Selection and characterization of chinese hamster ovary cells resistant to the cytotoxicity of lectins

Summary Chinese hamster ovary (CHO) cells selected in a single step for resistance to the cytotoxicity of the lectin from red kidney beans (PHA) behave as authentic somatic cell mutants. The PHA-resistant (Pha^R) phenotype is stable in the absence of selection; its frequency in a sensitive population is increased several-fold by mutagenesis; and it behaves recessively in somatic cell hybrids. The activity of a specific glycosyl transferase which transfers N-acetylglucosamine (GlcNAc) to terminalα-mannose residues is dramatically reduced (⩽5% of the activity detected in wild-type CHO cells) in several independent Pha^R clones. These clones also exhibit (a) a decreased ability to bind [¹²⁵I]-PHA; (b) a marked resistance to the cytotoxicity of wheat germ agglutinin (WGA), Ricin (RIC) andLens culinaris agglutinin (LCA); (c) a 4- to 5-fold increased sensitivity to the cytotoxicity of concanavalin A (Con A); (d) an increased ability to bind¹²⁵I-Con A; and (e) decreased surface galactose residues—all properties consistent with the specific loss of the GlcNAc transferase activity. The lectins WGA, RIC, LCA and Con A have also been used to select, in a single step, resistant clones from each of two complementary CHO auxotrophic lines. These lectin-resistant clones have been characterized by their ability to survive cytotoxic doses of PHA, Con A, WGA, RIC or LCA, and 4–5 “lectin-resistance” phenotypes have been demonstrated. Complementation data is being sought by somatic cell hybridization. Preliminary results show that two phenotypically-distinct Con A^R mutants are complementary in that hybrid cells formed between them exhibit wild-type sensitivity to Con A. Presented in the formal symposium on Information Transfer in Eukaryotic Cells, at the 26th Annual Meeting of the Tissue Culture Association, Montreal, Quebec, June 2–5, 1975.     

Differential expression and signaling of the human histamine H3 receptor isoforms of 445 and 365 amino acids expressed in human neuroblastoma SH-SY5Y cells

In stably-transfected human neuroblastoma SH-SY5Y cells, we have compared the effect of activating two isoforms of 445 and 365 amino acids of the human histamine H₃ receptor (hH₃R₄₄₅ and hH₃R₃₆₅) on [³⁵S]-GTPγS binding, forskolin-induced cAMP formation, depolarization-induced increase in the intracellular concentration of Ca²⁺ ions ([Ca²⁺]i) and depolarization-evoked [^3?H]-dopamine release. Maximal specific binding (B_max) of [^3?H]-N-methyl-histamine to cell membranes was 953?±?204 and 555?±?140?fmol/mg protein for SH-SY5Y-hH₃R₄₄₅ and SH-SY5Y-hH₃R₃₆₅ cells, respectively, with similar dissociation constants (K_d, 0.86?nM and 0.81?nM). The mRNA of the hH₃R₃₆₅ isoform was 40.9?±?7.9% of the hH₃R₄₄₅ isoform. No differences in receptor affinity were found for the H₃R ligands histamine, immepip, (R)(-)-α-methylhistamine (RAMH), A-331440, clobenpropit and ciproxifan. Both the stimulation of [³⁵S]-GTPγS binding and the inhibition of forskolin-stimulated cAMP accumulation by the agonist RAMH were significantly larger in SH-SY5Y-hH₃R₄₄₅ cells ([³⁵S]-GTPγS binding, 158.1?±?7.5% versus 136.5?±?3.6% for SH-SY5Y-hH₃R₃₆₅ cells; cAMP accumulation, ?74.0?±?4.9% versus ?43.5?±?5.3%), with no significant effect on agonist potency. In contrast, there were no differences in the efficacy and potency of RAMH to inhibit [^3?H]-dopamine release evoked by 100?mM K⁺ (?18.9?±?3.0% and ?20.5?±?3.3%, for SH-SY5Y-hH₃R₄₄₅ and SH-SY5Y-hH₃R₃₆₅ cells), or the inhibition of depolarization-induced increase in [Ca²⁺]i (S2/S1 ratios: parental cells 0.967?±?0.069, SH-SY5Y-hH₃R₄₄₅ cells 0.639?±?0.049, SH-SY5Y-hH₃R₃₆₅ cells 0.737?±?0.045). These results indicate that in SH-SY5Y cells, hH₃R₄₄₅ and hH₃R₃₆₅ isoforms regulate in a differential manner the signaling pathways triggered by receptor activation.     

