Mitochondrial bound hexokinase activity as a preventive antioxidant defense: steady-state ADP formation as a regulatory mechanism of membrane potential and reactive oxygen species generation in mitochondria

Brain hexokinase is associated with the outer membrane of mitochondria, and its activity has been implicated in the regulation of ATP synthesis and apoptosis. Reactive oxygen species (ROS) are by-products of the electron transport chain in mitochondria. Here we show that the ADP produced by hexokinase activity in rat brain mitochondria (mt-hexokinase) controls both membrane potential (Deltapsi(m)) and ROS generation. Exposing control mitochondria to glucose increased the rate of oxygen consumption and reduced the rate of hydrogen peroxide generation. Mitochondrial associated hexokinase activity also regulated Deltapsi(m), because glucose stabilized low Deltapsi(m) values in state 3. Interestingly, the addition of glucose 6-phosphate significantly reduced the time of state 3 persistence, leading to an increase in the Deltapsi(m) and in H(2)O(2) generation. The glucose analogue 2-deoxyglucose completely impaired H(2)O(2) formation in state 3-state 4 transition. In sharp contrast, the mt-hexokinase-depleted mitochondria were, in all the above mentioned experiments, insensitive to glucose addition, indicating that the mt-hexokinase activity is pivotal in the homeostasis of the physiological functions of mitochondria. When mt-hexokinase-depleted mitochondria were incubated with exogenous yeast hexokinase, which is not able to bind to mitochondria, the rate of H(2)O(2) generation reached levels similar to those exhibited by control mitochondria only when an excess of 10-fold more enzyme activity was supplemented. Hyperglycemia induced in embryonic rat brain cortical neurons increased ROS production due to a rise in the intracellular glucose 6-phosphate levels, which were decreased by the inclusion of 2-deoxyglucose, N-acetyl cysteine, or carbonyl cyanide p-trifluoromethoxyphenylhydrazone. Taken together, the results presented here indicate for the first time that mt-hexokinase activity performed a key role as a preventive antioxidant against oxidative stress, reducing mitochondrial ROS generation through an ADP-recycling mechanism.     

Role of Sarco/Endoplasmic Reticulum Ca2+-ATPase in Thermogenesis

Enzymes are able to handle the energy derived from the hydrolysis of phosphate compounds in such a way as to determine the parcel that is used for work and the fraction that is converted into heat. The sarco/endoplasmic reticulum Ca²⁺-ATPases (SERCA) is a family of membrane-bound ATPases that are able to transport Ca²⁺ ion across the membrane using the chemical energy derived from ATP hydrolysis. The heat released during ATP hydrolysis by SERCA may vary from 10 up to 30 kcal/mol depending on the SERCA isoform used and on whether or not a Ca²⁺ gradient is formed across the membrane. Drugs such as heparin, dimethyl sulfoxide and the platelet-activating factor (PAF) are able to modify the fraction of the chemical energy released during ATP hydrolysis that is used for Ca²⁺ transport and the fraction that is dissipated in the surrounding medium as heat. The thyroid hormone 3,5,3′-triiodo L-thyronine (T₃) regulates the expression and function of the thermogenic SERCA isoforms. Modulation of heat production by SERCA might be one of the mechanisms involved in the increased thermogenesis found in hyperthyroidism.     

Rituximab induces different but overlapping sets of genes in human B-lymphoma cell lines

