The SbMT-2 Gene from a Halophyte Confers Abiotic Stress Tolerance and Modulates ROS Scavenging in Transgenic Tobacco

Heavy metals are common pollutants of the coastal saline area and Salicornia brachiata an extreme halophyte is frequently exposed to various abiotic stresses including heavy metals. The SbMT-2 gene was cloned and transformed to tobacco for the functional validation. Transgenic tobacco lines (L2, L4, L6 and L13) showed significantly enhanced salt (NaCl), osmotic (PEG) and metals (Zn⁺⁺, Cu⁺⁺ and Cd⁺⁺) tolerance compared to WT plants. Transgenic lines did not show any morphological variation and had enhanced growth parameters viz. shoot length, root length, fresh weight and dry weight. High seed germination percentage, chlorophyll content, relative water content, electrolytic leakage and membrane stability index confirmed that transgenic lines performed better under salt (NaCl), osmotic (PEG) and metals (Zn⁺⁺, Cu⁺⁺ and Cd⁺⁺) stress conditions compared to WT plants. Proline, H₂O₂ and lipid peroxidation (MDA) analyses suggested the role of SbMT-2 in cellular homeostasis and H₂O₂ detoxification. Furthermore in vivo localization of H₂O₂ and O₂ ⁻; and elevated expression of key antioxidant enzyme encoding genes, SOD, POD and APX evident the possible role of SbMT-2 in ROS scavenging/detoxification mechanism. Transgenic lines showed accumulation of Cu⁺⁺ and Cd⁺⁺ in root while Zn⁺⁺ in stem under stress condition. Under control (unstressed) condition, Zn⁺⁺ was accumulated more in root but accumulation of Zn⁺⁺ in stem under stress condition suggested that SbMT-2 may involve in the selective translocation of Zn⁺⁺ from root to stem. This observation was further supported by the up-regulation of zinc transporter encoding genes NtZIP1 and NtHMA-A under metal ion stress condition. The study suggested that SbMT-2 modulates ROS scavenging and is a potential candidate to be used for phytoremediation and imparting stress tolerance.     

Cd++ inhibits EGF-induced DNA synthesis but not EGF induced myc mRNA accumulation in serum starved NRK-49F cells

Cd⁺⁺ inhibits EGF-induced ³H-thymidine incorporation in serum deprived NRK-49F cells in a dose dependent pattern. The underlying mechanisms for this inhibition are largely unknown. EGF-induced myc mRNA accumulation in NRK-49F cells and the effects of Cd⁺⁺ on this response were examined under conditions that result in partial or complete inhibition of EGF-induced DNA synthesis. It was found that doses of Cd⁺⁺ that inhibit EGF-induced DNA synthesis do not inhibit EGF-induced protein synthesis and myc mRNA accumulation. Cd⁺⁺ doses of 0.5 µM and 1 µM were found actually to increase EGF-induced myc mRNA accumulation and amino acid incorporation. These results show that the effect of Cd⁺⁺ on EGF-induced DNA synthesis is not due to inhibition of entrance into G₁, but rather that Cd⁺⁺ acts on events subsequent to myc accumulation; that is, events associated with either G₁ progression, entry into S or DNA synthesis.Abbreviations EGF Epidermal Growth Factor - ³HTdr Tritium thymidine - MeAIB Methylaminoisobutyrate     

Development of a fluorescent transgenic zebrafish biosensor for sensing aquatic heavy metal pollution

We report a transgenic zebrafish (Danio rerio) designed to respond to heavy metals using a metal-responsive promoter linked to a fluorescent reporter gene (DsRed2). The metallothionein MT-Ia1 promoter containing metal-responsive elements was derived from the Asian green mussel, Perna viridis. The promoter is known to be induced by a broad spectrum of heavy metals. The promoter-reporter cassette cloned into the Tol2 transposon vector was microinjected into zebrafish embryos that were then reared to maturity. A transgene integration rate of 28 % was observed. The confirmed transgenics were mated with wild-type counterparts, and pools of F₁ embryos were exposed to sub-lethal doses of Cd²⁺, Cu²⁺, Hg²⁺, Pb²⁺ and Zn²⁺. The red fluorescence response of zebrafish embryos was observed 8 h post- exposure to these sub-lethal doses of heavy metals using a fluorescence microscope. Reporter expression estimated by real-time PCR revealed eightfold, sixfold and twofold increase on exposure to highest concentrations of Hg²⁺, Cd²⁺ and Cu²⁺, while Pb²⁺ and Zn²⁺ had no effect. This biosensor could be a first-level screening method for confirming aquatic heavy metal bio-toxicity to eukaryotes.     

