EFFECTS OF K+ AND Ca2+ IONS ON MOTILITY AND PHOTOSENSORY RESPONSES OF STENTOR COERULEUS

Extracellular K⁺ ions above a critical concentration induce ciliary reversal in unstimulated Stentor coeruleus and suppress step-up photophobic response. This threshold concentration of K⁺ ions depends on the extracellular Ca²⁺ concentration, and the subsequent backward gyration and light-sensitivity suppression seem to depend on the relative concentrations of K⁺ and Ca²⁺. The concentration of Ca²⁺ necessary to overcome K⁺-mediated inhibition of phobic response and backward swimming increases non-linearly with increasing K⁺ concentration. The Ca²⁺-blocking agent. D-600, selectively inhibits photophobic responses of Stentor , thus further confirming the role of Ca²⁺ ions in photosensory transduction of this ciliate.     

CYTOPROTECTION AGAINST MEROCYANINE 540-SENSITIZED PHOTOINACTIVATION OF THE Na+,K+-ADENOSINE TRIPHOSPHATASE IN LEUKEMIA CELLS: GLUTATHIONE AND SELENOPEROXIDASE INVOLVEMENT

When irradiated with broad-band visible light in the presence of merocyanine 540 (MC540), murine leukemia L1210 cells grown under selenium-deficient conditions (Se(-) cells) accumulated lipid hydroperoxides and lost viability more rapidly than selenium-satisfied controls (Se(+) cells). These findings suggest that cytoprotection against photoperoxidation and photokilling is mediated at least in part by selenoperoxidase (SePX) action. Similar protection against photoinactivation of an intrinsic membrane enzyme, the Na⁺,K⁺-ATPase, has been observed. Thus, irradiation of MC540-sensitized Se(-) cells resulted in an immediate and progressive inactivation of ouabain-sensitive Na⁺, K⁺-ATPase; by contrast, activity loss in Se(+) cells was preceded by a prominent lag. Enzyme photoinactivation in Se(-) cells was inhibited by ebselen, an SePX mimetic, confirming that SePX(s) is (are) involved in natural protection. Desferrioxamine treatment (iron sequestration/inactivation) resulted in higher hydroperoxide levels and slower Na⁺,K⁺-ATPase inactivation during MC540/light exposure, whereas ferric-8-hydroxyquinoline treatment (iron supplementation) had the opposite effect. Thus, iron appears to play an important role in both of these processes. In contrast, photoinactivation of another intrinsic enzyme in L1210 cells, acetylcholinesterase (AChE), was unaffected by selenium or iron manipulation. On the basis of these findings, we propose that lipid peroxidation plays an important role in the photoinactivation of Na⁺,K⁺-ATPase, but not AChE. This is consistent with the fact that Na⁺, K⁺-ATPase's active site lies within the membrane bilayer, whereas AChE's active site lies outside the bilayer.     

UV-ACTION SPECTRUM (254-405 nm) FOR INHIBITION OF A K+ -STIMULATED ADENOSINE TRIPHOSPHATASE FROM THE PLASMA MEMBRANE OF ROSA DAMASCENA

A K ⁺-stimulated ATPase from suspension-cultured rose cells was isolated and subjected to UV radiation. The characteristics of the ATPase resembled those of a plasma-membrane associated enzyme and not those of the mitochondrial enzyme. The ATPase required Mg²⁺ and was further stimulated up to 100% by K⁺. K⁺ stimulation was specific for ATP. The order of stimulation by monovalent cations was K⁺ > Na⁺ > Li⁺. The enzyme had a pH optimum of 6.5 in the presence of 50 mM K⁺. It was almost completely inhibited by diethylstilbestrol and partially inhibited by vanadate. but was not affected by azide or oligomycin. The inhibition of ATPase activity by various fluences of UV indicated that one fraction of the K⁺-stimulated activity was very sensitive to radiation, while another fraction was relatively insensitive. It is possible that UV distinguished between two enzymes. The action spectra for inhibition of both fractions showed maxima at 290 nm and significant but much lower action throughout the near-UV region, resembling spectra in the literature for the inhibition of transport processes in bacteria.     

