The effect of pulsed electromagnetic field therapy on food sensitivity

Abstract

Owing to the involvement of the immune system in the etiology of food sensitivity, and because pulsed electromagnetic field therapy is associated with beneficial immunologic changes, it was hypothesized that pulsed electromagnetic fields may have a beneficial effect on food sensitivity. A small pilot study was carried out in patients suffering from food sensitivity, with the antigen leukocyte antibody test being employed to index the degree of food sensitivity in terms of the number of foods to which each patient reacted. It was found that a 1-week course of pulsed electromagnetic field therapy, consisting of one hour’s treatment per day, resulted in a reduction in the mean number of reactive foods of 10.75 (p?<?0.05). On the basis of these results, a larger study is warranted.     

Effect of gangliosides on adenylyl cyclase activity in the cortex and striatum of rats

By studying the effects of gangliosides (G) on learning and memory we have found that i.p. administration of G led to a decrease in AC activity in the cortex (Cx) and striatum (Str) as well as in the threshold of the sensitivity of striatal neurons to the effect of cholinergic agonists. G also modified the sensitivity of AC from the Cx and Str to such agents as Gpp[NH]p and forskolin. The aim of this work was to analyze the correlation between the changes in the activity of AC in the Cx and Str, concentration of G in these brain structures as well as formation of motor reactions of newborn rats during the first month of postnatal ontogenesis. It was found that new born rats develop normal body rotation by sixth day, locomotion by fifteenth day and stabilization of locomotor activity and supporting body balance by 20–22nd day. As shown previously, the concentration of gangliosides in the Cx and Str is gradually increasing during the first month of animal development. The activity of AC (pmol cAMP/min/mg of protein) in the Cx was found to decrease from 34.75 to 4.09 and in the Str from 46.00 to 11.67 during the first week after birth. However in the periods of formation of general behavioural reactions we observed a statistically significant increase in AC activity: in the Str on 10th and 26th days (p < 0.01) and in the Cx from 10th to 19th days (p < 0.05) compared to the AC activity on 5th and 30th days. Thus, formation of locomotor activity and posture‐tonic reactions during development of rats in early postnatal ontogenesis correlates with increasing concentration of G and basal activity of AC. Supported by RFBR (99‐04‐49751) and RAS (99‐06‐287).     

Ultrastructural study of the life cycle of <Emphasis Type="Italic">Rickettsia slovaca</Emphasis>, wild and standard type,cultivated in L929 and vero cell lines

Ultrastructural changes induced by Rickettsia slovaca standard type (ST) and wild type (WT) were examined during their life cycle in L929 and Vero cells. R. slovaca invaded the cytoplasm of the host cell by phagocytosis on the 1st d p.i. Rickettsiae adhering to the cytoplasmic membrane were engulfed by cellular extensions and occurred in phagocytic vacuoles. Binary fission of rickettsia was observed. The nuclear chromatin of eukaryotic cells was rearranged and condensed during 3rd and 6th d p.i. Finally, loss of the plasma membrane integrity, destruction of cytoplasm and nucleus resulted in cell lysis. Degeneration of the host cell caused by WT and ST was observed after 4 and 5 d p.i. in L929 cells and after 3 and 6 d p.i. in Vero cells, respectively. WT type was able to penetrate into the nucleus of the host cell and was responsible for dilatation of the perinuclear space and endoplasmic reticulum, causing more pronounced and different cytopathological changes than the ST.     