Adenosine A<Subscript>1</Subscript> receptors contribute to immune regulation after neonatal hypoxic ischemic brain injury

Neonatal brain hypoxic ischemia (HI) often results in long-term motor and cognitive impairments. Post-ischemic inflammation greatly effects outcome and adenosine receptor signaling modulates both HI and immune cell function. Here, we investigated the influence of adenosine A₁ receptor deficiency (A₁R^?/?) on key immune cell populations in a neonatal brain HI model. Ten-day-old mice were subjected to HI. Functional outcome was assessed by open locomotion and beam walking test and infarction size evaluated. Flow cytometry was performed on brain-infiltrating cells, and semi-automated analysis of flow cytometric data was applied. A₁R^?/? mice displayed larger infarctions (+33 %, p?<?0.05) and performed worse in beam walking tests (44 % more mistakes, p?<?0.05) than wild-type (WT) mice. Myeloid cell activation after injury was enhanced in A₁R^?/? versus WT brains. Activated B lymphocytes expressing IL-10 infiltrated the brain after HI in WT, but were less activated and did not increase in relative frequency in A₁R^?/?. Also, A₁R^?/? B lymphocytes expressed less IL-10 than their WT counterparts, the A₁R antagonist DPCPX decreased IL-10 expression whereas the A₁R agonist CPA increased it. CD4⁺ T lymphocytes including FoxP3⁺ T regulatory cells, were unaffected by genotype, whereas CD8⁺ T lymphocyte responses were smaller in A₁R^?/? mice. Using PCA to characterize the immune profile, we could discriminate the A₁R^?/? and WT genotypes as well as sham operated from HI-subjected animals. We conclude that A₁R signaling modulates IL-10 expression by immune cells, influences the activation of these cells in vivo, and affects outcome after HI.     

Polycationic peptide R7-G-Aβ25-35 selectively induces cell death in leukemia Jurkat T cells through speedy mitochondrial depolarization,and CASPASE-3 -independent mechanism

BackgroundAcute lymphoblastic leukemia (ALL) is still incurable hematologic neoplasia in an important percentage of patients. Therefore, new therapeutic approaches need to be developed.MethodsTo evaluate the cellular effect of cell-penetrating peptides (C-PP) on leukemia cells, Jurkat cells -a model of ALL were exposed to increasing concentration (50–500 μM) Aβ_25–35, R⁷-G-Aβ_25-35 and Aβ_25–35-G-R⁷ peptide for 24 h. 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) assay, flow cytometry (FC), and fluorescent microscopy (FM) analysis were used to assess metabolic viability, cell cycle and proliferation, mitochondria functionality, oxidative stress, and cell death markers.ResultsWe report for the first time that the R⁷-G-Aβ_25-35, but not Aβ_25–35 peptide, induced selective cell death in Jurkat cells more efficiently than the Aβ_25–35-G-R⁷ peptide. Indeed, R⁷-G-Aβ_25-35 (200 μM) altered the metabolic activity (?25%), arrested the cell cycle in the G2/M-phase (15%), and induced a significant reduction of cellular proliferation (i.e., ?74% reduction of Ki-67 nuclei reactivity). Moreover, R⁷-G-Aβ_25-35 induced the dissipation of mitochondrial membrane potential (ΔΨ_m, 51%) and produced an important amount of reactive oxygen species (ROS, 75% at 8 h) in Jurkat cells. The exposure of cells to antioxidant/cytoprotectant N-acetylcysteine (NAC) did not prevent R⁷-G-Aβ_25-35 from a loss of ΔΨ_m in Jurkat cells. The peptide was also unable to activate the executer CASPASE-3, thereby preserving the integrity of the cellular DNA corroborated by the fact that the caspase-3 inhibitor NSCI was unable to protect cells from R⁷-G-Aβ_25-35 -induced cell damage. Further analysis showed that the R⁷-G-Aβ_25-35 peptide is specifically localized at the outer mitochondria membrane (OMM) according to colocalization with the protein translocase TOMM20. Additionally, the cytotoxic effect of the poly-R⁷ peptide resembles the toxic action of the uncoupler FCCP, mitocan oligomycin, and rotenone in Jurkat cells. Importantly, the R⁷-G-Aβ_25-35 peptide was innocuous to menstrual mesenchymal stromal cells (MenSC) –normal non-leukemia proliferative cells.ConclusionOur findings demonstrated that the cationic Aβ peptide possesses specific anti-leukemia activity against Jurkat cells through oxidative stress (OS)- and CASPASE-3-independent mechanism but fast mitochondria depolarization.     

