Autophagic activity in cortical neurons under acute oxidative stress directly contributes to cell death

Primary neurons undergo insult-dependent programmed cell death. We examined autophagy as a process contributing to cell death in cortical neurons after treatment with either hydrogen peroxide (H₂O₂) or staurosporine. Although caspase-9 activation and cleavage of procaspase-3 were significant following staurosporine treatment, neither was observed following H₂O₂ treatment, indicating a non-apoptotic death. Autophagic activity increased rapidly with H₂O₂, but slowly with staurosporine, as quantified by processing of endogenous LC3. Autophagic induction by both stressors increased the abundance of fluorescent puncta formed by GFP-LC3, which could be blocked by 3-methyladenine. Significantly, such inhibition of autophagy blocked cell death induced by H₂O₂ but not staurosporine. Suppression of Atg7 inhibited cell death by H₂O₂, but not staurosporine, whereas suppression of Beclin 1 prevented cell death by both treatments, suggesting it has a complex role regulating both apoptosis and autophagy. We conclude that autophagic mechanisms are activated in an insult-dependent manner and that H₂O₂ induces autophagic cell death.     

Hydrogen peroxide protects tobacco from oxidative stress by inducing a set of antioxidant enzymes

Tolerance against oxidative stress generated by high light intensities or the catalase inhibitor aminotriazole (AT) was induced in intact tobacco plants by spraying them with hydrogen peroxide (H₂O₂). Stress tolerance was concomitant with an enhanced antioxidant status as reflected by higher activity and/or protein levels of catalase, ascorbate peroxidase, guaiacol peroxidases, and glutathione peroxidase, as well as an increased glutathione pool. The induced stress tolerance was dependent on the dose of H₂O₂ applied. Moderate doses of H₂O₂ enhanced the antioxidant status and induced stress tolerance, while higher concentrations caused oxidative stress and symptoms resembling a hypersensitive response. In stress-tolerant plants, induction of catalase was 1.5-fold, that of ascorbate peroxidase and glutathione peroxidase was 2-fold, and that of guaiacol peroxidases was approximately 3-fold. Stress resistance was monitored by measuring levels of malondialdehyde, an indicator of lipid peroxidation. The levels of malondialdehyde in all H₂O₂-treated plants exposed to subsequent high light or AT stress were similar to those of unstressed plants, whereas lipid peroxidation in H₂O₂-untreated plants stressed with either high light or AT was 1.5- or 2-fold higher, respectively. Although all stress factors caused increases in the levels of reduced glutathione, its levels were much higher in all H₂O₂-pretreated plants. Moreover, significant accumulation of oxidized glutathione was observed only in plants that were not pretreated with H₂O₂. Extending the AT stress period from 1 to 7 days resulted in death of tobacco plants that were not pretreated with H₂O₂, while all H₂O₂-pretreated plants remained little affected by the prolonged treatment. Thus, activation of the plant antioxidant system by H₂O₂ plays an important role in the induced tolerance against oxidative stress. Received 11 December 2001; received after revision 25 January 2002; accepted 4 February 2002     

A VEGF-A splice variant defective for heparan sulfate and neuropilin-1 binding shows attenuated signaling through VEGFR-2

The development of functional blood and lymphatic vessels requires spatio-temporal coordination of the production and release of growth factors such as vascular endothelial growth factors (VEGFs). VEGF family proteins are produced in multiple isoforms with distinct biological properties and bind to three types of VEGF receptors. A VEGF-A splice variant, VEGF-A₁₆₅b, has recently been isolated from kidney epithelial cells. This variant is identical to VEGF-A₁₆₅ except for the last six amino acids encoded by an alternative exon. VEGF-A₁₆₅b and VEGF-A₁₆₅ bind VEGF receptors 1 and 2 with similar affinity. VEGF-A₁₆₅b elicits drastically reduced activity in angiogenesis assays and even counteracts signaling by VEGF-A₁₆₅. VEGF-A₁₆₅b weakly binds to heparan sulfate and does not interact with neuropilin-1, a coreceptor for VEGF receptor 2. To determine the molecular basis for altered signaling by VEGF-A₁₆₅b we measured VEGF receptor 2 and ERK kinase activity in endothelial cells in culture. VEGF-A₁₆₅ induced strong and sustained activation of VEGF receptor 2 and ERK-1 and −2, while activation by VEGF-A₁₆₅b was only weak and transient. Taken together these data show that VEGF-A₁₆₅b has attenuated signaling potential through VEGF receptor 2 defining this new member of the VEGF family as a partial receptor agonist. Received 31 May 2006; received after revision 26 June 2006; accepted 14 July 2006     