Association of p73 G4C14‐to‐A4T14 polymorphism at exon 2 with the response of human lung adenocarcinoma cell lines to chemotherapy

In order to assess the effect of p73 gene polymorphism G4C14‐A4T14 on cisplatin‐based chemosensitivity of human lung adenocarcinoma cell lines, we examined the differences in biological character and drug sensitivity affected by cisplatin between human lung adenocarcinoma cell lines A549 and P15. The allelic expression ofp73 in A549 and P15 was studied by Sty I polymorphism analysis. MTT [3‐(4,5‐dimethylthiazol‐2‐yl)‐2,5‐diphenyltetrazolium bromide] assay was used to analyse the response of these two cell lines to cisplatin. The changes in the biological behaviour of the cells were observed by colony formation assay. The drug‐induced apoptosis of cells was measured by Hoechst and TUNEL techniques. Homozygous allelic expression was demonstrated in the two cell lines. AT/AT genotype appeared in A549, GC/GC genotype was detected in P15. Although the colony formation number decreased with an increasing cisplatin dose (P<0.05), there was no significant difference in colony‐formation rate in these two cell lines (P>0.05). MTT assay also determined that the 50% inhibitory concentration (IC₅₀) for A549 and P15 was 8.9 and 11.6 μmol/l, respectively; the IC₅₀ value did not differ significantly between A549 and P15 (P>0.05). The cell apoptosis induced by cisplatin was demonstrated in both A549 and P15. P73 G4C14‐A4T14 polymorphisms at exon 2 existed in human NSCLC (non‐small‐cell lung cancer) cell lines. Our data in vitro suggest that p73 G4C14‐A4T14 polymorphism has no significant relationship to the cisplatin‐based chemosensitivity in human lung adenocarcinoma.     

MMR/c-Abl-dependent activation of ING2/p73α signaling regulates the cell death response to N-methyl-N′-nitro-N-nitrosoguanidine

Agents inducing O⁶-methylguanine (O⁶MeG) in DNA such as N-methyl-N'-nitro-N-nitrosoguanidine (MNNG) are cytotoxic and a deficiency in mismatch repair (MMR) results in lack of sensitivity to this genotoxin (termed alkylation tolerance). Here, we show that ING2, a member of the inhibitor of growth family, is required for cell death induced by MNNG. We further observe that MNNG treatment increases cellular protein levels of ING2 that is dependent on intact MMR function and that MNNG-induced ING2 localizes and associates with p73α in the nucleus. Suppression of ING2 by short hairpin RNA (shRNA) in MMR-proficient colorectal cancer cells decreased its sensitivity to MNNG and, in addition, abrogated MNNG-induced stabilization and acetylation of p73α. Interestingly, suppression of p73α had a greater impact on MNNG-induced cell death than ING2 leading us to conclude that ING2 regulates the cell death response, in part, through p73α. Inhibition of c-Abl by STI571 or suppression of c-Abl expression by shRNA blocked ING2 induction and p73α acetylation induced by this alkylator. Similarly, suppression of MMR (MLH1) by shRNA abrogated ING2 induction/p73α acetylation. Taken together, these results demonstrate that MLH1/c-Abl-dependent activation of ING2 > p73α signaling regulates cell death triggered by MNNG and further suggests that dysregulation of this event may, in part, be responsible for alkylation tolerance observed in MMR compromised cells.     

Temporal changes in olfactory and oviposition responses of the diamondback moth to herbivore‐induced host plants

Temporal changes in the pre‐ and post‐alighting responses of mated female diamondback moth, Plutella xylostella L. (Lepidoptera: Plutellidae), to two species of Brassica (Brassicaceae) host plants induced by larval feeding were studied using olfactometer and oviposition assays. Females displayed strong olfactory and oviposition preferences for herbivore‐induced common cabbage (Brassica oleracea var. capitata L. cv. sugarloaf) plants over intact plants; these preferences decreased with time and disappeared by the 7th day after induction. In herbivore‐induced common cabbage plants, eggs were clustered near feeding damage on the younger leaves (leaves 5–7), whereas in intact plants, eggs were clustered on the stem and lower leaves (leaves 1–4) . However, as the time interval between larval feeding and oviposition increased, more eggs were laid on the lower leaves of induced plants. This demonstrates a change in egg distribution from the pattern associated with induced plants to that associated with intact plants. In contrast, females displayed strong olfactory and oviposition preferences for intact Chinese cabbage [Brassica rapa ssp. pekinensis (Lour.) Hanelt cv. Wombok] plants over induced plants; these preferences decreased with time and disappeared by the 5th day after induction. More eggs were laid on the upper leaves (leaves 4–6) than on the lower leaves (leaves 1–3) of intact Chinese cabbage plants at first, but the distribution changed over time until there were no significant differences in the egg count between upper and lower leaves by the 4th day post induction. For both host plant species, pre‐alighting responses of moths were reliable indicators of post‐alighting responses on the first 2 days post induction. The results suggest that temporal changes in a plant's profile (chemical or otherwise) following herbivory may influence attractiveness to an insect herbivore and be accompanied by changes in olfactory and oviposition preferences.     

