Relative susceptibilities of caffeine-sensitive and caffeine-resistant strains of Candida albicans to inactivation and mutation by ultraviolet radiation

Summary Stable variants having increased resistance to growth inhibition by caffeine were obtained from four different absolute, amino acid auxotrophs of Candida albicans. Differences in growth rates and expression of auxotrophy between the resistant (Caf^R) variants and their sensitive (Caf^S) progenitors suggest that caffeine resistance arises through suppressor mutations which affect the fidelity of messenger RNA translation.Both Caf^S and Caf^R strains of C. albicans are more susceptible to inactivation by ultraviolet radiation (uv) when grown at 37°C rather than 25°C following exposure. Post irradiation growth on caffeine potentiates ultraviolet inactivation of all Caf^S strains at both temperatures. Depending on its origin, a Caf^R strain (i) may show greater, lesser or the same intrinsic susceptibility to uv inactivation as its Caf^S parent at 25°C or at 37°C and (ii) may or may not be refractory to post-irradiation contact with caffeine. Caf^R variants independently isolated from a given auxotroph are alike in inactivational responses whereas those obtained from different auxotrophs are dissimilar. This implies that different suppressor mutations are unique in the way they affect expression of potentially lethal uv damage and that only one kind of suppressor is obtained by selection for caffeine resistance in a particular auxotroph.The histidine requiring Caf^R strain WB-2CR is much more resistant to uv inactivation that its Caf^S parent WB-2. Moreover, post-irradiation survival of WB-2CR is unaffected by caffeine. However, WB-2CR and WB-2 are equally susceptible to uv-induced reversion to prototrophy. In both strains, caffeine does not enhance uv-induced reversion at 25°C or 37°C and exhibits an antimutagenic activity at high uv dosage at 37°C.The findings reinforce previously reported indications that, in C. albicans, (i) caffeine-sensitive excision-repair of uv damaged DNA does not occur and (ii) caffeine potentiates uv cellular inactivation by disturbing post-irradiation synthesis of protein essential for recovery from non-genetic damage.     

Differential effects of growth temperatures on inactivation and mutation of Candida albicans by ultraviolet radiation

Summary Candida albicans exhibits greater susceptibility to inactivation by ultraviolet (uv) radiation if grown before or after irradiation at 37° C rather than 25° C. Caffeine, acriflavin or amino acid analogues potentiate inactivation during postirradiation growth at 37° C but have little effect at 25° C. In contrast to inactivation, mutation induction by uv is unaffected by pre- or postirradiation growth temperatures or by metabolic antagonists. These findings are not explicable in terms of possible effects of growth temperatures on known mechanisms for repair of uv damaged DNA. They are consistent, however, with a previous proposal that a temperature dependent mechanism for dark recovery exists in C. albicans which involves synthesis of protein essential for repair of lethal, non-genetic uv damage.     

Mutagenesis and mutant selection in Physarum polycephalum

Summary Physarum polycephalum myxamoebae were exposed to ultraviolet irradiation and plated in the absence and presence of caffeine. Caffeine reduces the shoulder on the UV¹ dose-survival curve, thereby increasing the UV-sensitivity for survival. Caffeine alone is a moderate mutagen. Used in conjunction with UV a strong mutagenic action is observed. Active growth is required for both of these mutagenic actions.Populations of Physarum myxamoebae mutagenized with NMG or EMS could be enriched for two classes of mutants by incubating at high temperature (30°C) with 5-bromodeoxyuridine-substituted bacteria followed by irradiation with long wave UV light and recovery at low temperature (23°C). One class of mutants was obtained in high yields after repeated cycles of light inactivation. These are not heat sensitive. Rather they are defective in utilization of DNA precursors provided by the bacteria. The other mutant class, obtained in low yields after limited selection, are heat sensitive. Three independent mutants of this kind, all eaky, were obtained. Reconstruction experiments show that all are selectants.     

