Oxidative stress induced in tobacco leaves by chloroplast over-expression of maize plastidial transglutaminase

As part of a project aiming to characterize the role of maize plastidial transglutaminase (chlTGZ) in the plant chloroplast, this paper presents results on stress induced by continuous chlTGZ over-expression in transplastomic tobacco leaves. Thylakoid remodelling induced by chlTGZ over-expression in young leaves of tobacco chloroplasts has already been reported (Ioannidis et al. in Biochem Biophys Acta 1787:1215–1222, 2009). In the present work, we determined the induced alterations in the photosynthetic apparatus, in the chloroplast ultrastructure, and, particularly, the activation of oxidative and antioxidative metabolism pathways, regarding ageing and functionality of the tobacco transformed plants. The results revealed that photochemistry impairment and oxidative stress increased with transplastomic leaf age. The decrease in pigment levels in the transformed leaves was accompanied by an increase in H₂O₂ and lipid peroxidation. The rise in H₂O₂ correlated with a decrease in catalase activity, whereas there was an increase in peroxidase activity. In addition, chlTGZ over-expression lead to a drop in reduced glutathione, while Fe-superoxide dismutase activity was higher in transformed than in wild-type leaves. Together with the induced oxidative stress, the over-expressed chlTGZ protein accumulated progressively in chloroplast inclusion bodies. These traits were accompanied by thylakoid scattering, membrane degradation and reduction of thylakoid interconnections. Consequently, the electron transport between photosystems decrease in the old leaves. In spite of these alterations, transplastomic plants can be maintained and reproduced in vitro. These results are discussed in line with chlTGZ involvement in chloroplast functionality.     

Recent Emergence of Clonal Group O25b:K1:H4-B2-ST131 ibeA Strains among Escherichia coli Poultry Isolates,Including CTX-M-9-Producing Strains,and Comparison with Clinical Human Isolates

To discern the possible spread of the Escherichia coli O25b:H4-ST131 clonal group in poultry and the zoonotic potential of avian strains, we made a retrospective search of our strain collection and compared the findings for those strains with the findings for current strains. Thus, we have characterized a collection of 19 avian O25b:H4-ST131 E. coli strains isolated from 1995 to 2010 which, interestingly, harbored the ibeA gene. Using this virulence gene as a criterion for selection, we compared those 19 avian strains with 33 human O25b:H4-ST131 ibeA-positive E. coli strains obtained from patients with extraintestinal infections (1993 to 2009). All 52 O25b:H4-ST131 ibeA-positive E. coli strains shared the fimH, kpsMII, malX, and usp genes but showed statistically significant differences in nine virulence factors, namely, papGIII, cdtB, sat, and kpsMII K5, which were associated with human strains, and iroN, kpsMII K1, cvaC, iss, and tsh, which were associated with strains of avian origin. The XbaI macrorestriction profiles of the 52 E. coli O25b:H4-ST131 ibeA-positive strains revealed 11 clusters (clusters I to XI) of >85% similarity, with four clusters including strains of human and avian origin. Cluster VII (90.9% similarity) grouped 10 strains (7 avian and 3 human strains) that mostly produced CTX-M-9 and that also shared the same virulence profile. Finally, we compared the macrorestriction profiles of the 12 CTX-M-9-producing O25b:H4-ST131 ibeA strains (7 avian and 5 human strains) identified among the 52 strains with those of 15 human O25b:H4-ST131 CTX-M-14-, CTX-M-15-, and CTX-M-32-producing strains that proved to be negative for ibeA and showed that they clearly differed in the level of similarity from the CTX-M-9-producing strains. In conclusion, E. coli clonal group O25b:H4-ST131 ibeA has recently emerged among avian isolates with the new acquisition of the K1 capsule antigen and includes CTX-M-9-producing strains. This clonal group represents a real zoonotic risk that has crossed the barrier between human and avian hosts.Strains of the extensively antimicrobial-resistant Escherichia coli clonal group of sequence type (ST) 131 (ST131) belonging to serotype O25b:H4 have recently been recognized to be important human pathogens worldwide (9, 33). Although it is commonly associated with the dissemination of CTX-M-15 extended-spectrum cephalosporin resistance, E. coli O25b:H4-ST131 also occurs as a fluoroquinolone (FQ)-resistant but cephalosporin-susceptible pathogen (5, 22, 26, 27). Currently, it is assumed that O25b:H4-ST131 strains circulate not only among humans but also among animal hosts (13, 21, 37), which would contribute to the ongoing global emergence of O25b:H4-ST131, in the case of regular transmission between animals and humans. Even though CTX-M-15 is the most widely distributed extended-spectrum beta-lactamase (ESBL) linked to this clonal group, other, different variants of CTX-M have recently been reported, such as CTX-M-9, CTX-M-14, and CTX-M-32 (4, 34, 36, 39). Noteworthy was the detection, for the first time on poultry farms, of this clonal group producing CTX-M-9 that had macrorestriction profiles and virulence genes very similar to those observed in clinical human isolates (10).Extraintestinal pathogenic E. coli (ExPEC) strains, which include avian pathogenic E. coli (APEC) and human uropathogenic E. coli (UPEC), septicemic E. coli, and newborn meningitis-causing E. coli (NMEC) strains, exhibit considerable genome diversity and have a wide range of virulence-associated factors (12, 18). While infections caused by APEC strains initially start as a respiratory tract disease which evolves to a systemic infection of the internal organs and, finally, to sepsis, the most frequent origin of human sepsis is urinary tract infection (UTI), especially pyelonephritis (2, 3, 11). However, APEC strains have been recognized to share common traits with human isolates (29, 30, 31), including the K1 capsule antigen (23, 24, 29) and the ibeA gene (14). In addition, retail chicken products have been found to carry nalidixic-resistant ExPEC strains (17, 19), and although it is drug susceptible, an E. coli strain belonging to the O25b:H4-ST131 clonal group has even recently been detected in retail chicken (41), supporting the urgent necessity for the implementation of food control measures.The aim of the present study was to discern the possible spread of the O25b:H4-ST131 clonal group, especially CTX-M-9-producing strains, in poultry and the zoonotic potential of avian isolates. For this purpose, we made a retrospective search of our human and avian strain collections and compared the findings for those strains with the findings for current strains. Identification of this emerging clone among avian sources and comparison of the clone with clinical human isolates will shed new light on the epidemiology of the O25b:H4-ST131 clonal group.     