Effects of calcium and potassium channel blockers on changes in transepithelial potential and spike responses in Lorenzi ampullary electroreceptors in Raja clavata

The effects of TEA, 4-AP, Co⁺⁺, Cd⁺⁺, Cs⁺, EDTA, and verapamil on the sensory epithelium of ampullae of Lorenzini were studied inRaja clavata (Black Sea skate). During voltage clamping, transepithelial application of TEA to the basal surface caused oscillations in transepithelial potentials in response to presentation of an excitatory stimulus, which had been suppressed by Co⁺⁺, Cd⁺⁺, and EDTA. Application of Cs⁺ was followed by complete or partial suppression of spike response adaptation. When applied to the apical epithelial surface, TEA produced an increase in spike response to stimulation and highly accelerated adaption. No substantial changes took place after apical application of Co⁺⁺, Cd⁺⁺, and verapamil. The mechanisms of these phenomena are discussed.Deceased.I. P. Pavlov Institute of Physiology, Academy of Sciences of the USSR, Leningrad. I. M. Sechenov Institute of Evolutionary Physiology and Biochemistry, Academy of Sciences of the USSR, Leningrad. Translated from Neirofiziologiya, Vol. 17, No. 5, pp. 652–659, September–October, 1985.     

Effect of cellular glutathione depletion on cadmium-induced cytotoxicity in human lung carcinoma cells

The effect of glutathione depletion on cellular toxicity of cadmium was investigated in a subpopulation (T27) of human lung carcinoma A549 cells with coordinately high glutathione levels and Cd⁺⁺-resistance. Cellular glutathione levels were depleted by exposing the cells to diethyl maleate or buthionine sulfoximine. Depletion was dose-dependent. Exposure of the cells to 0.5 mM diethyl maleate for 4 hours or to 10 mM buthionine sulfoximine for 8 hours eliminated the threshold for Cd⁺⁺ cytotoxic effect and deccreased the LD_50S. Cells that were pretreated with 0.5 mM diethyl maleate or 10 mM buthionine sulfoximine and then exposed to these same concentrations of diethyl maleate or buthionine sulfoximine during the subsequent assay for colony forming efficiency produced no colonies, reflecting an enhanced sensitivity to these agents at low cell density. Diethyl maleate was found to be more cytotoxic than buthionine sulfoximine. Synergistic cytotoxic effects were observed in the response of diethyl maleate pretreated cells exposed to Cd⁺⁺. Thus the results demostrated that depletion of most cellular glutathione in A549-T27 cells prior to Cd⁺⁺ exposure sensitizes them to the agent's cytotoxic effects. Glutathione thus may be involved in modulating the early cellular Cd⁺⁺ cytotoxic response. Comparison of reduced glutathione levels and of Cd⁺⁺ cytotoxic responses in buthionine sulfoximine-treated A549-T27 cells with those levels in other, untreated normal and tumor-derived cells suggests that the higher level of glutathione in A549-T27 is not the sole determinant of its higher level of Cd⁺⁺ resistance.Abbreviations BSO DL-buthionine-(R,S)-sulfoximine - DEM diethyl maleate - DMSO dimethyl sulfoxide - GSH reduced glutathione - MT metallothionein     

Cadmium produces a delayed mitogenic response and modulates the EGF response in quiescent NRK cells

Recent studies have shown that cadmium, at subtoxic levels, may induce a response characteristic of that elicited by a type of growth factor that supports the anchorage independent growth of cells that are not fully transformed. That is, Cd⁺⁺ was found to replace transforming growth factor beta in supporting soft agar growth of NRK-49F cells. To tes the extent to which Cd⁺⁺ further mimics transforming growth factor beta in its effects and to establish response patterns that suggest possible molecular mechnisms of action, we have determined the effects of Cd⁺⁺ and/or epidermal growth factor (EGF) on DNA synthesis in quiescent NRK-49F cells. We found that subtoxic doses of Cd⁺⁺ modulate EGF-induced DNA synthesis in a dose-dependent fashion. Although Cd⁺⁺ effects on early (16–24 hr) EGF-induced DNA synthesis are primarily inhibitory, later effects involve stimulation as well. Subtoxic doses of Cd⁺⁺ did not stimulate DNA synthesis in quiescent cells within 24 hr of addition. At later times (40 or 64 hr), however, an increase in DNA synthesis of up to threefold was induced by 0.25 M Cd⁺⁺. This pattern of mitogenic response, involving inhibition of early growth-factor induced DNA synthesis and stimulation of late DNA synthesis, is consistent with that reported to be effected in some instances by transforming growth factor beta. Because a defined pattern of gene expression also is associated with the mitogenic responses to transforming growth factor beta, future studies at the molecular level can definitively test the degree to which Cd⁺⁺ and transforming growth factor beta effects are common.Abbreviations CFE colony forming efficiency - EGF epidermal growth factor - MT metallothionein - PGDF paltelet derived growth factor - TGF transforming growth factor     