Specific association of c‐Jun‐like immunoreactivity but not c‐Jun p39 with normal and induced programmed cell death in the chick embryo

We have examined c‐Jun protein expression by immunocytochemistry in normal and pathologically induced cell death by focusing primarily on the developing neuromuscular system of the chick embryo. Several commercially available antibodies against c‐Jun were used in combination with the TUNEL technique or propidium iodide staining for detection of cells undergoing programmed cell death (PCD). Among these, a rabbit polyclonal antibody raised against the amino acids 91‐105 mapping to the amino terminal domain of mouse c‐Jun p39 (c‐Jun/sc45) transiently immunostained the cytoplasm of dying spinal cord motoneurons at a time coincident with naturally occurring motoneuron death. Late apoptotic bodies were devoid of c‐Jun/sc45 immunoreactivity. A monoclonal antibody directed against a region corresponding to the amino acids 26‐175 of c‐Jun p39 (c‐Jun/mAB) did not specifically immunostain dying neurons, but, rather, showed nuclear immunolabeling in almost all healthy motoneurons. Experimentally induced programmed death of motoneurons by means of early limb bud ablation, axotomy, or in ovo injection of the neurotoxin β‐bungarotoxin increased the number of dying cells showing positive c‐Jun/sc45 immunoreactivity. Immunoelectron microscopy with c‐Jun/sc45 antibody showed that the signal was present in the cytoplasm without a specific association with organelles, and was also present in large lysosome‐like dense bodies inside neuritic profiles. Similar findings were obtained in different types of cells undergoing normal or experimentally induced PCD. These include dorsal root ganglion neurons, Schwann cells, muscle cells, neural tube and neural crest cells during the earliest stages of spinal cord development, and interdigital mesenchymal cells of hindlimbs. In all these cases, cells showed morphological and histochemical characteristics of apoptotic‐like PCD. By contrast, motoneurons undergoing necrotic cell death induced by the excitotoxin N‐methyl‐D ‐aspartate did not show detectable c‐Jun/sc45 immunoreactivity, although they displayed an increase in nuclear c‐Jun/mAB immunostaining. In Western blot analysis of spinal cord extracts, c‐Jun/sc45 antibody weakly detected a 39‐kD band, corresponding to c‐Jun, and more strongly detected two additional bands of 66 and 45 kD which followed developmental changes coincident with naturally occurring or experimentally stimulated apoptotic motoneuron death. By contrast, c‐Jun/mAB only recognized a single p39 band as expected for c‐Jun, and did not display changes associated with neuronal apoptosis. From these data, we conclude that the c‐Jun/sc45 antibody recognizes apoptosis‐related proteins associated with the early stages of morphological PCD in a variety of neuronal and nonneuronal cells, and that c‐Jun/sc45 is a reliable marker for a variety of developing cells undergoing programmed cell death. © 1999 John Wiley & Sons, Inc. J Neurobiol 38: 171–190, 1999     

Long noncoding RNA MALAT1 enhances the docetaxel resistance of prostate cancer cells via miR‐145‐5p‐mediated regulation of AKAP12