Interactions between adenosine and K+ channel-related pathways in the coupling of somatosensory activation and pial arteriolar dilation

Multiple, perhaps interactive, mechanisms participate in the linkage between increased neural activity and cerebral vasodilation. In the present study, we assessed whether neural activation-related pial arteriolar dilation (PAD) involved interactions among adenosine (Ado) A(2) receptors (A(2)Rs), large-conductance Ca(2+)-operated K(+) (BK(Ca)) channels, and inward rectifier K(+) (K(ir)) channels. In rats with closed cranial windows, we monitored sciatic nerve stimulation (SNS)-induced PAD in the absence or presence of pharmacological blockade of A(2)Rs (ZM-241385), ecto-5'-nucleotidase (α,β-methylene-adenosine diphosphate), BK(Ca) channels (paxilline), and K(ir) channels (BaCl(2)). Individually, these interventions led to 53-66% reductions in SNS-induced PADs. Combined applications of these blockers led to little or no further repression of SNS-induced PADs, suggesting interactions among A(2)Rs and K(+) channels. In the absence of SNS, BaCl(2) blockade of K(ir) channels produced 52-80% reductions in Ado and NS-1619 (BK(Ca) channel activator)-induced PADs. In contrast, paxilline blockade of BK(Ca) channels was without effect on dilations elicited by KCl (K(ir) channel activator) and Ado suffusions, indicating that Ado- and NS-1619-associated PADs involved K(ir) channels. In addition, targeted ablation of the superficial glia limitans was associated with a selective 60-80% loss of NS-1619 responses, suggesting that the BK(Ca) channel participation (and paxilline sensitivity) derived largely from channels within the glia limitans. Additionally, blockade of either PKA or adenylyl cyclase caused markedly attenuated pial arteriolar responses to SNS and, in the absence of SNS, responses to Ado, KCl, and NS-1619. These findings suggested a key, possibly permissive, role for A(2)R-linked cAMP generation and PKA-induced K(+) channel phosphorylation in somatosensory activation-evoked PAD.     

Involvement of NMDA Receptor in the Modulation of Excitatory and Inhibitory Amino Acid Neurotransmitters Release in Cortical Neurons

The purpose of this paper was to examine the function of N-methyl-D-aspartate (NMDA) glutamate receptor in cortical neurons on amino acid neurotransmitters release as well as the fraction of neurons implicated in the response of this receptor. Local stimulation of these cells at different concentrations of NMDA, agonist of this ionotropic glutamate receptor, produced a dose dependent release of aspartate, glutamate, glycine and GABA. These effects were blocked by DAP5, an antagonist of the NMDA receptor. The amino acid Ca²⁺ dependent release mediated by the NMDA receptor, is induced by the opening of voltage-dependent Ca²⁺ channels that this receptor promotes. Ca⁺⁺ movements were explored in single cells loaded with fura-2. When single cells were stimulated with 100 μM NMDA, the calcium recording performed showed that 82% of the cells responded to this agonist increasing the intracellular calcium concentration, although the amplitude of these increments was variable. The results suggest that NMDA-elicited neurotransmitter release from cortical neurons involves Ca²⁺-dependent and Ca²⁺-independent components, as well as neuron depolarisation, and different VDCC subtypes of N, P/Q or L depending of the amino acid neurotransmitter release elicited by this receptor.     