Cellular inactivation and mitotic recombination induced by ultraviolet radiation in aneuploid and euploid strains of Candida albicans

Prototrophic aneuploid and euploid derivatives of wild type Candida albicans strain 207 were produced by fusing protoplasts of complementing auxotrophs obtained from strain 207. Comparisons of cell survivals and incidences of mitotic recombinants ocurring after ultraviolet irradiation (UV) of these strains indicate that (i) aneuploids are categorically less efficient than euploids for repair of pyrimidine dimers induced in DNA by UV and that (ii) such repair is enhanced by growing irradiated cells at 25° C, on minimal medium or in the presence of ergosterol rather than at 37° C, on amino acid enriched medium or medium unsupplemented with ergosterol. In addition, the comparisons establish than one cannot discriminate between strains of C. albicans which differ in cellular DNA contents or genomic constitutions on the basis of their UV survival curves.     

Cloning and expression of Candida albicans ADE2 and proteinase genes on a replicative plasmid in C. albicans and in Saccharomyces cerevisiae.

Summary A plasmid vector (denoted pRC2312) was constructed, which replicates autonomously in Escherichia coli, Saccharomyces cerevisiae and Candida albicans. It contains LEU2, URA3 and an autonomously replicating sequence (ARS) from C. albicans for selection and replication in yeasts, and bla (ampicillin resistance) and ori for selection and replication in E. coli. S. cerevisiae AH22 (Leu^–) was transformed by pRC2312 to Leu^– at a frequency of 1.41 × 10⁵ colonies per g DNA. Transformation of C. albicans SGY-243 (Ura-) to Ura⁺ with pRC2312 resulted in smaller transformant colonies at a frequency of 5.42 × 10³ per g DNA where the plasmid replicated autonomously in transformed cells, and larger transformant colonies at a frequency of 32 per g DNA, in which plasmid integrated into the genome. Plasmid copy number in yeasts was determined by a DNA hybridization method and was estimated to be 15±3 per haploid genome in S. cerevisiae and 2–3 per genome in C. albicans replicative transformants. Multiple tandem integration occurred in integrative transformants and copy number of the integrated sequence was estimated to be 7–12 per diploid genome. The C. albicans ADE2 gene was ligated into plasmid pRC2312 and the construct transformed Ade^– strains of both C. albicans and S. cerevisiae to Ade⁺. The vector pRC2312 was also used to clone a fragment of C. albicans genomic DNA containing an aspartic proteinase gene. C. albicans transformants harboring this plasmid showed a two-fold increase in aspartic proteinase activity. However S. cerevisiae transformants showed no such increase in proteinase activity, suggesting the gene was not expressed in S. cerevisiae.     

Inactivation of Candida albicans by ultraviolet radiation

Summary Inactivation of Candida albicans by ultraviolet (uv) light is markedly dependent upon (a) the cell division stage and (b) the nutrition and growth temperatures of cells both before and after irradiation. Cells grown at 37°C after irradiation show lower survivals than those grown at 25°C. At either recovery temperature, cells which had been cultured before irradiation at 37°C are able to sustain less uv damage prior to inactivation than those cultured at 25°C. The radiosensitivities of budding and non-budding cells are the same when survivals are scored at 25°C; at low uv dosages, cells show slightly poorer recoveries on enriched medium than on minimal medium whereas at higher dosages, their recoveries on both kinds of media are equivalent. In contrast, at 37°C, uv treated non-budding cells are much more susceptible to inactivation than budding cells; non-budding cells also express much poorer recovery on enriched medium than on minimal medium at 37°C whereas budding cells survive equally well on either medium. Though non-budding cells grown for irradiation on minimal or enriched media exhibit the same radiosensitivites, budding cells grown for irradiation on enriched medium are more susceptible to inactivation at 37°C than those grown on minimal medium.The particularly poor recovery by irradiated non-budding cells at 37°C is correlated with their unique tendency to undergo a transitory filamentation when initiating growth at that temperature. Evidence is presented that neither the filamentous growth per se nor the temporary inhibition of cell division associated with filamentation causes the poor recovery. Furthermore, while irradiated non-budding cells at 37°C exhibit singular susceptibility to inhibition of recovery by metabolic antagonists which disturb protein synthesis, the course of their filamentous growth is not affected by such agents. It is concluded that recovery from irradiation and the instigation of cytokinesis by non-budding cells of C. albicans result from different metabolic processes which may be related through a common temperature sensitive step. C. albicans does not photoreactivate and observations on recovery by cells prevented from undergoing immediate postirradiation replication do not indicate the existence of a system for dark repair of DNA damage comparable to that occurring in bacteria. Difficulties attending a valid demonstration of DNA dark repair in yeasts are discussed.     