Synthesis and structure–activity relationships of novel,substituted 5,6-dihydrodibenzo[a,g]quinolizinium P2X7 antagonists

Iminium quaternary protoberberine alkaloids (QPA) have been found to be novel P2X₇ antagonists. To assess their structure–activity relationships, these compounds were modified at their R¹ and R² groups and assayed for their ability to inhibit the 2′(3′)-O-(4-benzoylbenzoyl)-ATP (BzATP)-induced uptake of fluorescent ethidium by HEK-293 cells stably expressing the human P2X₇ receptor, and their ability to inhibit BzATP-induced IL-1β release by differentiated THP-1 cells. Compounds 15a and 15d, with alkyl groups at the R¹ position, and especially compound 19h, with the 2-NO₂-4,5-dimethoxy-benzyl group at the R² position, had potent inhibitory efficacy as P2X₇ antagonists.     

Isolation and characterization of aDatura innoxia cell line resistant to ethanol

A cell line ofDatura innoxia was selected in suspension culture to be resistant to 1% (vol/vol) ethanol (EtOH^R). EtOH^R cells were cross-resistant to 1% (vol/vol) methanol and 1% (vol/vol) 2-propanol but not 1% (vol/vol)n-propanol orn-butanol, whereas wild type (WT) cells were resistant only to methanol. Resistance in EtOH^R cells is probably a result of a very low level of alcohol dehydrogenase (ADH) activity which was only 9 to 10% of that in WT cells and was undetectable during much of the EtOH^R growth cycle. In the absence of ethanol, EtOH^R cells have a I₅₀ for the toxic ethanol analog allyl alcohol, which is nearly 3 times higher than that in WT cells. In the presence of ethanol, EtOH^R cells have an I₅₀ for allyl alcohol which is 12 times more than WT cells. This difference correlated well with the decrease in ADH activity found in EtOH^R cells grown on ethanol. When ethanol was removed from the suspension medium, ADH activity in EtOH^R cells gradually increased to WT levels. When re-exposed to ethanol after 200 cell generations, ADH activity quickly decreased and growth resumed after a 4- to 6-day lag period. Lipid analysis showed a 37% increase in total lipid in EtOH^R cells, mostly in polar lipids, di- and triglycerides. The fatty acid composition of these lipid classes was shifted toward the more polyunsaturated. These lipid changes were probably a reflection of the increased plastid number in the EtOH^R cells and may be a result of growth in ethanol rather than a reason for resistance. EtOH^R cells seem to be regulatory mutants able to quickly lower ADH activity in the presence of ethanol.     

Electrochemical analysis of blood cell/substrate interactions under flow conditions

Interactions of blood cells (RBCs) with a microelectrode of 50 (im diameter have been examined under flow conditions using impedance measurements at high frequencies. At such frequencies, the electrolyte resistance (R_e,) is assimilated to the real part of impedance, and interactions are associated with transient fluctuations of R_e. Sedimentation experiments suggest that one erythrocyte contributes to a 1.1% R_e, increase. Effects of wall shear rate (from 25 to 140 s¹) and RBC concentration (from 8.4 × 10⁵ to 2.7 × 10⁶ cells/ml) have been investigated; the number of interactions rapidly decreases with wall shear rate. Event frequency is proportional to RBC concentration ranging from 3.1 × 10⁶ cells/ml to 1.3 × 10⁷ cells/ml. At high concentrations of RBCs, some transient events overlap. Videotaped images help to determine how many RBCs interact with the microelectrode at the same time on separate surface areas. Under flow conditions, the contribution of one RBC on the R_e increase is similar to the mathematical value obtained by sedimentation and decreases slightly with wall shear rate.     

