In situ control of cell adhesion using photoresponsive culture surface

A photoresponsive culture surface (PRCS) allowing photocontrol of cell adhesion was prepared with a novel polymer material composed of poly(N-isopropylacrylamide) having spiropyran chromophores as side chains. Cell adhesion of the surface was drastically enhanced by the irradiation with ultraviolet (UV) light (wavelength: 365 nm); after subsequent cooling and washing on ice, many cells remained in the irradiated region, whereas most cells were removed from the nonirradiated region. The cell adhesion of the PRCS, which had been enhanced by previous UV irradiation, was reset by the visible light irradiation (wavelength 400-440 nm) and the annealing at 37 degrees C for 2 h. Also it was confirmed that the regional control of cell adhesion was induced several times by repeating the same series of operations. Further, living cell patterning with the 200 microm line width was produced readily by projecting UV light along a micropattern on the PRCS on which the living cells had been seeded uniformly in advance. By using a fluorescent probe that stains living cells only, it was confirmed that the cells maintained sufficient viability even after UV light irradiation followed by cooling and washing.     

Analysis of substances released from Zajdela ascites hepatoma cells exposed to UV radiation of different wavelengths. III. Release of nucleoproteins and carbohydrates]

Irradiation of the Zaidela ascite hepatoma cells with physiological doses of shortwave length (254 nm) and longwave length (300-380 nm) UV light (far and near UV radiation) is accompanied by the release of ribonucleoproteins (RNP) from the cells, whose amounts increase with dose. Irradiation with far and near UV light leads to the release of high-molecular and low-molecular RNP, respectively. No deoxyribonucleoprotein were found among the released substances. Non-protein fractions, released from irradiated cells, contain carbohydrate-like substances. At maximum far and near UV doses the amounts of these substances constitute 180-190% of the control and 6% of their amount in intact cells. After irradiation with far UV light, relatively high-molecular carbohydrates are released, while near UV light treatment induces the release of low-molecular carbohydrates. The criteria tested show that the efficiency of far UV light exceeds that of near UV light by one order.     

Acute radiation effects on the content and release of plasminogen activator activity in cultured aortic endothelial cells

Confluent monolayers from three lines of bovine aortic endothelial cells were exposed to a single dose of 10 Gy of 60Co gamma rays. Seventy-two hours later, the morphology of the irradiated and sham-irradiated monolayers was examined, and cellular DNA and protein contents were determined. In addition, the release of plasminogen activator (PA) activity into the culture media and PA activity in the cell lysates were assayed. Irradiated monolayers maintained their cobblestone appearance, but individual endothelial cells were enlarged considerably compared to sham-irradiated cells. DNA and protein contents in the irradiated monolayers were reduced to 43-50% and 72-95% of the control levels, respectively. These data indicate that radiation induced cell loss (detachment and/or lysis) from the monolayer, with hypertrophy of surviving (attached) cells to preserve the continuity of the monolayer surface. Total PA activity (lysate plus medium) in the irradiated dishes was reduced to 50-75% of the control level. However, when endothelial PA activity was expressed on the basis of DNA content, the irradiated monolayers from two of the three cell lines contained significantly more PA activity than did sham-irradiated monolayers. Most importantly, the percentage of the total PA activity released into the culture medium by irradiated cells (5-22%) was significantly (P less than 0.001) lower than that released by sham-irradiated cells (23-68%). These data suggest that fibrinolytic defects observed in irradiated tissues in situ may be attributable at least in part to a radiation-induced inhibition of PA release by vascular endothelial cells.     

Time of replication of genes responsible for a temperature-sensitive function in a cell cycle-specific ts mutant from a hamster cell line