Our present work was aimed to study on the regulatory role of MALAT1/miR‐145‐5p/AKAP12 axis on docetaxel (DTX) sensitivity of prostate cancer (PCa) cells. The microarray data (GSE33455) to identify differentially expressed lncRNAs and mRNAs in DTX‐resistant PCa cell lines (DU‐145‐DTX and PC‐3‐DTX) was retrieved from the Gene Expression Omnibus (GEO) database. QRT‐PCR analysis was performed to measure MALAT1 expression in DTX‐sensitive and DTX‐resistant tissues/cells. The human DTX‐resistant cell lines DU145‐PTX and PC3‐DTX were established as in vitro cell models, and the expression of MALAT1, miR‐145‐5p and AKAP12 was manipulated in DTX‐sensitive and DTX‐resistant cells. Cell viability was examined using MTT assay and colony formation methods. Cell apoptosis was assessed by TUNEL staining. Cell migration and invasion was determined by scratch test (wound healing) and Transwell assay, respectively. Dual‐luciferase assay was applied to analyse the target relationship between lncRNA MALAT1 and miR‐145‐5p, as well as between miR‐145‐5p and AKAP12. Tumour xenograft study was undertaken to confirm the correlation of MALAT1/miR‐145‐5p/AKAP12 axis and DTX sensitivity of PCa cells in vivo. In this study, we firstly notified that the MALAT1 expression levels were up‐regulated in clinical DTX‐resistant PCa samples. Overexpressed MALAT1 promoted cell proliferation, migration and invasion but decreased cell apoptosis rate of PCa cells in spite of DTX treatment. We identified miR‐145‐5p as a target of MALAT1. MiR‐145‐5p overexpression in PC3‐DTX led to inhibited cell proliferation, migration and invasion as well as reduced chemoresistance to DTX, which was attenuated by MALAT1. Moreover, we determined that AKAP12 was a target of miR‐145‐5p, which significantly induced chemoresistance of PCa cells to DTX. Besides, it was proved that MALAT1 promoted tumour cell proliferation and enhanced DTX‐chemoresistance in vivo. There was an lncRNA MALAT1/miR‐145‐5p/AKAP12 axis involved in DTX resistance of PCa cells and provided a new thought for PCa therapy.     

RNA synthesis in the cells of the apical meristem of Sinapis alba during transition from the vegetative to the reproductive condition

Summary Vegetative plants of Sinapis alba, a long-day species, were induced to flower by exposure to a single 20-hr long day. RNA synthesis in the apical meristem of vegetative (control) and induced plants was investigated by using ³H-uridine and autoradiography of sections.Light-microscope autoradiographs showed a sharp increase in total RNA synthesis per cell in induced meristems. This increase occurred as early as 18 hr after the start of the long day, i.e. at the presumed time of the arrival of the floral stimulus at the meristem. At the same time, electron-microscope autoradiographs showed that there were changes in the pattern of RNA synthesis in the meristematic cells. The ratio of the number of grains in the nucleus to that in the cytoplasm slightly decreased and the ratio of the number of grains in the chromatin to that in the nucleolus greatly increased.Experiments with 2-thiouracil (2-TU), a pyrimidine analogue which was shown to inhibit RNA synthesis in Sinapis, indicated that this compound was most inhibitory to floral induction between the 12th and the 20th hour after the start of the long day, i.e. at the same time as important quantitative and qualitative changes in RNA synthesis were detected in induced meristems by autoradiographic methods. It was thus assumed that 2-TU inhibits floral induction via its effect on these (or on one of these) changes.     

