have been already identified as P-glycoprotein inhibitors. Phenothiazine maleates-induced stimulation of ATP-dependent uptake of 2',7'-bis-(3-carboxyethyl)-5-(and-6)-carboxyfluorescein (BCECF) into inside-out membrane vesicles prepared from erythrocyte membranes has been also demonstrated. Moreover, it was shown that phenothiazine maleates exerted stimulating effect on ATPase activity measured in erythrocyte membranes. To our best knowledge, this report is the first one demonstrating that compounds able to inhibit transport activity of P-glycoprotein can stimulate MRP1 transporter. We conclude that phenothiazine maleates probably exert their stimulatory effect on MRP1 by direct interaction with the protein at the site different from the substrate binding site.     

Den 1, Den2 and Den3, ATP-inhibited deoxyribonucleases from Dropsophila embryonic nuclei

Three Drosophila embryonic deoxyribonucleases, designated den1, den2 and den3, are identified in nuclear extracts separated by glycerol density gradient centrifugation. Den1, removes short products from the 5-ends of single-stranded DNA or double-stranded DNA with either blunt or 5-recessed termini. Den2 is inactive with single-stranded DNA and acts as 3-exonuclease with double-stranded DNA possessing either blunt or 3-recessed termini. Den3 preferentially uses partial duplex DNA containing single-stranded gap and it catalyzes hydrolysis, in 3-5 direction, of one of the shorter strands that flank the gap. Nucleolytic activities of den1, den2 and den3 are inhibited with ATP.     

Regulation of basolateral membrane potential after stimulation of Na+ transport in proximal tubules

Summary We have previously shown that stimulation of apical Na-coupled glucose and alanine transport produces a transient depolarization of basolateral membrane potential (V _bl) in rabbit proximal convoluted tubule (PCT. Sl segment). The present study is aimed at understanding the origin of the membrane repolarization following the intial effect of addition of luminal cotransported solutes. Luminal addition of 10–15mMl-alanine produced a rapid and highly significant depolarization ofV _bl (20.3±1.1 mV,n=15) which was transient and associated with an increase in the fractional K⁺ conductance of the basolateral membrane (t _K) from 8 to 29% (P<0.01,n=6). Despite the significant increase int _K, the repolarization was only slightly reduced by the presence of basolateral Ba²⁺ (2mM,n=6) or quinine (0.5 mM,n=5). The repolarization was greatly reduced in the presence of 0.1 mM 4-acetamino-4isothiocyamostilbene-2,2-disulfonic acid (SITS) and blunted by bicarbonate-free solutions. Intracellular pH (pH _i ) determined with the fluorescent dye 2, 7-bis-2-carboxyethyl-5(and-6)-carboxyfluorescein (BCECF), averaged 7.39±0.02 in control solution (n=9) and increased to 7.50±0.03 in the first 15 sec after the luminal application of alanine. This was followed by a significant acidification averaging 0.16±0.01 pH unit in the next 3 min. In conclusion, we believe that, contrary to other leaky epithelia, rabbit PCT can regulate its basolateral membrane potential not only through an increase in K⁺ conductance but also through a cellular acidification reducing the basolateral HCO ₃ ^– exit through the electrogenic Na-3(HCO₃) cotransport mechanism.