A method involving short pulses of 5-bromodeoxyuridine (brUdRib) followed by irraidation with 313 nm light was used to locate the time of replication of certain genes during the cell cycle of two cell lines, AF8 and AL106. AF8, a temperature-sensitive mutant of BHK21/13 cells, grows at 33°C but not at 39.5°C. AL106, a hybrid clone of tsAF8 and SV-40 transformed Lesch-Nyhan fibroblasts (LNSV), which retains all hamster chromosomes and one human chromosome (No. 3), has the ability to grow at 39.5°C. AF8 and AL106 cells synchronized at the G₁-S boundary were released from their block and pulsed with brUdRib for 2-hour periods during the S phase. The cells were subsequently irradiated with 313 nm light. Colony-forming efficiency and revertants frequency were studied. Incorporation of brUdRib during the early S phase (0–4 hours from the begining of S), decreased the colony-forming efficiency of AL106 cells both at 33°C and 39.5°C, and also of AF8 cells at 33°C. No AF8 colonies grew at the nonpermissive temperature regardless of the treatment. Thus the time of replication of genes responsible for colony-forming ability was the same in tsAF8 at the permissive temperature and in AL106 at both temperatures. The time of replication of the genes responsible for the ts function in AF8 cells was located by determining the revertants frequency in synchronized AF8 cells pulsed with brUdRib and irradiated during 1- to 2-hour periods of the S phase. Back-mutants were scored by counting the number of clones capable of growing at 39.5°C (nonpermissive for AF8 cells). The highest frequency of induced back-mutations occurred in synchronized AF8 cells pulsed with brUdRib (and irradiated) between two to four hours from the begining of the S phase. Exposure to brUdRib during other periods of the S phase or during G₁ had no effect on the reversion rate. This method can be used to locate the time of replication (in S) of ts genes in other temperature-sensitive mutants or of other specific genes in other conditional mutants.     

The inhibition of mitosis in tissue culture cells by blue light

Blue light (wavelength 350-480 nm) irradiation of the early mitotic (prophase and prometaphase) tissue culture cells at the dose of 50-3000 J/cm2 delay mitosis or completely block it at the metaphase. Cell sensitivity to the near UV light (wavelength 360 nm) was few times more as compared with the sensitivity to the visible light (wavelength 400-480 nm). Mitotic cells irradiated with the green light (wavelength more than 500 nm; dose up to 7500 J/cm2) completed division normally. The effect of the blue light did not depend on the presence of phenol red in tissue culture medium. Rhodamin 123 staining did not show any changes in the mitochondrial system in the irradiated mitotic cells. Blue light irradiation with the dose enough for the induction of mitotic delay appears to be insufficient to affect the proliferation of interphase cells.     

Stability and Specificity of the Cell Wall-Associated Proteinase from Lactococcus lactis subsp. cremoris H2 Released by Treatment with Lysozyme in the Presence of Calcium Ions

The cell wall-associated proteinase from Lactococcus lactis subsp. cremoris H2 (isolate number 4409) was released from the cells by treatment with lysozyme, even in the presence of 50 mM calcium chloride. Cell lysis during lysozyme treatment was minimal. The proteinase activity released by lysozyme treatment fractionated on ion-exchange chromatography as three main forms, the molecular masses of which were determined by gel exclusion chromatography and polyacrylamide gel electrophoresis. Two of the enzyme forms released, 137 and 145 kDa, were the same as those released by incubation of cells in calcium-free phosphate buffer. In the presence of calcium, lysozyme treatment also resulted in the release of a 180-kDa enzyme molecule. The total proteinase activity released by lysozyme treatment (in the presence or absence of calcium) was not only greater than that released by phosphate buffer but was also greater than that initially detectable on the surface of whole cells, suggesting an unmasking of enzyme on the cell surface. The presence of calcium during release treatment resulted in increased stability of the crude enzyme preparations. For the proteinase preparation released by using lysozyme with 50 mM CaCl₂, the half-life of proteinase activity at 37°C was 39 h, compared with 0.22 h for the calcium-free phosphate buffer-released preparation. In all cases, maximum stability was observed at pH 5.5. Comparison of β-casein hydrolysis by the three forms of the enzyme showed that the products of short-term (5- to 30-min) digestions were very similar, although subtle differences were detected with the 180-kDa form.     

The wavelength dependence of 8-methoxypsoralen photosensitization of radiation-enchanced reactivation in a mammalian cell-virus system.

The combined effect of 8-methoxypsoralen (8-MOP) and ultraviolet (UV) radiation on the ability of an irradiated mammalian cell (CV-1) to reactivate UV-irradiated mammalian virus (Herpes simplex) was tested. Prior treatment of cells with 8-MOP was found to increase Radiation-Enhanced Reactivation (RER) at one wavelength (297 nm) in the far ultraviolet but not at others (240-289 nm). This same treatment induced RER in the near UV (302-370 nm) and the visible region (380-400 nm). An action spectrum for the photo-sensitized induction of this cellular parameter was obtained. This action spectrum is consistent with the absorption spectrum for 8-MOP and the theory that damage to DNA is, at least in part, responsible for Radiation-Enhanced Reactivation.     