Celecoxib enhanced the sensitivity of cancer cells to anticancer drugs by inhibition of the expression of P‐glycoprotein through a COX‐2‐Independent Manner

The P‐glycoprotein (p170, P‐gp) encoded by human MDR1 gene functions as a pump to extrude anticancer drugs from cancer cells. Over‐expression of p170 is closely related to primary and induced drug resistance phenotype of tumor cells. Recent studies have demonstrated that expression of cyclooxygenase‐2 (COX‐2) is positively correlated with the p170 level, suggesting a potential of COX‐2 specific inhibitors in regulation of cytotoxicity of anticancer agents. Celecoxib is one of the specific inhibitors of COX‐2 and has been widely used in clinic. However, its function in the response of cancer cells to anticancer drugs and the related mechanism are still waiting to be investigated. To explore the correlation of celecoxib and the p170‐mediated drug resistance, the role of celecoxib in drug response of cancer cells was analyzed with flow cytometry, high performance liquid chromatography (HPLC), and colony formation experiments. Celecoxib (50 µM) was found to significantly enhance the sensitivity of MCF‐7 and JAR/VP16 cells to tamoxifen and etoposide, respectively, by inhibition of p170 expression and increase in intracellular accumulation of the drugs. However, celecoxib did not affect pump function of p170. Enzyme activity and methylation analyses demonstrated that the inhibitory effect of celecoxib on p170 was independent on COX‐2 but closely related to hypermethylation of MDR1 gene promoter. Our study suggested that celecoxib was a potential agent for enhancement of the sensitivity of cancer cells to anticancer drugs. It also provided a links between epigenetic change of MDR1 and drug response of cancer cells. J. Cell. Biochem. 108: 181–194, 2009. © 2009 Wiley‐Liss, Inc.     

Regulation of root growth by auxin and ethylene is influenced by phosphate supply in white clover (<Emphasis Type="Italic">Trifolium repens</Emphasis> L.)

The influence of P-supply on root system architecture (primary root length, number and total length of lateral roots) through the effects of ethylene (ACC) and auxin [1-naphthylacetic acid (NAA)] has been examined in the legume white clover (Trifolium repens L.). Higher concentrations (1 and 10 μM) of ACC and NAA (100 nM) inhibited growth, while lower concentrations (100 nM ACC, 5 nM NAA) either had no effect or stimulated growth in P-sufficient (1 mM Pi) roots. In response to low (10 μM) P, a stimulation of primary root growth, number of lateral roots and mean length of lateral roots was observed, while a super-stimulation of these growth parameters occurred in response to subsequent 100 nM ACC treatment suggesting that the low P treatment increased the sensitivity of the roots to ethylene. Examination of the primary roots of DR5p::GUS transformants suggests that this change in sensitivity induced by low P occurs through the promotion of auxin signalling/transport to the root apex. These results are discussed in terms of the role of ethylene and the significance of changes in sensitivity to the hormone in modulating root system architecture in response to low P-supply.     

Blockade of Nitric Oxide Overproduction and Oxidative Stress by <Emphasis Type="Italic">Nigella sativa</Emphasis> Oil Attenuates Morphine-Induced Tolerance and Dependence in Mice

The effects of Nigella sativa oil on morphine-induced tolerance and dependence in mice and possible mechanism(s) of these effects were investigated, for the first time, in this study. Repeated administration of Nigella sativa oil (4 ml/kg, p.o.) along with morphine (5 mg/kg, s.c.) attenuated the development of tolerance, as measured by the hot plate test, and dependence, as assessed by naloxone (5 mg/kg, i.p.)-precipitated withdrawal manifestations. Concomitantly, nitric oxide overproduction and increase in brain malondialdehyde level induced by repeated administration of morphine to mice or by administration of naloxone to morphine-dependent mice were inhibited by co-administration of the oil. Also, the decrease in brain intracellular reduced glutathione level and glutathione peroxidase activity induced by both treatments were inhibited by co-administration of the oil. The increase in brain glutamate level induced by both treatments was not inhibited by concurrent administration of the oil. The inhibitory effect of the oil on morphine-induced tolerance and dependence and on naloxone-induced biochemical alterations in morphine-dependent mice was enhanced by concurrent i.p. administration of the NMDA receptor antagonist, dizocilpine (0.25 mg/kg). Similarly, concurrent i.p. administration of the NO synthase inhibitors; L-N (G)-nitroarginine methyl ester (10 mg/kg), aminoguanidine (20 mg/kg) and 7-nitroindazole (25 mg/kg) or the antioxidant, N-acetylcysteine (50 mg/kg) enhanced this inhibitory effect of the oil. On the other hand, this effect was antagonized by concurrent i.p. administration of the nitric oxide precursor, L-arginine (300 mg/kg). These results provide evidence that Nigella sativa oil, through inhibition of morphine-induced NO overproduction and oxidative stress, appears to have a therapeutic potential in opioid tolerance and dependence.     