Effects of soil-added Cl on growth ofAndropogon scoparius and possible implications for heavy metal research

Soil additions of Cl^–, as NaCl, over the 0 to 400 ppm Cl^– range did not affect germination forAndropogon scoparius. Height and top dry weight were significantly reduced by 300 ppm soil added Cl^–. Although not conclusive, these results did indicate that growth and germination effects reported for Cd⁺⁺, added as CdCl₂, are probably due to Cd⁺⁺ rather than to a Cl^– or salt effect. Reported Pb⁺⁺ effects, where Pb⁺⁺ is added as PbCl₂, however may be at least partially due to a Cl^– or salt effect.Contribution from Purdue University Agricultural Experiment Station, West Lafayette, Indiana 47907. AES Journal No. 6934. This work was supported by federal funds from the National Science Foundation—RANN Program.     

Alternate promoters direct stress-induced transcription of the Bacillus subtilis clpC operon

clpC ofBacillus subtilis is part of an operon containing six genes. Northern blot analysis suggested that all genes are co-transcribed and encode stress-inducible proteins. Two promoters (P_A and P_B) were mapped upstream of the first gene. P_A resembles promoters recognized by the vegetative RNA polymerase Eσ^A. The other promoter (P_B) was shown to be dependent on σ^B, the general stress σ factor in B. subtilis, suggesting that clpC, a potential chaperone, is expressed in a σ^B-dependent manner. This is the first evidence that σ^B in B, subtilis is involved in controlling the expression of a gene whose counterpart, clpB, is subject to regulation by σ³² in Escherichia coli, indicating a new function of σ^B-dependent general stress proteins. P_B deviated from the consensus sequence of σ^B promoters and was only slightly induced by starvation conditions. Nevertheless, strong induction by heat, ethanol, and salt stress occurred at the σ^B-dependent promoter, whereas the vegetative promoter was only weakly induced under these conditions. However, in a sigB mutant, the σ^A-like promoter became inducible by heat and ethanol stress, completely compensating for sigB deficiency. Only the downstream σ^A-like promoter was induced by certain stress conditions such as hydrogen peroxide or puromycin. These results suggest that novel stress-induction mechanisms are acting at a vegetative promoter. Involvement of additional elements in this mode of induction are discussed.     

Enhanced cadmium cytotoxicity in A549 cells with reduced glutathione levels is due to neither enhanced cadmium accumulation nor reduced metallothionein synthesis

Glutathione (GSH) depletion sensitizes human lung carcinoma (A549-727) cells to the cytotoxic effects of Cd⁺⁺. The effects of GSH depletion on Cd⁺⁺ accumulation and Cd⁺-induced metallothionein (MT) content were investigated to determine the possible role of these Cd⁺⁺ responses in the sensitization process. Cellular GSH was depleted to 20% to 25% of control levels with buthionine sulfoximine (BSO), or diethyl maleate (DEM), respectively. Neither treatment significantly affected Cd⁺⁺-induced accumulation of exogenous³⁵s-cysteine into intracellular MT in a dose-dependent fashion. The results indicate that neither enhanced Cd⁺⁺ accumulation nor reduced MT synthesis plays a primary role in affecting enhanced Cd⁺⁺ cytotoxicity in A549 cells with reduced GSH levels. Although BSO inhibition of GSH synthesis enhanced MT synthesis, it sensitized the cells to Cd⁺⁺, which suggests an additive effect of GSH and MT in cadmium cytoprotection. This observation also raises the possibility that intracellular cysteine levels limit Cd⁺⁺-induced MT accumulation rates.Abbreviations GSH glutathione - MT metallothionein - BSO DL-buthionine-[S,R]-sulfoximine - DMSO dimethyl sulfoximine - DEM diethyl maleate - NP-40 nonidet-P40 - PBS phosphate buffered saline - HBSS Hank's balanced salt solution - DTT dithiothreitol 3. This work was presented in part at the 72nd Annual Meeting of the Federation of American Societies for Experimental Biology, Las Vegas, Nevada, May 1–5, 1988.     