Mechanism of Caffeine Enhancement of Mutations Induced by Sublethal Ultraviolet Dosages

Certain chemical compounds increase mutation frequency of Escherichia coli B/r significantly when used in conjunction with nonlethal ultraviolet (UV) dosages. Studies were done to elucidate the mechanism of this enhancing mutational effect. Dark survival curves showed that 500 μg of caffeine per ml in the postirradiation medium markedly decreased survival to 60 ergs/mm² of UV in strain B/r. Caffeine did not markedly decrease survival to UV in strain B/r WP-2 hcr⁻. At least 90% of the mutations induced to streptomycin resistance by UV and 85% of those induced by UV with caffeine could be photoreversed. Experiments with thymine analogues suggested that thymine dimerization at the streptomycin locus was the primary premutational photoproduct induced by sublethal UV dosages. Caffeine did not interfere with the photoreversal of induced mutants, indicating that it probably does not bind to the photoreactivating enzyme or to a UV-induced lesion in the DNA. Addition of DNA or irradiated DNA with 500 μg of caffeine per ml resulted in no loss of the caffeine activity. The excision of UV-induced thymine-containing dimers from E. coli B/r T⁻ was investigated in the presence and absence of caffeine. Our results indicated that caffeine prevents excision of thymine dimers, presumably by binding to the excising enzyme. This binding results in an impairment of repair, which produces the increase in mutant numbers.     

Levan production using mutant strains of Zymomonas mobilis in different culture conditions

Several levan hyperproducing mutants of Zymomonas mobilis strains were selected by mutagenesis with N-methyl-N-nitro-nitrosoguanidine and caffeine. Highest levan production (41 g l^–1) was obtained with a mutant strain HL 29 in a culture medium containing 200 g sucrose l^–1 and 0.5 g (NH₄)₂SO₄ l^–1 stored at 7 °C for 29 days. This is the first report describing the levan synthesis by Z. mobilis at 7 °C.     

Isolation and nucleotide sequence of an autonomously replicating sequence (ARS) element functional in Candida albicans and Saccharomyces cerevisiae

Summary An 8.6-kb fragment was isolated from an EcoRI digest of Candida albicans ATCC 10261 genomic DNA which conferred the property of autonomous replication in Saccharomyces cervisiae on the otherwise non-replicative plasmid pMK155 (5.6 kb). The DNA responsible for the replicative function was subcloned as a 1.2-kb fragment onto a non-replicative plasmid (pRC3915) containing the C. albicans URA3 and LEU2 genes to form plasmid pRC3920. This plasmid was capable of autonomous replication in both S. cerevisiae and C. albicans and transformed S. cerevisiae AH22 (leu2 ^–) to Leu⁺ at a frequency of 2.15 × 10³ transformants per pg DNA, and transformed C. albicans SGY-243 (ura3) to Ura⁺ at a frequency of 1.91 × 10³ transformants per g DNA. Sequence analysis of the cloned DNA revealed the presence of two identical regions of eleven base pairs (5TTTTATGTTTT3) which agreed with the consensus of autonomously replicating sequence (ARS) cores functional in S. cerevisiae. In addition there were two 10/11 and numerous 9/11 matches to the core consensus. The two 11/11 matches to the consensus, CaARS1 and CaARS2, were located on opposite strands in a non-coding AT-rich region and were separated by 107 bp. Also present on the C. albicans DNA, 538 by from the ARS cores, was a gene for 5S rRNA which showed sequence homology with several other yeast 5S rRNA genes. A sub-fragment (494 bp) containing the 5S rRNA gene (but not the region containing the ARS cores) hybridized to genomic DNAs from a number of yeast species, including S. cerevisiae, C. tropicalis, C. pseudotropicalis, C. parapsilosis, C. kruseii, C. (Torulopsis) glabrata and Neurospora crassa. The 709-bp ARS element (but not the 5S rRNA gene) was necessary for high-frequency transformation and autonomous plasmid replication in both S. cerevisiae and C. albicans.EMBL/GenBank database accession number: X16634 (5S rRNA)     