HEMATOPORPHYRIN DERIVATIVE-INDUCED PHOTODYNAMIC INHIBITION OF Na+/K+-ATPase IN L929 FIBROBLASTS, CHINESE HAMSTER OVARY CELLS AND T24 HUMAN BLADDER TRANSITIONAL CARCINOMA CELLS

The photodynamically induced inhibition of Na⁺/K⁺-ATPase with hematoporphyrin derivative as photosensitizer was studied in murine L929 fibroblasts, Chinese hamster ovary (CHO) cells and T24 human bladder transitional carcinoma cells. In T24 cells the inhibition of the enzyme activity appeared to be caused by ATP depletion rather than by direct damage from the enzyme itself. In L929 and CHO cells, on the other hand, the inhibition was caused by photodynamic damage from the enzyme molecule. For all three cell lines it was shown that a causal relationship between photodynamically induced reduction in Na⁺/K⁺-ATPase activity and the loss of clonogenicity is highly unlikely.     

EFFECTS OF EXTRACELLULAR Ca2+ CONCENTRATION AND PAPAVERINE ON THE VISUAL CELL FUNCTION IN THE ISOLATED FROG RETINA

Abstract— Effects of extracellular Ca²⁺ concentration and papaverine on the PIII response of the electroretinogram and the dark adaptation process of the visual cells were studied in the isolated, aspartate-treated bullfrog retina. The amplitudes of both the fast and slow PIII responses are increased in 0.01 m M Ca²⁺ solution, but decreased in Ca²⁺-free solution containing 1 m M EDTA. The application of 0.1 m M papaverine in the presence of 1 m M Ca²⁺ led to the enhancement of the slow PIII response at lower stimulus intensity and the prolongation of the slow PIII response, but these effects of papaverine on the response were lost when Ca²⁺ was removed from the bathing fluid. The half-time of recovery of the fast PIII response amplitude after switching off the adapting light was a linear function of the amount of bleached rhodopsin. Papaverine in the absence of Ca²⁺ produced about 2-fold increase in the half-time of recovery of the response. These findings suggest that chemical reactions which are sensitive to papaverine in the absence of Ca²⁺ are implicated in the dark adaptation process of the visual cells.     

Ca2+ INFLUX INDUCED BY PHOTODYNAMIC ACTION IN HUMAN CEREBRAL GLIOMA (U-87 MG) CELLS: POSSIBLE INVOLVEMENT OF A CALCIUM CHANNEL

Abstract The plasma membrane has been implicated as a critical target of photodynamic action on cells. We have observed that the photosensitization of human cerebral glioma (U-87 MG) cells by hematoporphyrin derivative (HpD) causes a large increase in intracellular calcium [Ca²⁺]. This increase in [Ca²⁺]_i was solely due to the influx of extracellular Ca²⁺ through the plasma membrane and showed a dependence on HpD concentration, light dose and concentration of calcium in the extracellular medium. The magnitude of the Ca²⁺ influx decreased with increasing postirradiation time, which suggests that the cell membrane partially recovers from the photodynamic injury. The photoinduced Ca²⁺ influx was inhibited by the Ca²⁺ channel blocker diltiazem and the reducing agent dithioerythritol. These findings are discussed in terms of possible activation of a Ca²⁺ channel as a result of photosensitization.     