Synthesis and structure–activity relationships of pyrazolodiazepine derivatives as human P2X7 receptor antagonists

Screening of library compounds has yielded pyrazolodiazepine derivatives with P2X₇ receptor antagonist activity. To explore the structure–activity relationships (SAR) of these pyrazolodiazepines as human P2X₇ receptor antagonists, derivatives were synthesized by substitutions at positions R² and R³ of the pyrazolodiazepine skeleton. Using a 2′(3′)-O-(4-benzoylbenzoyl)ATP (BzATP)-induced fluorescent ethidium uptake assay, the activities of these derivatives were tested in HEK-293 cells stably expressing human P2X₇ receptors. Moreover, the effect of these derivatives was assessed by measuring their effect on IL-1β release induced by BzATP-induced activation of differentiated THP-1 cells. A 2-phenethyl pyrazolodiazepine derivative with a 1-methyl-1H-3-indolyl group at position R² had fivefold greater activity than the derivative with a 5-isoquinolinyl at R². Moreover, a benzyl moiety at R³ had fivefold greater activity than a bicyclic moiety. The stereochemical effect at C-6 showed a preference for the (R)-isomer. Among the series of active derivatives, compound 23b, with a phenethyl group at R¹, a 3-methyl indole at R², and a benzyl at R³, exhibited activity similar to that of the positive control, KN-62, as shown by the inhibitory effects of IL-1β release.     

Ungewöhnliche Rh-muster in einer Familie als Folge von Störungen beim Aufbau der Antigene

Zusammenfassung Ein Sohn und seine Mutter weisen den serologischen Phänotyp DCc Ee (Rh₁ Rh₂) auf. Da die Erythrocyten mit den Komplexseren Anti-Ce,-ce und-cE unterschiedlich bzw. entgegengesetzt reagieren, liegt beim Sohn der Genotyp R^Zr und bei seiner Mutter R¹R² zugrunde. Durch Absorptionsversuche und Dosistitrationen mit einem eigenen Anti-cE (-hr_i) und industriellem Anti-C,-c und-e wird der unterschiedliche Aufbau der Rh-Muster bei beiden Personen dargestellt. Dosierungen mit Anti-D ergaben außerdem für die Mutter Werte, die homozygoten D/D-Mustern entsprechen, und für den Sohn Werte, die heterozygoten Mustern D/. entsprechen. R¹R² bei der Mutter ist zusätzlich durch Untersuchung von Familienmitgliedern nachgewiesen worden.Nachdem die eheliche Abstammung des Sohnes und seiner Schwester durch somatologische Ähnlichkeitsvergleiche und biostatistische Auswertung der Erythrocytenmerkmale, Serumgruppen und Enzymmuster Ph nachgewiesen wurde, wird als Erklärung für R^Zr beim Sohn an Stelle des Crossing-over-Modells eine überschießende Ausprägung von Antigenen beim stufenweisen enzymatischen Aufbau des Rh-Musters angenommen.

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Summary A son and his mother exhibit the serological phenotype DCcEe (Rh₁ Rh₂), but their red cells reacted inversely with anti-Ce,-ce and-cE sera. In accordance with this finding the son had a different genotype (R^Zr) compared with his mother (R¹R²). Absorption studies and titrations with an own anti-cE and with commercial anti-C,-c and-e sera revealed different structures of Rh complexes in both persons: c and E react like a single complex in the mother's and like separate factors in the son's red cells. Moreover, titrations with anti-D serum were consistent with homocygote D/D pattern in the mother's and with heterocygote D/. pattern in the son's red cells. The R¹R² type of the mother was found also in other relatives.The legitimate descent of the son and his sister was proved by somatological studies and by statistical analysis of the full grouping, of the serum groups and of the enzyme pattern Ph. Therefore it is assumed, that an overshooting manifestation of antigens during the stepwise enzyme catalyzed formation of Rh pattern is responsible for the son's R^Zr type and not cross-over.