Hybridization of Candida albicans through fusion of protoplasts

Protoplasts of complementing auxotrophs of Candida albicans can fuse in the presence of polyethylene glycol and generate prototrophic cells. The yields of prototrophs from fusion mixtures depend greatly on the particular combinations of auxotrophies involved but not on other features of the strain backgrounds of protoplasts. The initial cellular products of fusions isolated on selective media are heterokaryons which replicate slowly but also segregate single parental nuclei into blastospores in high frequency. Karyogamy within heterokaryons produces hybrid nuclei which, on segregation, give rise to rapidly growing, uninucleate substrains. Analyses of the substrains show that hybrid nuclei either stabilize as diploid or undergo random loss of chromosomes to stabilize at various levels of aneuploidy prior to segregation. Chromosome losses and radiation induced mitotic crossing-over can effect recombination for parental auxotrophic markers in hybrids; patterns of recombination for ade^r and arg markers provide the first documented example of chromosomal linkage in C. albicans. Thus, protoplast fusions offer opportunities otherwise unavailable for applying the incisive tools of genetic recombination to analysis of this important, asexual yeast.     

Involvement of a Ca2+-calmodulin interaction in the yeast-mycelial (Y-M) transition of Candida albicans

A yeast-mycelium (Y-M) transition of Candida albicans (3153A) was induced by 1.5 mM CaCl₂ · 2H₂O in defined liquid medium, pH 7, at 25 °C. Germ tube formation was detected after approximately 8 h and peaks of maximum germination occurred at approximately 20 h in all experimental treatments. Non-toxic concentrations of the calmodulin inhibitor R24571 almost completely suppressed germ tube formation whereas trifluoperazine (TFP) and the Ca²⁺ ionophore A23187 were only about half as effective. Further Ca²⁺ addition failed to reverse the inhibitory effect of R24571 and induced only about 10% of the cells inhibited by TFP or A23187 to germinate.     

Caffeine-induced enhancement of chromosome damage in human lymphocytes treated with methyl-methanesulphonate, mitomycin C and X-rays

Two hypothese have been put forward in the literature to explain the synergistic effect of caffeine with several mutagens: (1) binding of caffeine to DNA, and (2) inhibition of DNA repair.Autoradiographic studies with ³H- and ¹⁴C-labelled caffeine did not support the binding hypothesis. Caffeine enchanced in a synergistic way the amount of chromatid breaks and exchanged induced in human lymphocytes with methyl-methanesulphonate (MMS), mitomycin C (MC) and X-rays. The results are best explained if caffiene inhibits a post-replication repair process, particularly the filling-in of gaps in the newly synthesized DNA.     

和厚朴酚通过ROS的积累和破坏细胞膜杀死白色念珠菌

[目的]研究在体外情况下和厚朴酚对白色念珠菌的抑制作用及其可能机制。[方法]采用微量稀释法测定和厚朴酚对白色念珠菌的最低抑菌浓度（MIC₈₀）和最低杀菌浓度（MFC）;用透射电镜观察不同浓度和厚朴酚对白色念珠菌超微结构的影响;采用Annexin V-FITC/PI染色法分析不同浓度和厚朴酚对白色念珠菌细胞凋亡的影响;用DCFH-DA染色法测定不同浓度和厚朴酚对白色念珠菌细胞内活性氧积累的影响;用JC-1染色法分析不同浓度和厚朴酚对白色念珠菌线粒体膜电位的影响;用碘化丙啶染色、考马斯亮蓝G-250染色检测和厚朴酚对白色念珠菌细胞膜通透性的影响;通过测定加入麦角甾醇后,和厚朴酚对白色念珠菌的抑制作用的变化,检测和厚朴酚对白色念珠菌细胞膜的影响。[结果]和厚朴酚对白色念珠菌具有很强的抑制作用,MIC和MFC分别为16 μg/mL和32 μg/mL。对白色念珠菌细胞壁、细胞膜和胞浆均有明显的影响。和厚朴酚是通过增加活性氧的产生和破坏线粒体功能来诱导白念珠菌的细胞凋亡和坏死。它也影响细胞膜的通透性,这可能和细胞壁的破坏和与麦角固醇的结合有关。[结论]和厚朴酚通过产生活性氧并伴随着一系列的细胞损伤这种复杂的机制从而对白色念珠菌产生抑制作用,使和厚朴酚成为一种潜在的抗真菌药物。     