HEMATOPORPHYRIN DERIVATIVE (PHOTOFRIN®) PHOTODYNAMIC ACTION ON Ca2+ TRANSPORT IN MONKEY KIDNEY CELLS (CV-1)

Abstract After 24 h incubation with Photofrinm^® (PF), photodynamic action has been studied on Ca²⁺ transport in CV-1 cells. A moderate increase of the cytosolic free Ca²⁺ concentration [Ca²⁺] is observed immediately after a dose of irradiation which yields a survival rate of less than 5% at 48 h. In parallel, studies on digitonin-permeabilized cells indicate that such a treatment inhibits endoplasmic reticulum Ca²⁺ uptake with few alterations of this process in mitochondria. In contrast, ADP-stimulated respiration is impeded and intracellular ATP level decreases. It is suggested that direct damage to endoplasmic reticulum as well as mitochondrial disturbance are the primary mechanisms responsible for a nontransient elevation of [Ca^2+]i preceding cell death.     

PHTHALOCYANINE PHOTOSENSITIZATION OF MAMMALIAN CELLS: BIOCHEMICAL and ULTRASTRUCTURAL EFFECTS

Abstract— The concentrations of Na⁺, K⁺, Ca²⁺, Mg²⁺ and CI⁻ ions in the cytoplasm of octopus photoreceptor cells were determined before and after illumination by electron probe X-ray microanalysis. The concentrations of these elements in the dark-adapted photoreceptor cells were: Na⁺, 68.4; K⁺, 111.4; Ca²⁺, 4.0; Mg²⁺, 16.4; and CI⁻, 102.9 m M /kg of cytoplasm. Illumination raised the concentration of Na⁺ by 58 m M and that of Cl⁻ by 23 m M and reduced the K⁺ concentration by 47 m M /kg of cytoplasm. A trace increase of intracellular Ca²⁺ and a trace decrease of Mg²⁺ were observed. These results confirm the hypothesis that sodium ions flow in on illumination, and suggest the influx of chloride ions and the outflux of potassium ions during illumination. The intracellular concentrations of Na⁺, K⁺ and Cl⁺ can give the basis for calculating the ion permeability of ion channels in octopus photoreceptor cell membranes, using values of the membrane potentials obtained by electrophysiological studies     

AN 125I-LABELED N6-SUBSTITUTED AZIDO ANALOG OF NAD+ FOR THE PHOTOAFFINITY LABELING OF NAD+-LINKED ENZYMES

Abstract ¹²⁵I- N ⁶-(N-[6-N-{5-iodo-4-azidosalicyl}-aminohexyl]-aminocarbamoylmethyl)-nicotinamide adenine dinucleotide (¹²⁵I- N ⁶-I-ASA-AH-NAD⁺) was synthesized by coupling N ⁶ -([6-aminohexyl]-carbamoylmethyl)-NAD⁺ with 4-azidosalicylic acid N-hydroxysuccinimide ester followed by radioiodination. The utility of ¹²⁵I-N ⁶ -I-ASA-AH-NAD⁺ as an effective site-directed photoprobe was demonstrated by the photolabeling of both glutamate dehydro-genase and 15-hydroxyprostaglandin dehydrogenase. Both enzymes can be saturated with labeled probe with apparent dissociation constants comparable to those reported for NAD⁺. Photoincorporation of the probe into both enzymes was found to be protected specifically by NAD⁺. These results indicate that ¹²⁵I- N ⁶-I-ASA-AH-NAD⁺ can be a specific photoprobe for NAD⁺-linked enzymes.     

REEVALUATION OF THE SPECTRAL AND KINETIC PROPERTIES OF HO2 AND O2- FREE RADICALS

Abstract— The spectra and molar absorbances of the HO₂ and O₂^- free radicals have been redetermined in aqueous formate solutions by pulse and stopped-flow radiolysis as well as by ⁶⁰Co gamma-ray studies. The extinction coefficients at the corresponding maxima and 23°C are ²²⁵= 1400 ± 80 M ^-1 cm^-1 and ²²⁵= 2350 ± 120 M ^-1 cm^-1 respectively. Reevaluation of earlier published rate data in terms of the new extinction coefficients yielded the following rate constants for the spontaneous decay of HO₂ and O₂^-: K _Ho2+HO2= (8.60 ± 0.62) × 10⁵ M ^-1 s^-1; K _Ho2+O2-= (1.02 ± 0.49) × 10⁸ M ^-1 s^-1; K _Ho2+O2- < 0.35 M ^-1 s^-1. For the equilibrium HO₂→ O₂^-+ H⁺ the dissociation constant is K _Ho2= (2.05 ± 0.39) × 10^-5 M or p K _HO2= 4.69 ± 0.08. G (O₂^-) has been evaluated as a function of formate concentration.     