Specific immunosuppression of IgE response to hapten DNP by DNP linked to monoclonal IgG1 in rats

Summary The induction of the anti-DNP IgE in rat was suppressed by pretreatment of rats with the tolerogen synthesized by coupling DNP to rat IgG, i.e.; DNP_7–10-IgG. It was found that DNP₁₀-IgG₁ was an effective tolerogen, whereas other DNP conjugates, i.e. DNP₉-IgM, DNP₉-IgA, DNP₁₀-IgE, DNP₁₀-IgG_2c and DNP₁₀-IgG_2a were ineffective.This work was partly supported by a research grant from the Medical Council of Canada to W.Y.L.     

Cyclic nucleotide levels in the perfused rat heart subjected to hypoxia

Summary Isolated rat hearts were subjected to hypoxic perfusion on a recirculating Langendorff apparatus. Following a 30-min-period of aerobic stabilization the hearts were perfused for 30 min with media equilibrated with 84% N₂, 12% O₂ and 4% CO₂. At the end of the hypoxic period myocardial concentrations of cyclic AMP and cyclic GMP were determined by radioimmunoassay. Exposure to hypoxia resulted in a significant increase in cyclic AMP (p<0.01) and a decrease in cyclic GMP (p<0.05) as compared to hearts perfused for 60 min with media gassed with 96% O₂, 4% CO₂.Acknowledgment. We gratefully acknowledge the excellent technical assistance provided by Mrs Inger O. Boggs and Miss Patricia C. Hannigan. This work was supported in part by U. S. Public Health Service grant HL 14661 from the National Heart and Lung Institute, and by a grant from the Central Ohio Heart Chapter.     

Role of <Emphasis Type="Italic">N</Emphasis>-linked polymannose oligosaccharides in targeting glycoproteins for endoplasmic reticulum-associated degradation

Misfolded or incompletely assembled multisubunit glycoproteins undergo endoplasmic reticulum-associated degradation (ERAD) regulated in large measure by their N-linked polymannose oligosaccharides. In this quality control system lectin interaction with Glc₃Man₉GlcNAc₂ glycans after trimming with endoplasmic reticulum (ER) -glucosidases and -mannosidases sorts out persistently unfolded glycoproteins for N-deglycosylation and proteolytic degradation. Monoglucosylated (Glc₁Man₉GlcNAc₂) glycoproteins take part in the calnexin/calreticulin glucosylation-deglucosylation cycle, while the Man₈GlcNAc₂ isomer B product of ER mannosidase I interacts with EDEM. Proteasomal degradation requires retrotranslocation into the cytosol through a Sec61 channel and deglycosylation by peptide: N-glycosidase (PNGase); in alternate models both PNGase and proteasomes may be either free in the cytosol or ER membrane-imbedded/attached. Numerous proteins appear to undergo nonproteasomal degradation in which deglycosylation and proteolysis take place in the ER lumen. The released free oligosaccharides (OS) are transported to the cytosol as OS-GlcNAc₂ along with similar components produced by the hydrolytic action of the oligosaccharyltransferase, where they together with OS from the proteasomal pathway are trimmed to Man₅GlcNAc₁ by the action of cytosolic endo--N-acetylglucosaminidase and -mannosidase before entering the lysosomes. Some misfolded glycoproteins can recycle between the ER, intermediate and Golgi compartments, where they are further processed before ERAD. Moreover, properly folded glycoproteins with mannose-trimmed glycans can be deglucosylated in the Golgi by endomannosidase, thereby releasing calreticulin and permitting formation of complex OS. A number of regulatory controls have been described, including the glucosidase-glucosyltransferase shuttle, which controls the level of Glc₃Man₉GlcNAc₂-P-P-Dol, and the unfolded protein response, which enhances synthesis of components of the quality control system.Received 26 January 2004; accepted 25 February 2004     