     

Mitochondrial Genetics. Xii. an Oligomycin-Resistant Mutant Localized at a New Mitochondrial Locus in SACCHAROMYCES CEREVISIAE

Three antibiotic-resistance mutations were isolated from strain FL496–2B: two are independent Mendelian genes, one conferring both oligomycin and venturicidin resistance (oli^R₄₉₆) and the other conferring cycloheximide resistance (cyh^R₄₉₆). The third is a mitochondrial mutation, O^R₉, and confers a low level of oligomycin resistance to cells (in vivo) but not to the extracted mitochondrial ATPase (in vitro). This mutation is located on the mitochondrial DNA at a new locus [OLI4] linked to [OLI2] and independent from [OLI1] and [OLI3] and from the other mitochondrial loci.

All three mutations (O ^R₉, oli^R₄₉₆, cyh^R₄₉₆ ) were found without any selection, in the same prototrophic haploid strain, which contained unknown resistances to antibiotics.

Some physiological, genetical and biochemical properties of the mitochondrial mutation are described.

     

Different Structural Requirements for Melanin‐Concentrating Hormone (MCH) Interacting with Rat MCH‐R1 (SLC‐1) and Mouse B16 Cell MCH‐R

Abstract

Melanin‐concentrating hormone (MCH) is a neuropeptide occurring in all vertebrates and some invertebrates and is now known to stimulate pigment aggregation in teleost melanophores and food‐intake in mammals. Whereas the two MCH receptor subtypes hitherto cloned, MCH‐R₁ and MCH‐R₂, are thought to mediate mainly the central effects of MCH, the MCH‐R on pigment cells has not yet been identified, although in some studies MCH‐R₁ was reported to be expressed by human melanocytes and melanoma cells. Here we present data of a structure‐activity study in which 12 MCH peptides were tested on rat MCH‐R₁ and mouse B16 melanoma cell MCH‐R, by comparing receptor binding affinities and biological activities. For receptor binding analysis with HEK‐293 cells expressing rat MCH‐R₁ (SLC‐1), the radioligand was [¹²⁵I]–[Tyr¹³]‐MCH with the natural sequence. For B16 cells (F1 and G4F sublines) expressing B16 MCH‐R, the analog [¹²⁵I]–[D‐Phe¹³, Tyr¹⁹]‐MCH served as radioligand. The bioassay used for MCH‐R₁ was intracellular Ca²⁺ mobilization quantified with the FLIPR instrument, whereas for B16 MCH‐R the signal determined was MAP kinase activation. Our data show that some of the peptides displayed a similar relative increase or decrase of potency in both cell types tested. For example, linear MCH with Ser residues at positions 7 and 16 was almost inactive whereas a slight increase in side‐chain hydrophilicity at residues 4 and 8, or truncation of MCH at the N‐terminus by two residues hardly changed binding affinity or bioactivity. On the other hand, salmonic MCH which also lacks the first two residues of the mammalian sequence but in addition has different residues at positions 4, 5, 9, and 18 exhibited a 5‐ to 10‐fold lower binding activity than MCH in both cell systems. A striking difference in ligand recognition between MCH‐R₁ and B16 MCH‐R was however observed with modifications at position 13 of MCH: whereas L‐Phe¹³ in [Phe¹³, Tyr¹⁹]‐MCH was well tolerated by both MCH‐R₁ and B16 MCH‐R, change of configuration to D‐Phe¹³ in [D‐Phe¹³, Tyr¹⁹]‐MCH or [D‐Phe¹³]‐MCH led to a complete loss of biological activity and to a 5‐ to 10‐fold lower binding activity with MCH‐R₁. By contrast, the D‐Phe¹³ residue increased the affinity of [D‐Phe¹³, Tyr¹⁹]‐MCH to B16 MCH‐R about 10‐fold and elicited MAP kinase activation as observed with [Phe¹³, Tyr¹⁹]‐MCH or MCH. These data demonstrate that ligand recognition by B16 MCH‐R differs from that of MCH‐R₁ in several respects, indicating that the B16 MCH‐R represents an MCH‐R subtype different from MCH‐R₁.     