Mannan structural complexity is decreased when Candida albicans is cultivated in blood or serum at physiological temperature

The Candida albicans cell wall provides an architecture that allows for the organism to survive environmental stress as well as interaction with host tissues. Previous work has focused on growing C. albicans on media such as Sabouraud or YPD at 30 °C. Because C. albicans normally colonizes a host, we hypothesized that cultivation on blood or serum at 37 °C would result in structural changes in cell wall mannan. C. albicans SC5314 was inoculated onto YPD, 5% blood, or 5% serum agar media three successive times at 30 °C and 37 °C, then cultivated overnight at 30 °C in YPD. The mannan was extracted and characterized using 1D and 2D ¹H NMR techniques. At 30 °C cells grown in blood and serum contain less acid-stable terminal β-(1→2)-linked d-mannose and α-(1→2)-linked d-mannose-containing side chains, while the acid-labile side chains of mannan grown in blood and serum contain fewer β-Man-(1→2)-α-Man-(1→ side chains. The decrement in acid-stable mannan side chains is greater at 37 °C than at 30 °C. Cells grown on blood at 37 °C show fewer →6)-α-Man-(1→ structural motifs in the acid-stable polymer backbone. The data indicate that C. albicans, grown on media containing host-derived components, produces less complex mannan. This is accentuated when the cells are cultured at 37 °C. This study demonstrates that the C. albicans cell wall is a dynamic and adaptive organelle, which alters its structural phenotype in response to growth in host-derived media at physiological temperature.     

Inactivation of Alicyclobacillus acidoterrestris vegetative cells in model system,apple, orange and tomato juices by high hydrostatic pressure

The objective of this study is to determine the effect of high hydrostatic pressure (HHP) on inactivation of Alicyclobacillus acidoterrestris vegetative cells in a model system (BAM broth) and in orange, apple and tomato juices. The shelf-life stability of pressurized juices is also studied. In general the viability loss was enhanced significantly as the level of pressure and temperature were increased (P < 0.05). 4.70 log cycle reduction was obtained after pressurization at 350 MPa at 50 °C for 20 min in BAM broth whereas thermal treatment at 50 °C for 20 min caused only 1.13 log cycle inactivation showing the effectiveness of HHP treatment on inactivation. The D values for pressure (350 MPa at 50 °C) and temperature (50 °C) treatments were 4.37 and 18.86 min in BAM broth, respectively. All juices were inoculated with A. acidoterrestris cells to 10⁶ c.f.u./ml and were pressurized at 350 MPa at 50 °C for 20 min. More than 4 log cycle reduction was achieved in all juices studied immediately after pressurization. The pressurized juices were also stored up to 3 weeks at 30 °C and the viable cell numbers of A. acidoterrestris in orange, apple and tomato juices were 3.79, 2.59 and 2.27 log cycles, respectively after 3 weeks. This study has indicated that A. acidoterrestris vegetative cells can be killed by HHP at a predictable rate even at temperatures at which the microorganism would normally grow.     