Ethanol‐ and cocaine‐induced locomotion are genetically related to increases in accumbal dopamine

Neuroanatomical research suggests that interactions between dopamine and glutamate within the mesolimbic dopamine system are involved in both drug‐induced locomotor stimulation and addiction. Therefore, genetically determined differences in the locomotor responses to ethanol and cocaine may be related to differences in the effects of these drugs on this system. To test this, we measured drug‐induced changes in dopamine and glutamate within the nucleus accumbens (NAcc), a major target of mesolimbic dopamine neurons, using in vivo microdialysis in selectively bred FAST and SLOW mouse lines, which were bred for extreme sensitivity (FAST) and insensitivity (SLOW) to the locomotor stimulant effects of ethanol. These mice also show a genetically correlated difference in stimulant response to cocaine (FAST > SLOW). Single injections of ethanol (2 g/kg) or cocaine (40 mg/kg) resulted in larger increases in dopamine within the NAcc in FAST compared with SLOW mice. There was no effect of either drug on NAcc glutamate levels. These experiments indicate that response of the mesolimbic dopamine system is genetically correlated with sensitivity to ethanol‐ and cocaine‐induced locomotion. Because increased sensitivity to the stimulating effects of ethanol appears to be associated with greater risk for alcohol abuse, genetically determined differences in the mesolimbic dopamine response to ethanol may represent a critical underlying mechanism for increased genetic risk for alcoholism.     

Rutin treats myocardial damage caused by pirarubicin via regulating miR‐22‐5p‐regulated RAP1/ERK signaling pathway

Our experiments have previously demonstrated that rutin (RUT) can improve myocardial damage caused by pirarubicin (THP). However, the underlying molecular mechanisms remain uncertain. In this study, we developed an microRNA (miRNA) chip by replicating the rat model of THP‐induced myocardial injury and identified miR‐22‐5p and the RAP1‐member of RAS oncogene family/extracellular regulated protein kinases (RAP1/ERK) signaling pathway as an object of study. Also, in vivo experiments demonstrated that THP caused abnormal changes in the electrocardiogram, cardiac function, and histomorphology in rats (P < .01). THP also reduces the expression of miR‐22‐5p (P < .01) and increases the levels of RAP1/ERK signaling pathway‐related proteins (P < .01, P < .05). RUT significantly improved THP‐induced myocardial damage (P < .01), increased the expression of miR‐22‐5p (P < .01), and decreased the levels of RAP1/ERK signaling pathway‐related proteins (P < .01, P < .05). In vitro studies confirmed that Rap1a is one of the target genes of miR‐22‐5p. miR‐22‐5p overexpression in cardiomyocytes can affect the RAP1/ERK pathway and reduce reactive oxygen species production and cardiomyocyte apoptosis caused by THP (P < .01), which is consistent with the effect of RUT. Our results indicate that RUT treats THP‐induced myocardial damage, which may be achieved by upregulating miR‐22‐5p, causing changes in its target gene Rap1a and the RAP1/ERK pathway.     