REGENERATION OF NAD+ AND NADP+ COFACTORS BY PHOTOSENSITIZED ELECTRON TRANSFER

Abstract The irradiation with visible light of photosensitizer dyes like methylene blue or N-methyl phenazonium methyl sulfate leads to the oxidation of reduced coenzymes such as pyridine nucleotides (NADH or NADPH). This photoredox reaction can be used to regenerate the oxidized form of these coenzymes in enzymatic reactions and total consumption of a substrate with catalytic amounts of enzyme, coenzyme and photosensitizer can be performed. The process has been studied on two common enzymatic reactions: ethanol oxidation by alcohol-NAD ⁺ -oxidoreductase and gluconate-6-phosphate oxidation by 6-phospho-D-gluconate-NADP⁺-2-oxidoreductase. In the first case, a turnover number of 1125 has been obtained for the photoregeneration of NAD ⁺ from NADH.     

CALCULATED RATES AND EQUILIBRIA OF THERMAL INTERCONVERSION OF TRIPLET (3g-) AND SINGLET (1Δg and g+) MOLECULAR OXYGEN

Abstract— From spectroscopic data and rate constants in the literature, equilibrium constants and rates of thermal formation of singlet oxygen (¹Δ_g and ¹Σ_g⁺) were calculated for a number of conditions. For the gas phase we estimate K _eq(¹Δ_g³Σ_g^-) = 1.67 exp(-94.31 KJ/RT) and K _eq(¹Σ_g⁺/³Σ_g^-) = 0.33 exp(-157.0 KJ/RT). The calculated rate constants for the ³Σ_g⁺→¹Δ_g transition of O₂ at 25°C varied from 2.5 × 10^-11 s^-1 in water to 4.8 × 10^-16 s^-1 in air, assuming equal solvent interactions with the ground and excited states. Physical quenchers for singlet oxygen are expected to be catalysts for its thermal formation. Equations are presented which allow one to estimate whether such catalysis by quenchers will result in a pro-oxidant effect.     

CHLOROPHYLL PHOTOSENSITIZED ELECTRON TRANSFER IN PHOSPHOLIPID BILAYER VESICLE SYSTEMS: SECONDARY OXIDATION OF REDUCED VIOLOGEN ACCEPTORS BY Ru(NH3)63+

Abstract— The kinetics of the oxidation of a homologous series of 4,4'-di(n-alkyl)-bipyridinium (viologen) radicals by Ru(NH₃)₆³⁺ in vesicle suspensions was studied using laser flash photolysis. The viologen radicals were produced photochemically in the bilayer membrane phase of the vesicles by electron transfer from the triplet state of chlorophyll-α. At high concentrations of Ru(NH₃)₆³⁺, the rate of oxidation of the viologen radicals in the aqueous phase was limited by the rate at which the radicals diffused from the membrane to the aqueous phase. The exit rate constant decreased from 2 × 10⁵ s⁻¹ for the methyl viologen radical to 4 × 10³ s⁻¹ for the pentyl viologen radical. Both the exit rate constants and the calculated values for the equilibrium association constants of the viologen radicals were unexpectedly insensitive to the length of their alkyl substituents. This, as well as other data, suggests that the radicals that diffused into the aqueous phase tended to remain associated with the membrane-water interface.     