Correlation of the photosystem I and II reaction center chlorophyll-protein complexes, CP-a1 and CP-aII with photosystem activity and low temperature fluorescence emission properties in mutants of Scenedesmus

Abstract Comparative studies on the low temperature fluorescence emission of whole cells, purified chlorophyll-protein (CP) complexes and on patterns noted in sodium dodecyl sulphate polyacrylamide gel electrophoresis (SDS-PAGE) for chlorophyll-protein complexes and chloroplast membrane polypeptides of Scenedesmus obliquus with several distinct mutant classes has allowed further correlation between the fluorescence emission bands seen at 77K and the known chlorophyll-protein complexes. In mutants deficient in photosystem II (PS-II; total loss of the reducing side) the fluorescence emission spectra showed only two peaks, i.e., 686 and 718 nm, but in the wild type, in mutants lacking the oxidizing side of PS-II and in phenotypes missing the CP-a₁ complex (and P-700 activity) all three emission bands at 686, 696 and 718 nm were present. In a mutant lacking the light-harvesting CP-a/b complex the emission peak at 686 nm was strongly reduced and the longer wavelength emissions predominated. Gel electrophoresis studies showed that the PS-II (reducing side) mutants lacked the polypeptides of apparent molecular weight 54 and 51 kilodaltons and the chlorophyll-protein complex, CP-a_II, of apparent molecular weight 32 kilodaltons. Contrarily, the loss of the oxidizing side of PS-II did not result in any alteration of these components. Genetic deletion of CP-a₁ did not alter significantly the long wavelength emission even though the isolated CP-a₁ shows the low temperature-dependent long wavelength emission comparable to that seen in the whole cell. It was deduced that remaining PS-I antennae chlorophylls must account for the emission seen at 718 nm. The absence of the CP-a/b complex and the strong simultaneous decrease of the 686 nm emission strengthens the concept that this complex is the primary emitter of fluorescence at room temperature. Its absence facilitated the detection of the CP-a_II complex in SDS-PAGE and enhanced the in vivo fluorescence by the two photosystems. Parallel experiments with two mutants which green and develop, one to the wild-type and the other to the CP-a/b deficient phenotype, provided additional evidence for the source of the low temperature emission bands.     

Release of the β-Galactosidase-Synthesizing System from Ultraviolet Catabolite Repression by Cyclic 3′,5′-Adenosine Monophosphate, Dark Repair, Photoreactivation, and Cold Treatment

Recovery from the inhibitory effect of ultraviolet irradiation on the induced synthesis of beta-galactosidase was studied in Escherichia coli B/r. When irradiated cells (520 ergs/mm(2) at 254 nm) were induced and incubated in minimal medium supplemented with Casamino Acids (conditions of catabolite repression), the ability to form enzyme was greatly reduced for about 100 min and then recovery began. The inhibition observed immediately after ultraviolet irradiation was partially reversed by cyclic 3',5'-adenosine monophosphate (cyclic AMP) or by photoreactivation treatment. Inhibition was reduced if the cells were given cold treatment (5 C) before or during irradiation; the kinetics of induced enzyme formation in each case were similar to those of irradiated cells receiving cyclic AMP. These kinetics suggest that the cold treatments, like cyclic AMP, cause the release of the beta-galactosidase-synthesizing system from catabolite repression. When irradiated cells were incubated for various times before cyclic AMP or photoreactivation treatment, some reversal of the inhibition of induced enzyme formation was obtained, but by 100 min the treatments were ineffective. Because 100 min was also the time at which dark recovery of enzyme formation began, the recovery process was interpreted to be the result of completion of DNA repair, which, in turn, released the beta-galactosidase-synthesizing system from catabolite repression.     