Purinergic receptor-induced changes in paracellular resistance across cultures of human cervical cells are mediated by two distinct cytosolic calcium-related mechanisms

In human cervical (CaSki) cells, extracellular adenosine triphosphate (ATP) induces an acute decrease in the resistance of the lateral intercellular space (R _LIS), phase I response, followed by an increase in tight junctional resistance (R _TJ), phase II response. ATP also stimulates release of calcium from intracellular stores, followed by augmented calcium influx, and both effects have similar sensitivities to ATP (EC₅₀ of 6 μM). The objective of the study was to determine the degree to which the changes in [Ca²⁺]_i mediate the responses to ATP. 1,2-bis (2-aminophenoxy) ethane-N,N,N1,N1-tetraacetic acid (BAPTA) abrogated calcium mobilization and phase I response; in contrast, nifedipine and verapamil inhibited calcium influx and attenuated phase II response. Barium, La³⁺, and Mn²⁺ attenuated phase I response and attenuated and shortened the ionomycin-induced phase I-like decrease inR _LIS, suggesting that store depletion-activated calcium entry was inhibited. Barium and La³⁺ also inhibited the ATP-induced phase II response, but Mn²⁺ had no effect on phase II response, and in the presence of low extracellular calcium it partly restored the increase inR _TJ. KCl-induced membrane depolarization stimulated an acute decrease inR _LIS and a late increase inR _TJ similar to ATP, but only the latter was inhibited by nifedipine. KCl also induced a nifedipine-sensitive calcium influx, suggesting that acute increases in [Ca²⁺]_i, regardless of mobilization or influx, mediate phase I response. Phase II-like increases inR _TJ could be induced by treatment with diC8, and were not affected by nifedipine. Biphasic ATP-like changes inR _TE could be induced by treating the cells with ionomycin plus diC8. We conclude that calcium mobilization mediates the early decrease inR _LIS, and calcium influx via calcium channels activates protein kinase C and mediates the late increase inR _TJ.     

N-Carbamoyloxyurea-resistant Chinese hamster ovary cells with elevated levels of ribonucleotide reductase activity

We describe the isolation and characterization of a Chinese hamster ovary cell line selected for resistance to N-carbamoyloxyurea. Using the mammalian cell permeabilization assay developed in our laboratory, a detailed analysis of the target enzyme, ribonucleotide reductase (EC 1.17.4.1), was carried out. Both drug-resistant and parental wild-type cells required the same optimum conditions for enzyme activity. The Ki values for N-carbamoyloxyurea inhibition of CDP reduction were 2.0 mM for NC^R-30A cells and 2.3 mM for wild-type cells, while the Ki value for ADP reduction was 2.3 mM for both cell lines. Although the Ki values remained essentially unchanged, the V_max values for NC^R-30A cells were 1.01 nmoles dCDP formed/5 × 10⁶ cells/hour and 1.83 nmoles dADP/5 × 10⁶ cells/hour, while those for the wild-type cells were 0.49 nmoles dCDP produced/5 × 10⁶ cells/hour and 1.00 nmoles dADP/5 × 10⁶ cells/hour. This approximate twofold increase in reductase activity at least partially accounts for a 2.6-fold increase in D₁₀ value for cellular resistance to N-carbamoyloxyurea exhibited by NC^R-30A cells. The NC^R-30A cell line was also cross-resistant to the antitumor agents, hydroxyurea and guanazole. No differences in Ki values for inhibition of CDP and ADP reduction by these two drugs were detected and cellular resistance could be entirely accounted for by the elevation in activity of the reductase in the NC^R-30A cell line. The properties of N-carbamoyloxyurea-resistance cells indicate they should be useful for further investigations into the regulation of mammalian enzyme activity.     