Production and characterization of antibodies cross-reactive with major aflatoxins

Antibodies cross-reactive with 4 major aflatoxins were demonstrated three weeks after immunization of rabbits with an immunogen which was prepared by conjugating aflatoxin B₃ to bovine serum albumin. Aflatoxin B₃ was first converted to its hemisuccinate before conjugation to the protein. Tritiated aflatoxin B₁ (AFB₁) was used as the marker ligand both for antibody titer determination as well as for analysis of antibody specificity. Competitive RIA revealed that the antibodies have good cross-reactivity with aflatoxins B₁, B₂, G₁, and G₂ when tritiated AFB₁ was used as the marker ligand. The concentrations causing 50% inhibition of binding of³H-AFB₁ to the antibodies by unlabeled aflatoxins B₁, B₂, G₁, G₂ and B₃ were found to be 0.25, 3.34, 0.32, 4.0 and 0.53 ng/assay, respectively. The antibodies could be used for simultaneous analysis of aflatoxins B₁ and G₁, two of the most important toxic metabolites produced byAspergillus flavus andA. parasiticus.     

Production and characterization of antibody against aflatoxin M1

Summary Antibody against aflatoxin M₁ was obtained after immunization of rabbits with bovine serum albumin-afla M₁ oxime conjugate. The antibody has greatest binding efficiency for afla M₁, and was less efficient for afla B₁. Cross-reaction of antibody with aflatoxin Q₁, aflatoxicol, and aflatoxin B_2a was weak. Aflatoxin B₂, G₁, and G₂ and afla B₁-guanine adduct showed almost no cross-reaction with the antibody. The sensitivity of the binding assay for aflatoxin M₁ detection is in the range of 1–10 ng per assay. Detailed methods for the preparation of the conjugate, production of immune serum, and methods for antibody determination are described.Supported by the College of Agricultural and Life Sciences, North Central Regional project NC-129, the University of Wisconsin-Madison, and by Public Health Service research grant number CA 15064 from the National Cancer Institute, NIH.The authors wish to thank Dr R.C. Garner for providing aflatoxin-B-guanine adduct, and Dr Dennis H. Hseih for providing aflatoxicol and aflatoxin Q₁.     

Complex modulation of Cav3.1 T-type calcium channel by nickel

Nickel is considered to be a selective blocker of low-voltage-activated T-type calcium channel. Recently, the Ni²⁺-binding site with critical histidine-191 (H191) within the extracellular IS3–IS4 domain of the most Ni²⁺-sensitive Ca_v3.2 T-channel isoform has been identified. All calcium channels are postulated to also have intrapore-binding site limiting maximal current carried by permeating divalent cations (PDC) and determining the blockade by non-permeating ones. However, the contribution of the two sites to the overall Ni²⁺ effect and its dependence on PDC remain uncertain. Here we compared Ni²⁺ action on the wild-type “Ni²⁺-insensitive” Ca_v3.1_w/t channel and Ca_v3.1_Q172H mutant having glutamine (Q) equivalent to H191 of Ca_v3.2 replaced by histidine. Each channel was expressed in Xenopus oocytes, and Ni²⁺ blockade of Ca²⁺, Sr²⁺, or Ba²⁺ currents was assessed by electrophysiology. Inhibition of Ca_v3.1_w/t by Ni²⁺ conformed to two sites binding. Ni²⁺ binding with high-affinity site (IC₅₀ = 0.03–3 μM depending on PDC) produced maximal inhibition of 20–30 % and was voltage-dependent, consistent with its location within the channel’s pore. Most of the inhibition (70–80 %) was produced by Ni²⁺ binding with low-affinity site (IC₅₀ = 240–700 μM). Q172H-mutation mainly affected low-affinity binding (IC₅₀ = 120–160 μM). The IC₅₀ of Ni²⁺ binding with both sites in the Ca_v3.1_w/t and Ca_v3.1_Q172H was differentially modulated by PDC, suggesting a varying degree of competition of Ca²⁺, Sr²⁺, or Ba²⁺ with Ni²⁺. We conclude that differential Ni²⁺-sensitivity of T-channel subtypes is determined only by H-containing external binding sites, which, in the absence of Ni²⁺, may be occupied by PDC, influencing in turn the channel’s permeation.     