RIBOFLAVIN SENSITIZED PHOTOREDUCTION OF NITRO BLUE TETRAZOLIUM ION (NBT2+) IN DEGASSED AQUEOUS SOLUTION

Abstract— When sensitized by riboflavin, the reduction of NBT²⁺ (nitro blue tetrazolium ion) takes place in both aerated and degassed aqueous solution. Laser photolysis experiments revealed that the triplet riboflavin reduces NBT²⁺ to nitro blue tetrazolinyl radical, NBT²⁺. and it disappears according to pseudo-first order kinetics, with a bimolecular rate constant of (4.2 ± 0.2) X 10⁸ M ^-1s^-1. It is shown that NBT²⁺ is not always a good detecting reagent for the superoxide anion, when the formation of the anion is mediated by riboflavin.     

LEAKAGE OF 86Rb+ AFTER ULTRAVIOLET IRRADIATION OF Escherichia coli K-12

Abstract— Stationary phase cultures of a DNA repair proficient Escherichia coli K-12 strain showed a release of intracellular material as assessed by three different methods (260 nm absorption; [methyl-³H]thymidine leakage and ⁸⁶Rb⁺ leakage) after broad-band (Black-Light Blue) near-UV radiation but not after far-UV (254 nm) radiation. As a control response for membrane damage to cells, this leakage of intracellular material was also determined by each method after mild-heat (52°C) treatment of E. coli K-12. An action spectrum for the release of ⁸⁶Rb⁺ from E. coli K-12 after irradiation with monochromatic wavelengths, from 254 to 405 nm, is also presented. The action spectrum for lethality (F₃₇ values) obtained for this strain, shows that leakage of ⁸⁶Rb⁺ occurs at fluences equivalent to or slightly less than fluences causing inactivation at wavelengths above 305 nm. In contrast, at wavelengths below 305 nm, leakage of ⁸⁶Rb⁺ from irradiated cells can be induced but only at fluences significantly greater than was required to cause cell inactivation. These results indicate, therefore, that near-UV radiation can induce a damaging effect on the cell's permeability barrier which may be significant in causing the death of the cell, whereas the effect is not significant in causing the death of cells by far-UV radiation where DNA damage is known to be the main cause of lethality.     

CALCIUM CONTROL OF PHOTOTACTIC ORIENTATION IN Chlamydomonas reinhardtii: SIGN AND STRENGTH OF RESPONSE

Abstract— Chlamydomonas reinhardtii responds to a blue light stimulus by an oriented swimming (phototaxis) toward or away from the stimulus source. In this study it is established that the sign and strength of the phototactic response are a complex function of extracellular [Ca²⁺], stimulus fluence rate, time of analysis after onset of stimulation and light pretreatment. At very low extracellular [Ca²⁺] the response is weak and usually negative. At [Ca²⁺] close to the preconditioning level, phototactic response becomes stronger and positive. As [Ca²⁺] is raised further, the initial (2 s) response remains positive but the long term (20 s) becomes negative and very strong. At extremely high [Ca²⁺] the cells become immobile. This bimodal behavior suggests that two different mechanisms determine the direction of the turn. Data cannot be explained in terms of a simple model. The model which accounts for most of the details of the behavior is that of Kamiya and Witman (1984), which proposes that positive response is triggered by a transient increase in intracellular [Ca²⁺] and negative response by a decrease below unstimulated level of Ca²⁺, at least in the range of 10^-9-10^-6 M [Ca²⁺]. The strong negative orientation which follows an initial positive response above this level of [Ca²⁺], in these experiments, is best explained by an adaptation of the cells due to an increased (on average) intracellular [Ca²⁺].     

EFFECT OF MID-UV RADIATION ON DNA-Cu2+ COMPLEX: ABSORPTION AND CIRCULAR DICHROISM STUDY

Abstract— When DNA is complexed with Cu²⁺ ions it becomes sensitized to mid-UV light. Irradiation of the complex at 310 ± 10 nm produces marked changes in absorption and circular dichroism spectra in addition to those in melting profiles of irradiated samples. These variations show conformational changes in DNA structure due to a photoreduction of some copper sites in the DNA-Cu²⁺ complex. In addition to this effect an irreversible damage in DNA structure could be invoked to explain the observed behaviour. These facts can be related to the presence in DNA-Cu²⁺ complex of a small absorption band extending up to mid-UV range while the absorption of DNA is negligible in this spectral range.     