Volume regulation in the early proximal tubule of theNecturus kidney

Summary The ability of early proximal tubule cells of theNecturus kidney to regulate volume was evaluated using light microscopy, video analysis and conventional microelectrodes.Necturus proximal tubule cells regulate volume in both hyperand hyposmotic solutions. Volume regulation in hyperosmotic fluids is HCO ₃ ^– dependent and is associated with a decrease in the relative K⁺ conductance of the basolateral cell membrane and a decrease in the resistance ratio,R _a /R _bl . Volume regulation in hyposmotic solutions is also dependent upon the presence of HCO ₃ ^– but is also inhibited by 2mm Ba²⁺ in the basolateral solution. Hyposmotic regulation is accompanied by an increase in the relative K⁺ conductance of the basolateral cell membrane and an increase inR _a /R _bl . Neither hypo- nor hyposmotic regulation have any affect on the depolarization of the basolateral cell membrane potential induced by HCO ₃ ^– removal. We conclude that volume regulation in the early proximal tubule of the kidney involves both HCO ₃ ^– -dependent transport systems and the basolateral K⁺ conductance.     

Dependence of the membrane potential of Chara cells on external pH in the presence or absence of internal adenosinetriphosphate

The dependence of the membrane potential (E_m) and the membrane resistance (R_m) of Chara australis R. Brown on the pH of the external medium (pH₀) was studied by controlling the activity of the plasmamembrane H⁺ pump under both light and dark conditions. The activity of the pump was controlled by regulating the internal ATP or Mg²⁺ concentration in tonoplast-free cells prepared by vacuolar perfusion. In these cells, which contained Mg · ATP (mgATP cells), E_m and R_m were very sensitive to pH₀, as in normal cells. E_m was more negative in light than in the dark at all pH₀ values tested. Tonoplast-free cells with very low [ATP]_i (-ATP cells) or [Mg²⁺]_i (-Mg cells) showed very weak dependence of E_m and R_m on pH₀. Thus, the active and not the passive component of E_m was sensitive to pH₀. At the same time, the high permeability of the plasma membrane to H⁺ was questioned. In both-ATP cells and-Mg cells, E_m was scarcely affected and R_m markedly decreased on illumination.Abbreviations CyDTA 1,2-cyclohexanediamine-N,N-tetraacetic acid - EGTA ethyleneglycol-bis-(-aminoethylether)N,N-tetraacetic acid - HK hexokinase     

Receptor progesterone complex in the nuclear fraction of the rat uterus: demonstration by 3H-progesterone exchange

We have previously shown that ³H-estradiol exchange can be used to measure the quantity of estrogen receptor complex in the nuclear fraction of target tissue cells. This method has been modified for the measurement of the progesterone receptor complex (R_n·P) in the nuclear fraction of uterine cells. Nuclear fractions were incubated for 5 hrs. at 15°C in the presence of varying concentrations of ³H-progesterone (³H-P) with or without a 250-fold excess of non-labeled progesterone (P). R_n·P was determined by subtracting the ³H-P bound in the presence of excess P (non-specific binding) from ³H-P bound in the absence of excess P (total binding). All R_n·P studies were done in adult castrate female rats that had received estradiol benzoate (0.4 mg) one week before use. The quantity of R_n·P increased in the uterine nuclear fractions by 280% 30 min. after injection of 5 mg of P. R_n·P was not increased in muscle or fat pad by this treatment. Injections of corticosterone (B), cortisol (F), dexamethasone (Dx) or testosterone (T) failed to increase R_n·P. The exchange reaction was specific for P; B, F, Dx or T did not compete. These results demonstrate the existence of a low capacity, high affinity, stereospecific progesterone binding site in the nuclear fraction of the uterus.     