Efficacy of tumor cell vaccine after incorporating monophosphoryl lipid A (MPL) in tumor cell membranes containing tumor-associated ganglioside

Murine B16 melanoma expresses the ganglioside. GM₃. GM₃ shed from tumor cells is immunosuppressive and promotes tumor growth¹. Reduction or elimination of the shed GM₃ could be therapeutic, and the anti-GM₃ antibodies may reduce and clear the shed ganglioside. To test this hypothesis, mice were challenged with tumor cells, with or without inducing anti-GM₃ antibody response. Since gangliosides are poor immunogens and T-cell independent antigens, an adjuvant (monophosphoryl lipid A (MPL), a non-toxic lipid A ofSalmonella), directed against B-cells, was employed. MPL was incorporated onto liposomes and into the surface membrane of B16 mouse melanoma cells; both are rich in GM₃. C57BL/6J mice immunized with MPL-liposomes or MPL-B16 cells responded with elevated levels of anti-GM₃ IgM. Non-immunized mice or mice immunized with B16 cells alone or ganglioside GM₃ alone (without MPL) elicited poor anti-GM₃ IgM response, confirming the GM₃'s immunologic crypticity and MPL's immunopotentiating effect. MPL's immunopotentiating effect was improved by coupling it to melanoma cell membranes C57BL/6J mice were immunized with irradiated B16 alone or MPL alone or MPL-conjugated irradiated B16. After three weekly immunizations, each mouse received a challenge dose of viable syngeneic B16. Neither MPL alone nor B16 alone had a significant effect on tumor growth or host survival; however, administration of MPL-conjugated B16 cells significantly prevented tumor growth and prolonged survival. Our results indicate that MPL-incorporated B16 cells augment the anti-GM₃ IgM response, which may reverse GM₃-induced immunosuppression by eliminating tumor-derived GM₃, and restore immunocompetence.     

Protease-activated-receptor-2 affects protease-activated-receptor-1-driven breast cancer

Mammalian protease-activated-receptor-1 and -2 (PAR₁ and PAR₂) are activated by proteases found in the flexible microenvironment of a tumor and play a central role in breast cancer. We propose in the present study that PAR₁ and PAR₂ act together as a functional unit during malignant and physiological invasion processes. This notion is supported by assessing pro-tumor functions in the presence of short hairpin; shRNA knocked-down hPar2 or by the use of a truncated PAR₂ devoid of the entire cytoplasmic tail. Silencing of hPar2 by shRNA-attenuated thrombin induced PAR₁ signaling as recapitulated by inhibiting the assembly of Etk/Bmx or Akt onto PAR₁-C-tail, by thrombin-instigated colony formation and invasion. Strikingly, shRNA-hPar2 also inhibited the TFLLRN selective PAR₁ pro-tumor functions. In addition, while evaluating the physiological invasion process of placenta extravillous trophoblast (EVT) organ culture, we observed inhibition of both thrombin or the selective PAR₁ ligand; TFLLRNPNDK induced EVT invasion by shRNA-hPar2 but not by scrambled shRNA-hPar2. In parallel, when a truncated PAR₂ was utilized in a xenograft mouse model, it inhibited PAR₁–PAR₂-driven tumor growth in vivo. Similarly, it also attenuated the interaction of Etk/Bmx with the PAR₁-C-tail in vitro and decreased markedly selective PAR₁-induced Matrigel invasion. Confocal images demonstrated co-localization of PAR₁ and PAR₂ in HEK293T cells over-expressing YFP-hPar2 and HA-hPar1. Co-immuno-precipitation analyses revealed PAR₁-PAR₂ complex formation but no PAR₁-CXCR4 complex was formed. Taken together, our observations show that PAR₁ and PAR₂ act as a functional unit in tumor development and placenta-uterus interactions. This conclusion may have significant consequences on future breast cancer therapeutic modalities and improved late pregnancy outcome.     