The therapeutic unconjugated anti-CD20 Mab rituximab is used for the treatment of B-non-Hodgkins lymphomas. We have studied the direct biological effects, signalling and gene expression profiles induced by rituximab in two human B-lymphoma cell lines, DHL4 and BJAB, using microarray, quantitative PCR and gel shift analysis. Rituximab alone inhibited thymidine uptake and induced homotypic adhesion in DHL4 only, but not BJAB. Analysis of Affymetrix microchips carrying probes for about 10,000 human cDNAs, allowed us to identify 16 genes in DHL4 and 12 in BJAB induced by rituximab at 4 h. Eleven and seven of these genes were specific for DHL4 and BJAB, respectively; whereas the remaining five were up-regulated in both cell lines. Mean induction ranged from 2- to 16-fold. Real time PCR analysis allowed us to confirm up-regulation of all genes identified, except one in BJAB. Time course of induction of eight genes was studied, showing peak induction in most cases at 4 h. The up-regulation of 5/5 genes was also observed with the F(ab)₂ fragment of rituximab. Analysis of three further B-cell lymphoma lines showed that gene induction is not restricted to BJAB and DHL4. Finally, we show that rituximab alone can induce AP1 activation in both cell lines and provide evidence that the ERK1/2 pathway is involved in the rituximab-mediated up-regulation of gene expression. These data demontrate that rituximab alone has direct signalling capacity in different B-lymphoma lines, inducing distinct but overlapping sets of genes which may play a role in the biological and/or therapeutic effect of the antibody.     

The thermogenic activity of rat brown adipose tissue and rabbit white muscle Ca2+-ATPase

The Ca2+-ATPase (SERCA) found in vesicles derived from the sarco/endoplasmic reticulum vesicles of rats brown adipose tissue and rabbit white muscle were identified by gel electrophoresis, Western blot, electron microscopy and immunolabeling with gold particles. In both tissues, the isoform found was SERCA 1. The Ca2+ affinity of the fat SERCA 1 was different from the muscle isoform. The degree of uncoupling is estimated measuring the ratio between Ca2+ transport and ATP cleaved. In brown fat vesicles the degree of uncoupling varied depending on the Ca2+ concentration of the medium. This was not observed in vesicles derived from muscle. At all Ca2+ concentrations tested, the uncoupling was not related to Ca2+ leakage from the membrane and was far more pronounced in fat than in muscle vesicle. When a Ca2+ gradient was formed across the vesicles membrane the heat released during ATP hydrolysis varied between 22 and 26 Kcal/mol in both fat and muscle vesicles but in the absence of a gradient the heat released was 17 Kcal/mol in fat and 12 Kcal/mol in muscle. The data reported indicate that the SERCA 1 of brown adipocytes is far more thermogenic than the white muscle SERCA 1, and suggest that, in addition to storing Ca2+ inside the endoplasmic reticulum, the SERCA 1 may represent a source of heat production contributing to the thermogenic function of brown adipose tissue.     

Cytogenetic characteristics of patients with signs and symptoms of myelodysplastic syndromes in the State of Pará, Brazil

The myelodysplastic syndromes (MDS) are clonal hematopoietic diseases characterized by medullary dysplasia, cytopenias, and frequent evolution to acute myeloid leukemia. In 1982, the French-American-British (FAB) group proposed a classification for the MDS, based on morphological characteristics of peripheral blood and of the bone marrow. Later, cytogenetics proved to be a useful tool for the refinement of prognosis, through the use of the International Prognosis Score System (IPSS), as well as through evidence of clonality. Recently, the World Health Organization (WHO) proposed a new classification for the MDS, based on significant modifications of the FAB proposal, with the inclusion of chromosome analysis. A cytogenetic analysis was made of 17 patients with symptoms of MDS in the State of Para, based on WHO recommendations, and application of the IPSS. Good metaphases were obtained for 13 patients; 12 had a normal karyotype and only one had a clonal abnormality, del(3)(p25). The genes related to neoplastic processes that have been mapped to 3p are: XPC in 3p25.1 and FANCD2 and VHL in 3p25-26. Four patients had classic symptoms of MDS; in the rest the possibility of MDS was excluded or several months of observation before diagnosis were recommended. Among those with MDS, it was not possible to apply IPSS and WHO recommendations, because fundamental data were lacking, specifically the medullary blast and ring sideroblast counts. We advocate the implementation of routine cytogenetic analyses for the study of MDS, especially in patients with moderate hematopoietic dysplasia.     