Selection and characterization of cadmium-resistant suspension cultures of the wild tomato Lycopersicon peruvianum

Suspension cultures of Lycopersicon peruvianum were selected for resistance to cadmium by stepwise exposure to increasing concentrations of cadmium sulfate. Resistant cells grow in 1500 micromolar Cd⁺⁺. This resistance was retained for thirty generations without selection. Both resistant and parental sensitive cultures take up Cd⁺⁺ at similar rates and to the same final levels. Exposure of sensitive or resistant cultures to Cd⁺⁺, Cu⁺⁺, or Zn⁺⁺ leads to the intracellular accumulation of a low molecular weight, cysteine-rich, cadmium-binding protein. This metallothionein is induced over fifteen fold by 100 M cadmium and builds up to about five fold higher levels in the resistant cultures.Abbreviations Cd⁺⁺ divalent cadmium ion - Cu⁺⁺ divalent copper ion - Zn⁺⁺ divalent zinc ion - BA benzyl adenine - 2,4-D 2,4-dichlorophenoxyacetic acid - IAA indole-acetic acid     

Tamarix hispida metallothionein-like ThMT3, a reactive oxygen species scavenger, increases tolerance against Cd2+, Zn2+, Cu2+, and NaCl in transgenic yeast

A metallothionein-like gene, ThMT3, encoding a type 3 metallothionein, was isolated from a Tamarix hispida leaf cDNA library. Expression analysis revealed that mRNA of ThMT3 was upregulated by high salinity as well as by heavy metal ions, and that ThMT3 was predominantly expressed in the leaf. Transgenic yeast (Saccharomyces cerevisiae) expressing ThMT3 showed increased tolerance to Cd²⁺, Zn²⁺, Cu²⁺, and NaCl stress. Transgenic yeast also accumulated more Cd²⁺, Zn²⁺, and NaCl, but not Cu²⁺. Analysis of the expression of four genes (GLR1, GTT2, GSH1, and YCF1) that aid in transporting heavy metal (Cd²⁺) from the cytoplasm to the vacuole demonstrated that none of these genes were induced under Cd²⁺, Zn²⁺, Cu²⁺, and NaCl stress in ThMT3-transgenic yeast. H₂O₂ levels in transgenic yeast under such stress conditions were less than half those in control yeast under the same conditions. Three antioxidant genes (SOD1, CAT1, and GPX1) were specifically expressed under Cd²⁺, Zn²⁺, Cu²⁺, and NaCl stress in the transgenic yeast. Cd²⁺, Zn²⁺, and Cu²⁺ increased the expression levels of SOD1, CAT1, and GPX1, respectively, whereas NaCl induced the expression of SOD1 and GPX1.     

Theoretical description of the calcium channel in rat spinal ganglion neurons

The surface charge density (σ′₀) and the binding constant of Ca⁺⁺ with charged groups on the outer surface of the membrane (K_Ca) were calculated from experimentally determined values of the shift of the current-voltage characteristic curves of calcium currents in the membrane of rat spinal ganglion neurons: σ′₀ = 0.15 ± 0.05 e/nm² and K_Ca = 70 ± 10 liters/mole. Using a three-barrier model the energy profile of the calcium channel of the membrane of these neurons was calculated for Ca⁺⁺, Ba⁺⁺, Cd⁺⁺, Mn⁺⁺, Co⁺⁺, and verapamil. The calcium current was shown to be determined mainly by the depth of the potential hole corresponding to the outer binding site of the calcium channel. It is concluded from the results that the outer binding site of the calcium channel contains only one carboxyl group.     

Effects of Cd++ on short-circuit current across epithelial membranes

Summary Cadmium ion (Cd⁺⁺) significantly increased potential difference (PD) and short-circuit current (SCC) across isolated frog skin when added to the outside Ringer's solution at 10^–4, 10^–3 and 5×10^–3 m concentration. Resistance was reduced by 10^–4 m Cd⁺⁺ but not significantly changed by the higher concentrations. When SCC was first stimulated by vasopressin, 10^–4 and 10^–3 m Cd⁺⁺ produced additive stimulation which was reversible by washing with Cd⁺⁺-free Ringer's. If SCC was first stimulated by Cd⁺⁺, further stimulation by vasopressin was additive with 10^–4 m Cd⁺⁺ but completely inhibited by 10^–3 m Cd⁺⁺. Elevating the calcium ion (Ca⁺⁺) concentration of the outer Ringer's from 10^–3 m to 5×10^–3 m or 10^–2 m prior to Cd⁺⁺ treatment did not reduce the magnitude of SCC stimulation by Cd⁺⁺. Removal of Ca⁺⁺ from the outside Ringer's with 2×10^–3 m EDTA increased SCC as predicted. Subsequent addition of 5×10^–3 m Cd⁺⁺ drastically reduced SCC below control levels while equimolar concentrations of Cd⁺⁺ and EDTA reduced SCC only to control levels. These results suggest that Cd⁺⁺ interacts with the components of the apical plasma membranes of epithelial cells which are associated with the stimulation of SCC by vasopressin and Ca⁺⁺ removal and may be a useful probe for elucidating these components.     