紫草素对白色念珠菌的抑制作用机制

【目的】研究紫草素抑制白色念珠菌的作用机制。【方法】通过微量稀释法测定紫草素对白色念珠菌的最低抑菌浓度(MIC)和最低杀菌浓度(MFC);紫外分光光度法测定紫草素对白色念珠菌细胞膜渗透性的影响;扫描电镜观察紫草素对菌体形态的影响;激光共聚焦显微镜测定紫草素对白色念珠菌细胞内钙离子浓度的影响;卵黄平板培养基法检测紫草素对白色念珠菌的细胞膜磷脂酶活性的影响;RT-PCR检测紫草素对白色念珠菌PLB1和PLB2基因表达量的影响。【结果】紫草素对白色念珠菌有较强的抑制作用,其对白色念珠菌的MIC和MFC分别为16μg/m L和32μg/mL。紫草素能破坏白色念珠菌细胞膜的完整性,使细胞膜的通透性增加,导致细胞内DNA和RNA等大分子物质的泄漏和细胞内钙离子的流失。其中MIC的紫草素作用菌体16 h后,上清液中的DNA和RNA等大分子含量与对照组相比增加了117.32%(P0.01);细胞内的[Ca~(2+)]降低了72.02%(P0.01)。扫描电镜结果也证明了紫草素对白色念珠菌细胞膜的破坏作用。紫草素也能抑制白色念珠菌分泌磷脂酶,且呈浓度剂量依赖。其中,与对照组相比,MIC的紫草素能使白色念珠菌分泌磷脂酶的量下降56.3%(P0.01)。RT-PCR结果显示,紫草素能抑制编码磷脂酶B的基因PLB1和PLB2的表达量,其中1/2 MIC的紫草素作用白色念珠菌16 h后,与对照组相比,PLB1和PLB2基因的相对表达量分别降低了56.4%和61.4%(P0.01)。【结论】紫草素对白色念珠菌有较强的抑杀作用,其作用机制是通过破坏白色念珠菌细胞膜的完整性,增加菌体细胞膜的通透性,导致细胞内DNA和RNA等大分子的泄漏和细胞内[Ca~(2+)]的流失,最终引起菌体的死亡。而紫草素对白色念珠菌磷脂酶分泌的抑制作用,致使其不能及时维护和修复由紫草素造成的细胞膜的破坏和损伤,也是导致菌体死亡的原因。     

Selective inactivation of heterokaryons of Candida albicans by anaerobiosis

Heterokaryons (hets), but not monokaryons of Candida albicans die when grown anaerobically on minimal medium. Their rates of inactivation increase with decreases in growth temperatures from 37°C to 25°C. At 10°C, however, anaerobiosis is not lethal and suppresses the inactivation which normally occurs among hets cultured aerobically at that temperature. Killing of hets by anaerobiosis can be altered significantly by certain exogenously provided amino acids or intermediates of oxidative respiration. Aspartic acid alone promotes inactivation whereas alanine, glutamic acid or lysine individually have no effects. However, glutamate and lysine combined afford slight protection against inactivation while aspartate and glutamate combined, with or without lysine, are highly protective: the activity of the aspartate-glutamate combination is completely negated by the addition of alanine. Other common amino acids have no effects on het responses to anaerobiosis other than the ability, when combined, to relieve the antagonism of alanine for the aspartate-glutamate combination. Anaerobic survivals are also enhanced by oxalacetic acid or -ketoglutaric acid, and even more so by a combination of these two intermediates. The resistances to inactivation elicited by the oxalacetate -ketoglutarate or aspartate-glutamate combinations are not additive. These relationships are interpreted to signify that inactivation of hets by anaerobic growth is largely, if not exclusively, due to depletion of their oxalacetic acid and -ketoglutaric acid contents for amino acid biosyntheses, and the unique inability of het cells to replenish those keto acids upon subsequent return to aerobic conditions. The observations are consistent with previous indications that mitochondria formed by hets are functionally abnormal.     

Killing of Candida albicans by Histatin 5: Cellular Uptake and Energy Requirement