Specific suppression of insulin sensitivity in growth hormone receptor gene‐disrupted (GHR‐KO) mice attenuates phenotypic features of slow aging

In addition to their extended lifespans, slow‐aging growth hormone receptor/binding protein gene‐disrupted (knockout) (GHR‐KO) mice are hypoinsulinemic and highly sensitive to the action of insulin. It has been proposed that this insulin sensitivity is important for their longevity and increased healthspan. We tested whether this insulin sensitivity of the GHR‐KO mouse is necessary for its retarded aging by abrogating that sensitivity with a transgenic alteration that improves development and secretory function of pancreatic β‐cells by expressing Igf‐1 under the rat insulin promoter 1 (RIP::IGF‐1). The RIP::IGF‐1 transgene increased circulating insulin content in GHR‐KO mice, and thusly fully normalized their insulin sensitivity, without affecting the proliferation of any non‐β‐cell cell types. Multiple (nonsurvivorship) longevity‐associated physiological and endocrinological characteristics of these mice (namely beneficial blood glucose regulatory control, altered metabolism, and preservation of memory capabilities) were partially or completely normalized, thus supporting the causal role of insulin sensitivity for the decelerated senescence of GHR‐KO mice. We conclude that a delayed onset and/or decreased pace of aging can be hormonally regulated.     

Mechanisms of ceramide‐induced COX‐2‐dependent apoptosis in human ovarian cancer OVCAR‐3 cells partially overlapped with resveratrol

Ceramide is a member of the sphingolipid family of bioactive molecules demonstrated to have profound, diverse biological activities. Ceramide is a potential chemotherapeutic agent via the induction of apoptosis. Exposure to ceramide activates extracellular‐signal‐regulated kinases (ERK)1/2‐ and p38 kinase‐dependent apoptosis in human ovarian cancer OVCAR‐3 cells, concomitant with an increase in the expression of COX‐2 and p53 phosphorylation. Blockade of cyclooxygenase‐2 (COX‐2) activity by siRNA or NS398 correspondingly inhibited ceramide‐induced p53 Ser‐15 phosphorylation and apoptosis; thus COX‐2 appears at the apex of the p38 kinase‐mediated signaling cascade induced by ceramide. Induction of apoptosis by ceramide or resveratrol was inhibited by the endocytosis inhibitor, cytochalasin D (CytD); however, cells exposed to resveratrol showed greater sensitivity than ceramide‐treated cells. Ceramide‐treated cells underwent a dose‐dependent reduction in trans‐membrane potential. Although both ceramide and resveratrol induced the expressions of caspase‐3 and ‐7, the effect of inducible COX‐2 was different in caspase‐7 expression induced by ceramide compared to resveratrol. In summary, resveratrol and ceramide converge on an endocytosis‐requiring, ERK1/2‐dependent signal transduction pathway and induction of COX‐expression as an essential molecular antecedent for subsequent p53‐dependent apoptosis. In addition, expressions of caspase‐3 and ‐7 are observed. However, a p38 kinase‐dependent signal transduction pathway and change in mitochondrial potential are also involved in ceramide‐induced apoptosis. J. Cell. Biochem. 114: 1940–1954, 2013. © 2013 Wiley Periodicals, Inc.     

Trigeminal neurons detect cellphone radiation: Thermal or nonthermal is not the question