Extent of excision repair before DNA synthesis determines the mutagenic but not the lethal effect of UV radiation

Excision repair-proficient diploid fibroblasts from normal persons (NF) and repair-deficient cells from a xeroderma pigmentosum patient (XP12BE, group A) were grown to confluence and allowed to enter the G₀ state. Autoradiography studies of cells released from G₀ after 72 h and replated at lower densities (3?9 × 10³ cells/cm²) in fresh medium containing 15% fetal bovine serum showed that semiconservative DNA synthesis (S phase) began ～24 h after the replating. To determine whether the time available for DNA excision repair between ultraviolet irradiation (254 nm) and the onset of DNA synthesis was critical in determining the cytotoxic and/or mutagenic effect of UV in human fibroblasts, we released cultures of NF or XP12BE cells from G₀, allowed them to reattach at lower densities, irradiated them in early G₁ (～18 h prior to the onset of S) or just prior to S phase, and assayed the frequency of mutations to 6-thioguanine resistance and the survival of colony-forming ability. The XP12BE cells, which are virtually incapable of excising UV-induced DNA lesions, showed approximately the same frequency of mutations and survival regardless of the time of UV irradiation. In NF cells, the slope of the dose response for mutations induced in cells irradiated just prior to S was about 7-fold steeper than that of cells irradiated 18 h earlier. However, the two sets of NF cells showed no significant difference in survival. Neither were there significant differences in the survival of NF cells released from G₀, plated at cloning densities and irradiated as soon as they had attached and flattened out (～20 h prior to S) or 4, 8, 12, 16, 20 or 24 h later. We conclude that the frequency of mutations induced by UV is dependent upon the number of unexcised lesions remaining at the time of semi-conservative DNA replication. However, the amount of time available for excision of potentially cytotoxic lesions is not determined primarily by the period between irradiation and the onset of S phase.     

Optical trapping for chromosome manipulation: a wavelength dependence of induced chromosome bridges.

Using a tunable titanium-sapphire laser, we have compared different wavelengths (from 700 to 840 nm) for their utility in optical trapping of chromosomes in mitotic rat kangaroo Potorous tridactylus (PtK2) cells. It was found that irradiation with a near-infrared light induces the sticking together of chromosome shoulders. The attached chromatids failed to separate, or separated with significant delay and formed a chromosome bridge during anaphase. Using this bridge (and induced c-mitosis) as a reference, we compared the action of different wavelengths (from 700 to 840 nm). Chromosomes were irradiated at metaphase and the cells were observed until the end of cytokinesis. Chromosomes were irradiated for different periods of time, using 130 mW of power at the objective focal plane. The biological responses observed after optical trapping were: (1) normal cell division, (2) formation of a temporary chromosome bridge, (3) formation of a permanent chromosome bridge, (4) complete blockage of chromosome separation (c-mitosis). The chromosomes were found to have a maximal sensitivity to 760-765 nm light and minimal sensitivity to 700 and 800-820 nm light. Cells with chromosomes irradiated for a long time, using wavelength 760-765 nm, generally were incapable of going through anaphase and remained in c-mitosis. We conclude that the optimal wavelengths for optical trapping are 700 and 800-820 nm.     

And THP-1 cells do not release LTB4, LTC4, or LTD4 in response to A23187

U937 and THP-1 cells possess some characteristics of human mononuclear phagocytes, cells which synthesize and release LTB₄, LTC₄, and LTD₄. Incubation of these cells with recombinant human interferongamma (IFN-gamma) or Phorbol Myristate Acetate (PMA) induces a more differentiated cell state. We hypothesized that U937 and THP-1 cells would release LTB₄, LTC₄, and LTD₄ in response to stimulation with the non-physiologic agonist, calcium ionophore A23187 and that preincubation with IFN-gamma or PMA might alter leukotriene release by thes cells. We cultured both cell lines for 48 hours in the presence and absence of IFN-gamma (10000 units/ml)n and for 120 hours in the presence and absence of PMA (160 nM) and then challenged them with A23187 (5uM) for 30 minutes at 37°C. The supernatants were deproteinated and assayed by RIA for LTB₄ and LTC₄ and by RP-HPLC for LTB₄, LTC₄, and LTD₄. Neither U937 nor THP-1 cells released quantities of leukotrienes detectable by RIA, <0.3ng/5 × 10⁶ cells. Peripheral blood mononuclear phagocytes from normal volumteers, cultured and challenged in vitro at under identical conditions, released 11.3 ± 2.9 ng LTB₄ and 2.0 ± 1.5 ng LTC₄/10⁶ viable monocytes. The lack of leukotriene production by U937 and THP-1 cells was not altered by preincubation for 48 hours with IFN-gamma (n=3) nor by preincubation with PMA for 120 hours (n=3). We conclude 1) U937 and THP-1 cells do not appear to be appropriate in vitro models for the examination of leukotriene release from normal mononuclear phagocytes. 2) Pre-incubation of U937 and THP-1 cells with IFN-gamma or PMA under the conditions tested, does not induce the ability of these cell lines to release leukotrienes.     