Histatins, a group of histidine-rich proteins in human saliva, exhibit antimicrobial activity and are therefore considered to be important in the prevention of infections in the oral cavity. Although killing of C. albicans by histatins has been extensively studied, little is known about the processes responsible for this antifungal activity. Recent studies show the requirement of metabolic activity and ATP production for histatin 5 killing activity. Therefore, the goal of this study was to investigate the kinetics of histatin 5 interaction at different temperatures with C. albicanswild type cells and with respiratory deficient mutants of C. albicans. Synthetic histatin 5 was labeled with fluorescein-5-isothiocyanate (FITC) and its association with C. albicans cells was followed by epi-fluorescence microscopy and fluorescence confocal microscopy. At 37 °C, histatin 5 accumulates intracellularly, and both killing activity and uptake of unlabeled and FITC-labeled histatin 5 are time- and concentration-dependent. At 4 °C, no killing is observed and FITC-histatin 5 is only associated with the cytoplasmic membrane. Internalization and killing activity only occurs after cells are transferred to 37 °C. In addition, cellular accumulation of histatin 5 is concomitant with a moderate alteration of membrane integrity leading to the release of UV-absorbing cell components into the medium. The uptake of histatin 5, the release of UV-absorbing materials and killing of C. albicans are markedly decreased by the respiratory inhibitor sodium azide. Concomitantly, respiratory deficient mutants of C. albicans are also less susceptible to histatin 5. These results indicated that histatin 5 killing activity could be directly correlated to histatin 5 internalization. Both of these processes are prevented by modulators of cellular metabolic activity.     

A mutant rho ATPase from Escherichia coli that is temperature-sensitive in the presence of RNA

Summary The Escherichia coli mutant rho-115 suppresses lac operon polarity conferred by the lacZ::IS1 insertion MS319. The ATPase activity of purified rho-115 protein was maximal at 40°C, in contrast to 45°C for rho ⁺. At higher temperatures (50°C, 55°C), the fractions of activities at maximal temperature were consistently lower for rho-115 compared to rho ⁺. The 30-minute time course of rho-115 ATP hydrolysis was linear at 37°C but at 45°C the linear kinetics of hydrolysis reached a plateau between 10 and 15 minutes. The 30-minute time courses for rho ⁺ were linear at both 37°C and 45°C. The rho-115 and rho ⁺ ATPase activities were equally heat-stable during preincubation at 45°C in buffer. Inclusion of ATP during preincubation protected these rho proteins from inactivation to the same extent. The presence of polyC during preincubation protected rho ^- activity but produced substantial inactivation of rho-115 ATPase. The presence of polyU during preincubation gave similar results. Concentrations of polyC between 625 ng/ml and 100 g/ml yielded the same extent of rho-115 ATPase inactivation during preincubation at 45°C. Thermal inactivation of rho-115 ATPase by polyC was halted by shifting preincubation temperature from 45°C to 35°C, indicating that polyC-induced destabilization of rho-115 was irreversible.     

Cross talk between p38MAPK and ERK is mediated through MAPK-mediated protein phosphatase 2A catalytic subunit α and MAPK phosphatase-1 expression in human leukemia U937 cells

This study explores the signaling transduction cascade of ERK and p38 MAPK on regulating MAPK phosphatase-1 (MKP-1) and protein phosphatase 2A catalytic subunit α (PP2Acα) expression in caffeine-treated human leukemia U937 cells. Caffeine induced an increase in the intracellular Ca^2 + concentration and ROS generation leading to p38 MAPK activation and ERK inactivation, respectively. Caffeine treatment elicited MKP-1 down-regulation and PP2Acα up-regulation. The transfection of constitutively active MEK1 or pretreatment with SB202190 (p38 MAPK inhibitor) abolished the caffeine effect on MKP-1 and PP2Acα expression. Caffeine repressed ERK-mediated c-Fos phosphorylation but evoked p38 MAPK-mediated CREB phosphorylation. Knockdown of c-Fos and CREB by siRNA showed that c-Fos and CREB were responsible for MKP-1 and PP2Acα expression, respectively. Promoter and chromatin immunoprecipitating assay supported the role of c-Fos and CREB in regulating MKP-1 and PP2Acα expression. Moreover, transfection of dominant negative MKP-1 cDNA led to p38 MAPK activation and PP2Acα down-regulation in U937 cells, while PP2A inhibitor attenuated caffeine-induced ERK inactivation and MKP-1 down-regulation. Taken together, our data indicate that a reciprocal relationship between ERK-mediated MKP-1 expression and p38 MAPK-mediated PP2Acα expression crucially regulates ERK and p38 MAPK phosphorylation in U937 cells.