Zum Problem des Stoffwechsels der Brenztraubensäurein vivo

Summary In the end-stage of progressive alloxan diabetes of the rabbit we have been able to overcome the acute pyruvic acidosis by the use of phosphorylated vitamin B₁ (cocarboxylase) together with vitamin B₂, while it is impossible to cure the endogen hyperpyruviæmia with simple vitamin B₁. The superiority of the coferment over the vitamin, which is only effective at the beginning of the decompensation, implies the existence of a disturbance in the phosphorylation during the crisis of diabetic metabolism. We have been successful in preventing the inevitable death in coma of diabetic rabbits by doses of cocarboxylase + riboflavin, and we were able to keep them alive by continuous doses of insulin together with vitamin B₁ and B₂.

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Ein Teil der Experimente wurde mit Unterstützung der Roche-Studienstiftung durchgeführt.     

Hydrogen peroxide generation inTrypanosoma cruzi

Summary Homogenates from T. cruzi epimastigotes produced 3.4 pmoles H₂O₂/min 10⁶ cells, as detected by the cytochrome c peroxidase assay. Addition of NADH or NADPH increased H₂O₂ production by a factor of 3 and 5, respectively. When supplemented with NADH and NADPH, the mitochondrial, microsomal, and supernatant fractions produced H₂O₂, the soluble fraction and the mitochondrial membranes being apparently the main generators of H₂O₂. The epimastigote homogenates showed cyanide-sensitive superoxide dismutase activity, equivalent to 0.28 g bovine superoxide dismutase per mg homogenate protein.This investigation was supported by grants from Consejo Nacional de Investigaciones Cientificas y Técnicas (CONICET) Argentina and the Scientific Office, American States Organization.Career Investigator of CONICET.     

Plasma triiodothyronine,thyroxine and thyrotrophin levels in germfree rats

Summary Plasma T₃, T₄ and TSH levels in developing germfree rats were high, low and normal as compared with those in conventional counterparts. The high T₃/T₄ ratio in germfree rat plasma was lowered by cholestyramine feeding.This work was supported in part by a grant from the Imanaga Foundation, Nagoya, Japan.     

Composition of epicuticular wax of rice,Oryza sativa

Summary The epicuticular wax of rice, varietyRibe, comprised n-alkanes, esters, aldehydes and free alcohols. The nalkanes contained 4 major chain lengths, C₂₇, C₂₉, C₃₁ and C₃₃. Triacontanal and dotriacontanal were the major aldehydes. Octacosanol comprised 89% of the free alcohols. The esters were mainly esters of C₁₆ to C₂₄ acids with C₂₂ to C₃₀ alcohols.This research was supported by the Consiglio Nazionale delle Ricerche, Rome.     

Suppression of natural killer cell activity in mouse spleen lymphocytes by several dopamine receptor antagonists

The effects of dopaminergic receptor inhibitors such as thiothixine (D₁/D₂), fluphenazine (D₁/D₂), trifluoperazine (D₁/D₂), pimozide (D₂), flupenthixol (D₁/D₂), (+/–)-SKF 83566 (D₁), and spiperone (D₂) on splenic natural killer (NK) cell cytotoxic activities were assessed in vitro using mouse spleen lymphocytes or enriched NK cells. Both the activities of the splenic NK cell cytotoxicity and the effector-target cell conjugation were suppressed by thiothixine, fluphenazine, and trifluoperazine at concentrations from 2.64 to 14.78 M. In addition, the augmentation of the cytolytic activity of NK cells induced by interferon- or interleukin-2 was antagonized by pretreatment with these neuroleptic compounds. However, neither the splenic NK cell cytotoxicity nor the effector-target cell conjugation were affected by treatment with other neuroleptic compounds such as pimozide, flupenthixol, (+/–)-SKF 83566, and spiperone. Thus, it appears that neuroleptic compounds such as thiothixine, fluphenazine, and trifluoperazine may act through the mechanisms other than a dopaminergic pathway to affect the NK cell-target cell interaction.     