Podophyllotoxin resistance: A codominant selection system for quantitative mutagenesis studies in mammalian cells

Mutants resistant to the microtubule inhibitor podophyllotoxin (Pod^R), a codominant marker, can be readily selected in various mammalian cell lines such as, CHO, HeLa, mouse L cells, Syrian hamster cells (BHK₂₁) and a mouse teratocarcinoma cell line OC15. In CHO cells, the recovery of Pod^R mutants is not affected by cell density (up to 1 × 10⁶ cells per 100-mm diameter dish), and after treatment with the mutagen ethyl methanesulfonate maximum mutagenic effect is achieved after a relatively short expression time (40–48 h). The frequency of Pod^R mutants in various cell lines increased in a dose-dependent manner in response to treatment with the mutagens ethyl methanesulfonate and N-methyl-N′-nitro-N-nitrosoguanidine. The Pod^R selection system thus provides a new genetic marker which should prove useful in studies of quantitative mutagenesis in mammalian cells.     

Evidence for the origin of the unoccupied oestrogen receptor in nuclei of a human breast-cancer cell line (MCF-7)

The origin of the unoccupied nuclear oestrogen receptor (R_n) was studied. Three working hypotheses were investigated. (a) R_n is a dissociation product of the oestrogen occupied nuclear receptor (ER_n). (b) ER_n is only partially occupied, so that additional binding may occur at 0°C (the temperature at which oestradiol saturates unoccupied sites). (c) R_n is derived from the penetration of unoccupied cytoplasmic receptor (R_c) into the nucleus. The MCF-7 cell line was used as a model in the present investigation. The amount of unoccupied receptors was measured by saturation with 7.5nm-[³H]oestradiol at 0°C, whereas the occupied receptors were measured by exchange at 30°C. The cells at preconfluency were exposed to a medium fortified with 10nm-[³H]oestradiol for 1h, washed and cultured up to 5 days in fresh growth medium. The distribution of oestradiol receptors was determined before exposure and during the following 5 days. After 1h exposure only ER_n was found in the nuclear fraction. Thereafter ER_n declined continuously so that on day 5 it approached 15% of its value measured 1h after exposure. Although after 3 days about 80% of ER_n disappeared no R_n appeared, which contradicts hypotheses (a) and (b). On day 4 R_n and R_c appeared simultaneously. The appearance of R_n and R_c was not prevented by culturing the cells in an oestrogen-free medium, supporting hypothesis (c). Exposure of cells to increasing concentration of [³H]oestradiol (0.1–10nm) for 1h resulted in a parallel increase in ER_n without increasing the amount of unoccupied binding sites, which contradicts hypothesis (b). The present study supports the hypothesis (c), i.e., R_c may also penetrate the nucleus without binding to oestradiol.     

Accuracy of Optimized Chemical-exchange Parameters Derived by Fitting CPMG R 2 Dispersion Profiles when R 2 0a ≠ R 2 0b

The transverse relaxation rate, R₂, measured as a function of the effective field (R₂ dispersion) using a Carr-Purcell-Meiboom-Gill (CPMG) pulse train, is well suited to detect conformational exchange in proteins. The dispersion data are commonly fitted by a two-site (sites a and b) exchange model with four parameters: the relative population, p_a, the difference in chemical shifts of the two sites, δω, the correlation time for exchange, τ_ex, and the intrinsic relaxation rate (i.e., transverse relaxation rate in the absence of chemical exchange), R₂⁰. Although the intrinsic relaxation rates of the two sites, R₂^0a and R₂^0b, can differ, they are normally assumed to be the same (i.e., R₂^0a = R₂^0b = R₂⁰) when fitting dispersion data. The purpose of this investigation is to determine the magnitudes of the errors in the optimized exchange parameters that are introduced by the assumption that R₂^0a = R₂^0b. In order to accomplish this goal, we first generated synthetic constant-time CPMG R₂ dispersion data assuming two-site exchange with R₂^0a ≠ R₂^0b, and then fitted the synthetic data assuming two-site exchange with R₂⁰ = R₂^0a = R₂^0b. Although all the synthetic data generated assuming R₂^0a ≠ R₂^0b were well fitted (assuming R₂^0a = R₂^0b), the optimized values of p_a and τ _ex differed from their true values, whereas the optimized values of δω values did not. A theoretical analysis using the Carver–Richards equation explains these results, and yields simple, general equations for estimating the magnitudes of the errors in the optimized parameters, as a function of ( R₂^0a − R₂^0b).