Purification and Characterization of Invertase from Lactobacillus reuteri CRL 1100

The invertase of Lactobacillus reuteri CRL 1100 is a glycoprotein composed by a single subunit with a molecular weight of 58 kDa. The enzyme was stable below 45°C over a wide pH range (4.5–7.0) with maximum activity at pH 6.0 and 37°C. The invertase activity was significantly inhibited by bivalent metal ions (Ca⁺⁺, Cu⁺⁺, Cd⁺⁺, and Hg⁺⁺), β-mercaptoethanol, and dithiothreitol and partially improved by ethylenediaminetetraacetic acid. The enzyme was purified 32 times over the crude extract by gel filtration and ion-exchange chromatography with a recovery of 17%. The K _m and V_max values for sucrose were 6.66 mM and 0.028 μmol/min, respectively. An invertase is purified and characterized for the first time in Lactobacillus, and it proved to be a β-fructofuranosidase. Received: 13 August 1999 / Accepted: 15 September 1999     

Further Studies on the Roles of Sodium and Potassium in the Generation of the Electro-Olfactogram : Effects of mono-, di-, and trivalent cations

In the negative EOG-generating process a cation which can substitute for Na⁺ was sought among the monovalent ions, Li⁺, Rb⁺, Cs⁺, NH₄⁺, and TEA⁺, the divalent ions, Mg⁺⁺, Ca⁺⁺, Sr⁺⁺, Ba⁺⁺, Zn⁺⁺, Cd⁺⁺, Mn⁺⁺, Co⁺⁺, and Ni⁺⁺, and the trivalent ions, Al⁺⁺⁺ and Fe⁺⁺⁺. In Ringer solutions in which Na⁺ was replaced by one of these cations the negative EOG's decreased in amplitude and could not maintain the original amplitudes. In K⁺-Ringer solution in which Na⁺ was replaced by K⁺, the negative EOG's reversed their polarity. Recovery of these reversed potentials was examined in modified Ringer solutions in which Na⁺ was replaced by one of the above cations. Complete recovery was found only in the normal Ringer solution. Thus, it was clarified that Na⁺ plays an irreplaceable role in the generation of the negative EOG's. The sieve hypothesis which was valid for the positive EOG-generating membrane or IPSP was not found applicable in any form to the negative EOG-generating membrane. The reversal of the negative EOG's found in K⁺- , Rb⁺- , and Ba⁺⁺-Ringer solutions was attributed to the exit of the internal K⁺. It is, however, not known whether or not Cl^- permeability increases in these Na⁺-free solutions and contributes to the generation of the reversed EOG's.     

Cation activation of desoxyribonuclease

The activation of desoxyribonuclease on desoxyribonucleate, known to occur with Mg⁺⁺ and Mn⁺⁺, has been shown to occur equally well with Co⁺⁺, to nearly the same extent with Fe⁺⁺, and to a lesser extent with Ca⁺⁺, Ba⁺⁺, Sr⁺⁺, Ni⁺⁺, Cd⁺⁺, and Zn⁺⁺. The conditions under which the optimal activation is revealed vary among these ions. Thus, Mg⁺⁺, Mn⁺⁺, and Co⁺⁺ may show marked activation under conditions in which Fe⁺⁺ is nearly ineffective. Since too high a concentration of an ion may be as ineffective as too little, concentration-activation curves were determined for each ion. Per micromole of nucleic acid phosphorus, the optimal effective amount of each ion in micromoles is as follows: Mg⁺⁺ 3, Mn⁺⁺ 3, Co⁺⁺ 3, Fe⁺⁺ 0.3, Ni⁺⁺ 0.3, Ba⁺⁺ 1.7, Ca⁺⁺ 3, Sr⁺⁺ 3, Zn⁺⁺ 0.3, and Cd⁺⁺ 0.3.The optimum pH for the activation with Mg⁺⁺, Co⁺⁺, and Ca⁺⁺ is about 6.5, that with Fe⁺⁺ is at 5.7, while Mn⁺⁺ shows two optima at pH 6.8 and 8.0.Experiments conducted in Pyrex and in quartz vessels showed the same results, and indicated that there was no activation of desoxy-ribonuclease in the absence of added salts.