Cellphone electromagnetic radiation produces temperature alterations in facial skin. We hypothesized that the radiation-induced heat was transduced by warmth-sensing trigeminal neurons, as evidenced by changes in cognitive processing of the afferent signals. Ten human volunteers were exposed on the right side of the face to 1 GHz radiation in the absence of acoustic, tactile, and low-frequency electromagnetic stimuli produced by cellphones. Cognitive processing manifested in the electroencephalogram (EEG) was quantitated by analysis of brain recurrence (a nonlinear technique). The theoretical temperature sensitivity of warmth-sensing neurons was estimated by comparing changes in membrane voltage expected as a result of heat transduction with membrane–voltage variance caused by thermal noise. Each participant underwent sixty 12-s trials. The recurrence variable r (“percent recurrence”) was computed second by second for the ? band of EEGs from two bilaterally symmetric derivations (decussated and nondecussated). Percent recurrence during radiation exposure (first 4 s of each trial) was reduced in the decussated afferent signal compared with the control (last four seconds of each trial); mean difference, r = 1.1 ± 0.5%, p < 0.005. Mean relative ? power did not differ between the exposed and control intervals, as expected. Trigeminal neurons were capable of detecting temperature changes far below skin temperature increases caused by cellphone radiation. Simulated cellphone radiation affected brain electrical activity associated with nonlinear cognitive processing of radiation-induced thermal afferent signals. Radiation standards for cellphones based on a thermal/nonthermal binary distinction do not prevent neurophysiological consequences of cellphone radiation.     

Mitochondrial function in the yeast form of the pathogenic fungus <Emphasis Type="Italic">Paracoccidioides brasiliensis</Emphasis>

Differences between the respiratory chain of the fungus Paracoccidioides brasiliensis and its mammalian host are reported. Respiration, membrane potential, and oxidative phosphorylation in mitochondria from P. brasiliensis spheroplasts were evaluated in situ, and the presence of a complete (Complex I–V) functional respiratory chain was demonstrated. In succinate-energized mitochondria, ADP induced a transition from resting to phosphorylating respiration. The presence of an alternative NADH–ubiquinone oxidoreductase was indicated by: (i) the ability to oxidize exogenous NADH and (ii) the lack of sensitivity to rotenone and presence of sensitivity to flavone. Malate/NAD⁺-supported respiration suggested the presence of either a mitochondrial pyridine transporter or a glyoxylate pathway contributing to NADH and/or succinate production. Partial sensitivity of NADH/succinate-supported respiration to antimycin A and cyanide, as well as sensitivity to benzohydroxamic acids, suggested the presence of an alternative oxidase in the yeast form of the fungus. An increase in activity and gene expression of the alternative NADH dehydrogenase throughout the yeast’s exponential growth phase was observed. This increase was coupled with a decrease in Complex I activity and gene expression of its subunit 6. These results support the existence of alternative respiratory chain pathways in addition to Complex I, as well as the utilization of NADH-linked substrates by P. brasiliensis. These specific components of the respiratory chain could be useful for further research and development of pharmacological agents against the fungus.     

Analysis of blastomogenic activity of mammal carcinogens in <Emphasis Type="Italic">Drosophila</Emphasis> using the <Emphasis Type="Italic">wts</Emphasis><Superscript><Emphasis Type="Italic">P4</Emphasis></Superscript> allele and RNA interference-induced P53 silencing

The test for somatic mutagenesis and recombination in Drosophila is one of the widely used approaches for determination of possible carcinogenic effects of chemical compounds. The use of heterozygotes for mutant tumor suppressor gene wts enables more direct evaluation of the blastomogenic effects of chemical compounds, by tumor formation in the adult flies. This study presents evaluation of the SMART effectiveness upon the use of Drosophila heterozygotes for the wts ^P4 gene, first included into the test system. The increase of the test resolution capacity compared to the literature data for the wts ^P2 allele was observed. Using wts ^P4 heterozygotes, a total of 20 carcinogenic compounds, and their slightly carcinogenic and non-carcinogenic analogs were tested. Specificity of the method was about 100%, and sensitivity depended on the type of the agent tested. The latter was absolute for the direct action carcinogens, with respect to carcinogens, requiring the metabolic activation. The sensitivity was elective and was limited by the presence of the enzymes capable of activating of these compounds. To increase the test sensitivity, the RNA interference-mediated silencing of the Drosophila p53 functional activity was successfully applied. Moreover, the frequency of wts tumor induction considerably increased both in spontaneous and induced mutagenesis conditions.