Chromophore release from kraft pulp by purified streptomyces roseiscleroticus xylanases

Treating kraft pulps with the crude xylanase from Streptomyces roseiscleroticus followed by alkali extraction reduces the kappa number in a linear manner with enzyme doses up to about 3 IU/gm of oven-dry pulp. The enzyme complex consists of four isoenzymes designated Xyl1, Xyl2, Xyl3 and Xyl4. Each can release chromophores when used alone and each can facilitate alkali extraction to reduce the kappa number, but their relative abilities are different. Of the four isozymes, Xyl4 releases the least color and 237-nm-absorbing material whereas Xyl3 releases the most. Xyl4 best enhances the ability of alkali to reduce the kappa number. The UV absorption spectrum of the material released by alkali extraction differs significantly from the spectral characteristics of that released during enzyme treatment. The alkali-solubilized material has a maximum absorptivity at 265 nm and relatively little absorptivity at 237 nm. The material released during enzyme treatment absorbs strongly at 205 and 237 nm. UV/VIS spectroscopy of the enzyme- or alkali-released material does not show a characteristics lignin peak at 280 nm, nor does it reveal any notable peaks in the visible region. Analysis of the material released by enzyme treatment revealed more than 40 product peaks after fractionation by reversed-phase HPLC. We observed many products with strong UV absorption. These were relatively hydrophilic. Fewer products absorbed in the visible region. These were more hydrophobic. All four isoenzymes exhibit endo-action patterns; none forms xylose from oat-spelt xylan. The action patterns fell into two groups: endo-1 enzymes (Xyl1 and Xyl3) formed xylotriose (X₃) and other lower oligosaccharides as the predominant products; endo-2 enzymes (Xyl2 and Xyl4) formed roughly equimolar amounts of X₃, xylotetraose (X₄), and xylopentaose (X₅), and tended to leave larger amounts of undigested higher oligosaccharides.     

Effects of Nano-anatase TiO<Subscript>2</Subscript> on Absorption,Distribution of Light,and Photoreduction Activities of Chloroplast Membrane of Spinach

The effects of nano-anatase TiO₂ on light absorption, distribution, and conversion, and photoreduction activities of spinach chloroplast were studied by spectroscopy. Several effects of nano-anatase TiO₂ were observed: (1) the absorption peak intensity of the chloroplast was obviously increased in red and blue region, the ratio of the Soret band and Q band was higher than that of the control; (2) the great enhancement of fluorescence quantum yield near 680 nm of the chloroplast was observed, the quantum yield under excitation wavelength of 480 nm was higher than the excitation wavelength of 440 nm; (3) the excitation peak intensity near 440 and 480 nm of the chloroplast significantly rose under emission wavelength of 680 nm, and F ₄₈₀ / F ₄₄₀ ratio was reduced; (4) when emission wavelength was at 720 nm, the excitation peaks near 650 and 680 nm were obviously raised, and F ₆₅₀ / F ₆₈₀ ratio rose; (5) the rate of whole chain electron transport, photochemical activities of PSII DCPIP photoreduction and oxygen evolution were greatly improved, but the photoreduction activities of PSI were a little changed. Together, the studies of the experiments showed that nano-anatase TiO₂ could increase absorption of light on spinach chloroplast and promote excitation energy to be absorbed by LHCII and transferred to PSII and improve excitation energy from PSI to be transferred to PSII, thus, promote the conversion from light energy to electron energy and accelerate electron transport, water photolysis, and oxygen evolution.     