Exosomes from human lymphoblastoid B cells express enzymatically active CD38 that is associated with signaling complexes containing CD81, Hsc-70 and Lyn

Exosome vesicles of endocytic origin are involved in communication between tumor and immune cells. In addition, membrane rafts (MR) may support the sorting of proteins associated with exosomes. CD38 is found at the plasma membrane and in recycling endosomes, which are both redistributed toward the immunological synapse (IS) upon T cell antigen receptor (TCR) engagement. The data of this study provide evidence that CD38 is expressed on the surface of secreted exosomes derived from lymphoblastoid B cells. Exosomic CD38 is associated with the signaling molecules CD81, Hsc-70 and Lyn. Likewise, in MR, CD38 is associated with CD81, CD19, Lyn, Gαi-2, Hsc-70 and actin. Therefore, a high degree of overlap in the pattern of signaling proteins associated with CD38 in exosomes and MR exists. Exosomic and MR CD38, by virtue of these interactions, have signaling potential. Indeed, CD38 is enzymatically active in both exosomes and MR, and CD38 ligation induces Akt/PKB and Erk activation, which is accompanied by increased translocation of CD38 into MR. In conclusion, the present study indicates that CD38 localizes to MR, where it promotes cell signaling, and it is exported out of the cells through the exosome-mediated exocytic pathway, where it may act as an intercellular messenger.     

Ten Years of Global Evolution of the Human Respiratory Syncytial Virus BA Genotype with a 60-Nucleotide Duplication in the G Protein Gene

The emergence of natural isolates of human respiratory syncytial virus group B (HRSV-B) with a 60-nucleotide (nt) duplication in the G protein gene in Buenos Aires, Argentina, in 1999 (A. Trento et al., J. Gen. Virol. 84:3115-3120, 2003) and their dissemination worldwide allowed us to use the duplicated segment as a natural tag to examine in detail the evolution of HRSV during propagation in its natural host. Viruses with the duplicated segment were all clustered in a new genotype, named BA (A. Trento et al., J. Virol. 80:975-984, 2006). To obtain information about the prevalence of these viruses in Spain, we tested for the presence of the duplicated segment in positive HRSV-B clinical samples collected at the Severo Ochoa Hospital (Madrid) during 12 consecutive epidemics (1996-1997 to 2007-2008). Viruses with the 60-nt duplication were found in 61 samples, with a high prevalence relative to the rest of B genotypes in the most recent seasons. Global phylogenetic and demographic analysis of all G sequences containing the duplication, collected across five continents up until April 2009, revealed that the prevalence of the BA genotype increased gradually until 2004-2005, despite its rapid dissemination worldwide. After that date and coinciding with a bottleneck effect on the population size, a relatively new BA lineage (BA-IV) replaced all other group B viruses, suggesting further adaptation of the BA genotype to its natural host.Human respiratory syncytial virus (HRSV), a member of the Pneumovirus genus within the Paramyxoviridae family, is recognized as the leading agent responsible for severe respiratory infections in the pediatric population (31, 34, 35) and a pathogen of considerable importance in vulnerable adults (23, 24). The global respiratory syncytial virus (RSV) disease burden is estimated at 64 million cases and 160,000 deaths every year (70). This virus causes regular seasonal epidemics which take place during the winter months in temperate countries or during the rainy season in tropical areas (12). A peculiar aspect of HRSV is that the immune response produced by infection does not confer long-lasting protection, which is why reinfections are common throughout life (30).Neutralization tests performed with hyperimmune serum (16) and reactivity with specific monoclonal antibodies (4, 45) were used to classify HRSV isolates into two antigenic groups, A and B, which correlated with genetically distinct viruses (18). The main differences between these two groups are located in the major attachment G protein. This protein is a type II glycoprotein that shares neither sequence nor structural features with the attachment proteins (HN or H) of other paramyxoviruses (69), and it represents one of the targets of the immune response (27, 43). The full-length membrane-bound G protein (Gm) of 292 to 319 amino acids (depending on the viral strain) is also expressed in a secreted version (Gs) that lacks the transmembrane domain due to alternative initiation of translation at a second in-frame AUG codon in the G open reading frame (M48) (52). The G protein is the viral gene product with the highest degree of antigenic and genetic diversity among viral isolates (4, 18, 28, 45). Most changes are concentrated in two hypervariable regions that flank a highly conserved central region of the G protein ectodomain, which includes a cluster of four cysteines and the putative receptor binding site (43). It has been suggested that antigenic differences within this protein could facilitate repeated HRSV infections (37, 59). In addition, positive selection of amino acid changes was observed in the two hypervariable regions of the G protein ectodomain (7, 43, 71, 73, 74). One of the hypervariable regions, located in the C-terminal one-third of the G molecule, contains multiple epitopes recognized by monoclonal antibodies (43), suggesting that immune selection of new variants by antibodies may contribute to generation of HRSV diversity.Phylogenetic studies based on sequence analysis of the G protein have identified numerous genotypes in the antigenic groups A and B that show complex circulation patterns, since multiple genotypes of both antigenic groups may circulate within the same season and community, with one or two dominant genotypes being replaced in successive years (13, 14, 26, 27, 32, 49, 50). Each community shows a seasonal circulation pattern of genotypes, probably determined by local factors, such as the level of herd immunity to certain strains (3, 14, 49).The capacity of the G protein to accommodate drastic sequence changes was illustrated best by three antigenic group B viruses isolated in Buenos Aires, Argentina, in 1999 that contained a duplication of 60 nucleotides (nt) in the C-terminal third of the G protein gene (63). The global dissemination of these viruses allowed us to use the duplicated segment as a natural tag to reexamine the evolution of HRSV during propagation in its natural host. Phylogenetic analysis of G sequences revealed that all viruses with the duplicated segment clustered in a new genotype, named BA, and this finding supported the idea of a common ancestor for all viruses with the 60-nt duplication, dated about 1998 (64). The limited information about the molecular epidemiology of HRSV in Spain, together with an increase in G sequences with the duplicated segment reported worldwide, prompted us to conduct both a local search in Madrid for these viruses and a global phylogenetic analysis of HRSV with the 60-nt duplication from the time that these viruses were first detected, taking into account the geographic and temporal distribution of each isolate.     