USE OF THE FLUORESCENT LANTHANIDE Tb3+ AS A PROBE FOR CATION-BINDING SITES ASSOCIATED WITH ISOLATED CHLOROPLAST THYLAKOID MEMBRANES

Abstract— The fluorescent properties of the rare-earth ion, Tb³⁺ have been utilized to probe the nature of cation-binding sites associated with thylakoid membranes. At low concentrations (< 100μ M ), Tb³⁺ was observed to inhibit the increase in chlorophyll a fluorescence normally seen on adding 5 m M MgCl₂ (or 100 m M NaCl) to isolated, broken chloroplasts. We also observed under these conditions, the appearance of a new band around 280 nm in the excitation spectrum of Tb³⁺ ion fluorescence. However, similar changes in Tb³⁺ fluorescence could be observed in the presence of a membrane-free preparation of chloroplast coupling factor protein (CF₁). From this and other results it is concluded that changes in Tb³⁺ fluorescence reflect an association of the ion with CF₁ followed by intermolecular transfer of excitation energy from protein ligands (possibly un-ionized tyrosine residues) to the lanthanide. The interaction of Tb³⁺ with sites which control chlorophyll a fluorescence does not seem to modify Tb³⁺ fluorescence, suggesting that in this case, simple membrane-bound ligands such as carboxyl or phosphate groups are involved.     

QUANTITATIVE EVIDENCE FOR ENZYMATICALLY-INDUCED DNA DOUBLE-STRAND BREAKS AS LETHAL LESIONS IN UV IRRADIATED pol+ AND polAl STRAINS OF E. COLI K-12

Abstract— We have recently reported that DNA double-strand breaks arise enzymatically during the course of excision repair in uvr ⁺ strains of Escherichia coli K-12. Survival curves for ultraviolet (UV) irradiated E. coli K-12 pol⁺ (JG139) and polA1 (JG138) strains have a pronounced shoulder region. The regions of the survival curves at which killing approaches exponential correspond to the fiuences at which DNA double-strand breaks (assumed to be lethal events) accumulate linearly. Reducing the number of UV photoproducts either by photoreactivation or fluence fractionation results in an increase in survival and a decrease in the yield of DNA double-strand breaks in both strains. These data support the hypothesis that enzymatically-induced DNA double-strand breaks may be the lesion ultimately responsible for UV-induced cell killing in the pol⁺ strain of E. coli K-12. and perhaps also in the polA1 strain.     

Studies on long lasting optical properties of Eu2+ and Dy3+ doped di-barium magnesium silicate phosphors

Di-bariummagnesium silicate phosphors doped with europiumand dysprosium were prepared under a weak reducing atmosphere. X-ray diffraction pattern of the sample was also done that confirmed the proper preparation of the phosphor. Scanning electron microscope (SEM) images confirmed that the sample has regular surface and uniform grain size distribution. Comparative studies of phosphorescence decay of Ba₂MgSi₂O₇:Eu²⁺, Dy³⁺ phosphors with different concentration of Dy³⁺ were done. The phosphor with 0.5/1.5 mol% of Eu/Dy, exhibited optimum green color afterglow properties. This emission is expected to arise due to transition of Eu²⁺ ions from any of the sublevels of 4f⁶5d¹ configuration to ⁸S_7/2 level of the 4f⁷ configuration. For a suitable trap depth, the trap concentration is expected to be proportional to the concentration of Dy³⁺. These traps are responsible for holding the charge career for a reasonable time, subsequently for increasing the time of afterglow. Hence, optimum Dy³⁺ concentration produces the longer afterglow duration with higher intensity of luminescence signals. Trap depth were also calculated using thermoluminescence glow curve which was indicative of formation of traps suitable for long afterglow.