Ehrlich ascites tumor cell surface labeling and kinetics of glycocalyx release

Ehrlich ascites tumor cells spontaneously release cell surface material (glycocalyx) into isotonic saline medium. Exposure of these cells to tritium-labeled 4,4′-diisothiocyano-1,2′-dihenylethane-2,2′-disulfonic acid (³H₂DIDS) at 4°C leads to preferential labeling of the cell surface coat. We have combined studies of the kinetics of ³H₂DIDS-label release, the effects of enzymatic treatment, and cell electrophoretic mobility to characterize the ³H₂DIDS-labeled components of the cell surface. Approximately 73% of the cell-associated radioactivity is spontaneously released from the cells after 5 h at 23°C. The kinetics of release is consistent with the first-order loss of two fractions; a slow (τ_½ = 360 min) component representing 33% of the radioactivity, and a fast (τ_½ = 20 min) component representing 26%. The remaining 14% of the labile binding may reflect mechanically induced surface release. Trypsin (1 μ/ml) also removes approximately 73% of the labeled material within 30 min and converts the kinectics of release to that of a single component (τ_½ = 5.5 min). The specific activity (SA) of material released by trypsin immediately after labeling is 83% of the SA of the material spontaneously los in 1 h. However, trypsinization following a 2-h period of spontaneous release yields material of reduced (43%) SA. Neither ³H₂DIDS labeling nor the initial spontaneous loss of labeled material alters cell electrophoretic mobility. However, extended spontaneous release is accompanied by a significant decrease in surface charge density. Trypsinization immediately following labeling or after spontaneous release (2 h) reduces mobility by 32%. We have tentatively identified the slowly released compartment as contributing to cell surface negativity.     

ALKALINE EARTH ELEMENTS AND ZOOSPORE RELEASE AND DEVELOPMENT IN PROTOSIPHON BOTRYOIDES

O'Kelley , Joseph C., and Walter R. Herndon . (U. Alabama, University.) Alkaline earth elements and zoospore release and development in Protosiphon botryoides . Amer. Jour. Bot. 48(9): 796–802. Illus. 1961.—Cells of Protosiphon botryoides Klebs from depleted nutrient medium containing Ca were washed and resuspended in fresh complete medium with Ca; or in media with a Sr, Ba or Na replacement, respectively, for Ca; or in an equivalent CaCl₂ solution or deionized water. Zoospore release was observed in these media upon illumination following a 12-hr dark period. Free zoospores were less abundant in Sr-, Ba- and Na-replacement media than in the Ca medium. Zoospore production and release also were depressed in solutions of only CaCl₂ and in deionized water. In the Sr and Ba media, zoospores were formed but not released from the parent cell, as a rule; some zoospores were released in mass within a gelatinous vesicle which did not liquefy and set the zoospores free; these zoospores lost motility and continued development in Sr, producing characteristic, spheroidal clusters of aplanospores. In the Na medium, protoplasmic cleavage preceding zoospore formation was severely inhibited. A study of the reversibility of Sr inhibition of the zoospore-release mechanism revealed evidence of reversion 12 hr after replacement of Sr by Ca. Walls of cells produced in Ca are rich in ruthenium red-positive materials, whereas cells produced under conditions of Sr replacement lack these materials. The significance of these findings in relation to the Ca requirement of other algal species is discussed.     

Wavelength dependence of inactivation and membrane damage to Saccharomyces cerevisiae cells by monochromatic synchrotron vacuum-uv radiation (145-190 nm)

Using an electron storage ring as a source of radiation, the wavelength dependence of inactivation and membrane damage in yeast cells (Saccharomyces cerevisiae) was investigated in the range from 145 to 254 nm, with special reference to the effects of vacuum-uv radiation. The cells were irradiated on a Millipore filter in a moist chamber filled with water vapor (deoxygenated) at saturation pressure. Fluence-survival curves taken at 5-nm intervals were generally sigmoidal. Action spectra of the two types of effects were nearly identical in shape. The maximum occurred in both spectra at 160 nm, decreasing sharply toward 180 nm. The spectra remarkably resembled the calculated absorption spectrum of (liquid) water in the range from 145 to 170 nm; the spectra had no similarity at all to the absorption spectra of DNA, proteins, or lipids. These data support the theory that inactivation of wet cells by vacuum-uv radiation may be attributable to damage in the cell membrane initiated by the absorption of water molecules. Above 210 nm the spectrum for inactivation paralleled the absorption of DNA. Genetic changes (induction of gene conversion) were also observed above 210 nm. Photoreversion for the induced convertants was detectable only above 220 nm. These characteristics are consistent with the expectation that above 210 nm the site of major lethal damage shifts to DNA.     