EFFICIENCY OF GROWTH AND NUTRIENT UPTAKE FROM WASTEWATER BY HETEROTROPHIC,AUTOTROPHIC, AND MIXOTROPHIC CULTIVATION OF CHLORELLA VULGARIS IMMOBILIZED WITH AZOSPIRILLUM BRASILENSE1

Heterotrophic growth of microalgae presents significant economic advantages over the more common autotrophic cultivation. The efficiency of growth and nitrogen, phosphorus, and glucose uptake from synthetic wastewater was compared under heterotrophic, autotrophic, and mixotrophic regimes of Chlorella vulgaris Beij. immobilized in alginate beads, either alone or with the bacterium Azospirillum brasilense. Heterotrophic cultivation of C. vulgaris growing alone was superior to autotrophic cultivation. The added bacteria enhanced growth only under autotrophic and mixotrophic cultivations. Uptake of ammonium by the culture, yield of cells per ammonium unit, and total volumetric productivity of the culture were the highest under heterotrophic conditions when the microalga grew without the bacterium. Uptake of phosphate was higher under autotrophic conditions and similar under the other two regimes. Positive influence of the addition of A. brasilense was found only when light was supplied (autotrophic and mixotrophic), where affinity to phosphate and yield per phosphate unit were the highest under heterotrophic conditions. The pH of the culture was significantly reduced in all regimes where glucose was consumed, similarly in heterotrophic and mixotrophic cultures. It was concluded that the heterotrophic regime, using glucose, is superior to autotrophic and mixotrophic regimes for the uptake of ammonium and phosphate. Addition of A. brasilense positively affects the nutrient uptake only in the two regimes supplied with light.     

Engineering a family 9 processive endoglucanase from Paenibacillus barcinonensis displaying a novel architecture

Cel9B from Paenibacillus barcinonensis is a modular endoglucanase with a novel molecular architecture among family 9 enzymes that comprises a catalytic domain (GH9), a family 3c cellulose-binding domain (CBM3c), a fibronectin III-like domain repeat (Fn3_1,2), and a C-terminal family 3b cellulose-binding domain (CBM3b). A series of truncated derivatives of endoglucanase Cel9B have been constructed and characterized. Deletion of CBM3c produced a notable reduction in hydrolytic activity, while it did not affect the cellulose-binding properties as CBM3c did not show the ability to bind to cellulose. On the contrary, CBM3b exhibited binding to cellulose. The truncated forms devoid of CBM3b lost cellulose-binding ability and showed a reduced activity on crystalline cellulose, although activity on amorphous celluloses was not affected. Endoglucanase Cel9B produced only a small ratio of insoluble products from filter paper, while most of the reducing ends produced by the enzyme were released as soluble sugars (91%), indicating that it is a processive enzyme. Processivity of Cel9B resides in traits contained in the tandem of domains GH9–CBM3c, although the slightly reduced processivity of truncated form GH9–CBM3c suggests a minor contribution of domains Fn3_1,2 or CBM3b, not contained in it, on processivity of endoglucanase Cel9B.