Reversible juvenile hormone inhibition of ecdysteroid and juvenile hormone synthesis by the ring gland ofDrosophila melanogaster

Juvenile hormone bisepoxide (JHB₃) and juvenile hormone III (JH III) both inhibited the in vitro production of ecdysteroids by ring glands and brain-ring gland complexes from third instar post-feeding larvae ofDrosophila melanogaster in a reversible manner, although JHB₃ had greater efficacy. The JH III and JHB₃ precursor, methyl farnesoate, did not affect ecdysteroid production. The in vitro synthesis of total detectable JH (JHB₃+JH III+methyl farnesoate) by the corpus allatum portion of the isolated ring gland was also inhibited reversibly in the presence of exogenous JHB₃ and JH III, but not by methyl farnesoate. These data indicating negative feedback are in agreement with the accepted dogma of endocrine gland regulation.     

Effect of hydrogen peroxide on the binding of Merocyanine 540 to human erythrocytes

The fluorescent dye Merocyanine 540 (MC540) is often used as a probe to monitor the molecular packing of phospholipids in the outer leaflet of biomembranes. In a previous study we showed that the increased staining of erythrocytes with a perturbed membrane structure was mainly due to an increase in the fluorescence yield of cell-bound MC540, rather than to an increase of the number of bound molecules. Erythrocytes and ghosts exposed to continuous fluxes of H₂O₂ exhibited pronounced lipid peroxidation. Further, red blood cells subjected to this form of oxidative stress also showed increased staining with MC540. It appeared that this was caused by a strong increase in binding of MC540, together with a slight red shift of the fluorescence emission maximum and a small increase in the fluorescence yield of bound MC540. The changed MC540 binding characteristics were not observed when lipid peroxidation was suppressed by the presence of the antioxidant BHT in the incubation medium. However, open ghosts exposed to H₂O₂ showed no increase of MC540 binding, excluding a direct involvement of lipid peroxidation. Measurement of fluorescence emission spectra and gel filtration studies showed that MC540 can bind to H₂O₂-exposed hemoglobin. Experiments with erythrocytes lysed in hypotonic medium after exposure to H₂O₂ revealed that peroxidation of lipids with H₂O₂ induced a non-specific permeabilization of the plasma membrane to MC540, thereby allowing MC540 to bind to the oxidatively denatured, more hydrophobic hemoglobin. These results indicate that conclusions about packing of phospholipids in the outer leaflet of the membrane based on increased MC540-staining should be drawn with care. Received 27 September 1996; received after revision 5 November 1996; accepted 27 November 1996     

The C4-dicarboxylate transport system ofRhizobium meliloti and its role in nitrogen fixation during symbiosis with alfalfa (Medicago sativa)

TheRhizobium meliloti C₄-dicarboxylate transport (Dct) system is essential for an effective symbiosis with alfalfa plants. C₄-dicarboxylates are the major carbon source taken up by bacteroids. Genetic analysis of Dct^– mutant strains led to the isolation of thedct carrier genedctA and the regulatory genesdctB anddctD. The carrier genedctA is regulated in free-living cells by the alternative sigma factor RpoN and the two-component regulatory system DctB/D. In addition, DctA is involved in its own regulation, possibly by interacting with DctB. In bacteroids, besides the DctB/DctD system an additional symbiotic activator is thought to be involved indctA expression. Further regulation ofdctA in the free-living state is reflected by diauxic growth of rhizobia, with succinate being the preferred carbon source. The tight coupling of C₄-dicarboxylate transport and nitrogen fixation is revealed by a reduced level of C₄-dicarboxylate transport in nitrogenase negative bacteroids.     

Ca-efflux,from direct membrane injury by CCl4, is elicited by amphiphilic vehicles in vitro

Direct membrane injury by CCl₄, in situations excluding metabolic activation, was evaluated in saponin-permeabilized hepatocytes and in microsomes by measuring immediate Ca²⁺ efflux. A good correlation appears between the Ca²⁺ efflux and the level of CCl₄ in the membrane and also the variations in fluidity. Mixtures of CCl₄ with water-soluble vehicles were used to improve the dispersion of CCl₄ in the medium. The mixtures varied in their ability to elicit the membrane effects of CCl₄. The performance of ethanol and, to a lesser degree, other alcohols, suggests the existence of a water stable structural organization between CCl₄ and these amphiphilic vehicles, facilitating the transfer of CCl₄ to the membrane.