Acid phospholipase A1 and A2 in the cells, and subcellular redistribution of their activities in the cells infected with measles virus

Presence of soluble acid phospholipase A₁ and A₂ was confirmed in the (lysosomes + mitochondria) fraction of cultured human amnion cell line, FL cells. Activity of these enzymes and acid phosphatase was detected in the cytosol fraction of FL cells harvested at 59 hr after infection with measles virus, indicating that these enzymes in the (lysosomes + mitochondria) fraction were released to the cytosol fraction during the maturation of measles virus in the cells. Further, it was confirmed that the release of acid phospholipase A₁ and A₂ almost paralleled the development of cytopathic effect.     

Asymmetric field inversion gel electrophoresis: a new method for detecting DNA double-strand breaks in mammalian cells

A new method is described for detecting DNA double-strand breaks (DSBs) that utilizes asymmetric field inversion gel electrophoresis (AFIGE). DNA purified from cells in agarose plugs is subjected to AFIGE and DNA breakage quantitated by the fraction of DNA released from the plug. To test the specificity of the method for DNA DSBs, purified DNA in agarose plugs was treated for increasing times with restriction endonuclease, XhoI. After an initial time period, the fraction of DNA released increased in direct proportion to time. This correlates with the expected response for a randomly broken DNA molecule. In contrast, treatment with the single-strand breaking agent, hydrogen peroxide, over a 1000-fold range produced no release of DNA from the plug. Thus the assay appears to be specific for DNA DSBs and was used to measure DNA breaks induced by gamma radiation. Purified DNA, irradiated in agarose plugs, exhibited a log-linear dose response up to doses that release greater than 90% DNA from the plug. When live cells were irradiated in agarose, a similar linear dose response was observed up to 40 Gy and a significant signal as low as 2.5 Gy. Also in live cells, a threefold lower percentage of DNA was released from the plug over the same dose range. However, less DNA per gray is released at doses above 40 Gy and may reflect a crosslinking effect produced by the irradiation of DNA in live cells. DNA which was "pulse-labeled" was used to test the effect of DNA replication on the ability of AFIGE to detect DNA DSBs. Replicating DNA irradiated in the cell or after purification exhibited a reduced rate of release from the plug per dose of irradiation. Overall, the above results indicate that AFIGE is a sensitive method for detecting DSBs in DNA.     

Aerobic photolysis of alkylcobalamins: quantum yields and light-action spectra

Quantum yields (φ) for the aerobic photolysis of 5′-deoxyadenosylcobalamin (dAB₁₂), methylcobalamin (MeB₁₂), propylcobalamin (PrB₁₂), and ethylcobalamin (EtB₁₂) were determined as a function of the irradiation wavelength. φ Determinations were made for both the base-on and base-off forms of each compound (except base-off dAB₁₂) at incident wavelengths from 250 nm to 570 nm. As a rule, the φs were high (0.1–0.5) and they varied significantly with respect to the irradiation wavelength. In general, each alkylcobalamin at pH 7.0 displayed a quantum yield spectrum distinct from its base-off form at pH 1.0. Across most of the spectrum, the φs of the base-off form were appreciably smaller than the base-on φs of the same compound. An exception to this generality was MeB₁₂ for which the φs at pH 1.0 were about the same as, or slightly greater above 450 nm than those at pH 7.0. At pH 7.0 and in the visible region the trend of the φs was dAB₁₂ < MeB₁₂ < PrB₁₂ < EtB₁₂. Under neutral conditions each compound showed a broad quantum yield peak in the 450–470 nm region.From the quantum yield and absorption spectra, photolysis spectra were calculated for 5.0 × 10^?5m solutions of each compound. The light-action spectra accurately give the relative rates/μ Einstein that these solutions photolyze at each wavelength. Thus, for example, MeB₁₂ photolyzed faster at pH 7.0 versus pH 1.0 in 510 nm light, but it photolyzed slower at pH 7.0 versus pH 1.0 in 450 nm light. Solutions of each compound photolyzed faster in the ultraviolet region as opposed to the visible (e.g., 310 nm versus 510 nm).Our findings show that the previously reported photolysis rates estimated by others with tungsten lamps provide no valid information about the intrinsic photolability of various alkyl-cobalt bonds. This also applies to the relative white-light photolysis rates reported for the base-on versus the base-off form of MeB₁₂. All such relative rates are artifacts which represent only the extent of overlap between the true action spectrum and the light emission spectrum of an incandescent lamp.