Alteration of Ca2+ Fluxes in Brain Microsomes by K+ and Na+: Modulation by Sulfated Polysaccharides and Trifluoperazine

Abstract: Rat brain microsomes accumulate Ca²⁺ at the expense of ATP hydrolysis. The rate of transport is not modulated by the monovalent cations K⁺, Na⁺, or Li⁺. Both the Ca²⁺ uptake and the Ca²⁺-dependent ATPase activity of microsomes are inhibited by the sulfated polysaccharides heparin, fucosylated chondroitin sulfate, and dextran sulfate. Half-maximal inhibition is observed with sulfated polysaccharide concentrations ranging from 0.5 to 8.0 µg/ml. The inhibition is antagonized by KCl and NaCl but not by LiCl. As a result, Ca²⁺ transport by the native vesicles, which in the absence of polysaccharides is not modulated by monovalent cations, becomes highly sensitive to these ions. Trifluoperazine has a dual effect on the Ca²⁺ pump of brain microsomes. At low concentrations (20–80 µM) it stimulates the rate of Ca²⁺ influx, and at concentrations >100 µM it inhibits both the Ca²⁺ uptake and the ATPase activity. The activation observed at low trifluoperazine concentrations is specific for the brain Ca²⁺-ATPase; for the Ca²⁺-ATPases found in blood platelets and in the sarcoplasmic reticulum of skeletal muscle, trifluoperazine causes only a concentration-dependent inhibition of Ca²⁺ uptake. Passive Ca²⁺ efflux from brain microsomes preloaded with Ca²⁺ is increased by trifluoperazine (50–150 µM), and this effect is potentiated by heparin (10 µg/ml), even in the presence of KCl. It is proposed that the Ca²⁺-ATPase isoform from brain microsomes is modulated differently by polysaccharides and trifluoperazine when compared with skeletal muscle and platelet isoforms.     

Identification of three novel mutations in the PIG-A gene in paroxysmal nocturnal haemoglobinuria (PNH) patients

Paroxysmal nocturnal haemoglobinuria (PNH) is an acquired haemolytic disorder caused by the absence of glycosyl phosphatidylinositol (GPI)-anchored surface proteins resulting from a defect in one step of GPI-anchor biosynthesis. Recent analysis has shown that mutations at the PIG-A (phosphatidylinositoglycan-class A) gene are responsible for GPI-anchor deficiency in all PNH patients. In the current study, we describe three new mutations of the PIG-A gene in Italian patients with PNH. The analysis has been performed by RNA/single-strand conformation polymorphism using genomic DNA purified from nucleated peripheral blood cells. An abnormal pattern of migration of polymerase chain reaction amplified fragments containing exons 2 and 5 was observed. Sequencing analysis led to the identification of three mutations: a transversion C-to-A creating a stop codon (Y98X), an A insertion at position 460 (460insA), and a C deletion (1114delC). All the mutations cause a premature termination of the translation of the PIG-A protein.     

<Emphasis Type="Italic">Epichloë</Emphasis> exudates promote in vitro and in vivo arbuscular mycorrhizal fungi development and plant growth

Background and aims

We studied, through exudates employment, the effect of Epichloë (endophytic fungi), both independently and in association with Bromus auleticus (grass), on arbuscular mycorrhizal fungi (AMF) colonization, host and neighbouring plants biomass production and soil changes.

Methods

Through in vitro and greenhouse experiments, Epichloë endophytes effect on AMF development was evaluated. In vitro studies of exudates effect on Gigaspora rosea and Rhizophagus intraradices were performed using root or endophyte exudates. A 6-month greenhouse experiment was conducted to determine Bromus auleticus endophytic status effect and endophyte exudates role in biomass production, neighbouring plants mycorrhizal colonization and soil properties.

Results

Endophyte exudates and E+ plant root exudates promoted in vitro AMF development in the pre-infective stage of G. rosea and in carrot root culture mycelium of R. intraradices in a dose-response relationship, while control media and E- plants exudates had no effect. R. intraradices colonization and plant growth was clearly increased by endophytes and their exudates.

Conclusions

This is the first work evidencing the direct effect of Epichloë endophytes and infected plants root exudates on AMF extramatrical development. While higher levels of AMF colonization were observed in E+ plants, no clear effect was detected in neighbouring plants colonization, plant biomass or soil properties.