Expression of HvHMA2 in tobacco modifies Zn–Fe–Cd homeostasis

HvHMA2 is a plasma membrane P_1B-ATPase from barley that functions in Zn/Cd root-to-shoot transport. To assess the usefulness of HvHMA2 for modifying the metal content in aerial plant parts, it was expressed in tobacco under the CaMV35S promoter. Transformation with HvHMA2 did not produce one unique pattern of Zn and Cd accumulation; instead it depended on external metal supply. Thus Zn and Cd root-to-shoot translocation was facilitated, but not at all applied Zn/Cd concentrations. Metal uptake was restricted in HvHMA2-transformed plants and the level in the shoot was not enhanced. It was shown that HvHMA2 localizes to the plasma membrane of tobacco cells, and overloads the apoplast with Zn, which could explain the overall decrease in metal uptake observed. Despite the lower levels in the shoot, HvHMA2 transformants showed increased Zn sensitivity. Moreover, introduction of HvHMA2 into tobacco interfered with Fe metabolism and Fe accumulation was modified in HvHMA2-transformants in a Zn- and Cd-concentration dependent manner. The results indicate that ectopic expression of the export protein HvHMA2 in tobacco interferes with tobacco metal Zn–Cd–Fe cross-homeostasis, inducing internal mechanisms regulating metal uptake and tolerance.     

Role of aromatic interactions in amyloid formation by peptides derived from human Amylin

Numerous polypeptides and proteins form amyloid deposits in vivo or in vitro. The mechanism of amyloid formation is not well-understood particularly in the case where unstructured polypeptides assemble to form amyloid. Aromatic-aromatic interactions are known to be important in globular proteins, and the possibility that they might play a key role in amyloid formation has been raised. The results of Ala-scanning experiments on short polypeptides derived from Amylin have suggested that aromatic interactions could be particularly important for this system. Here, we examine a set of Amylin-derived polypeptides in which the single aromatic residue has been substituted with a Leu and Ala. A peptide corresponding to residues 21-29 with a Phe-23 to Leu substitution, a free N terminus, and amidated C terminus readily forms amyloid. Shorter peptides derived from the putative minimal amyloid-forming segment of Amylin, residues 22-27, also form amyloid when Phe-23 is replaced by Leu. Amyloid formation is more facile when the N terminus is deprotonated and the peptide is uncharged. Substitution of the Phe with Ala results in a peptide that is noticeably less prone to form amyloid. A peptide corresponding to residues 10-19 of human Amylin with blocked termini and the sole aromatic residue, Phe-15, substituted by Leu readily forms amyloid. A Phe-15 to Ala substitution reduces significantly the ability to form amyloid. These results indicate that an aromatic residue is not required for amyloid formation in these systems and indicates that other factors such as size, beta-sheet propensity, and hydrophobicity of the side chain in question are also important.     

Early Deficits in Glycolysis Are Specific to Striatal Neurons from a Rat Model of Huntington Disease

In Huntington disease (HD), there is increasing evidence for a link between mutant huntingtin expression, mitochondrial dysfunction, energetic deficits and neurodegeneration but the precise nature, causes and order of these events remain to be determined. In this work, our objective was to evaluate mitochondrial respiratory function in intact, non-permeabilized, neurons derived from a transgenic rat model for HD compared to their wild type littermates by measuring oxygen consumption rates and extracellular acidification rates. Although HD striatal neurons had similar respiratory capacity as those from their wild-type littermates when they were incubated in rich medium containing a supra-physiological glucose concentration (25 mM), pyruvate and amino acids, respiratory defects emerged when cells were incubated in media containing only a physiological cerebral level of glucose (2.5 mM). According to the concept that glucose is not the sole substrate used by the brain for neuronal energy production, we provide evidence that primary neurons can use lactate as well as pyruvate to fuel the mitochondrial respiratory chain. In contrast to glucose, we found no major deficits in HD striatal neurons’ capacity to use pyruvate as a respiratory substrate compared to wild type littermates. Additionally, we used extracellular acidification rates to confirm a reduction in anaerobic glycolysis in the same cells. Interestingly, the metabolic disturbances observed in striatal neurons were not seen in primary cortical neurons, a brain region affected in later stages of HD. In conclusion, our results argue for a dysfunction in glycolysis, which might precede any defects in the respiratory chain itself, and these are early events in the onset of disease.     

Genetic characterization of clinical and agri-food isolates of multi drug resistant <Emphasis Type="Italic">Salmonella enterica</Emphasis> serovar Heidelberg from Canada

Background  

Salmonella enterica serovar Heidelberg ranks amongst the most prevalent causes of human salmonellosis in Canada and an increase in resistance to extended spectrum cephalosporins (ESC) has been observed by the Canadian Integrated Program for Antimicrobial Resistance Surveillance. This study examined the genetic relationship between S. Heidelberg isolates from livestock, abattoir, retail meat, and clinical human specimens to determine whether there was a link between the emergence of MDR S. Heidelberg in chicken agri-food sources and the simultaneous increase of MDR S. Heidelberg in human clinical samples.     

Association of Helicobacter pylori infection with coronary heart disease.

The role of Helicobacter pylori (HP) as the main etiological factor in gastritis and peptic ulcer disease is undisputable. Gastric mucosal damage caused by HP involves various bacterial and host-dependent toxic substances that have been recently associated with an increased risk of coronary artery disease (CAD), possibly through the activation acute phase response and of procoagulant hemostatic factors. Recent studies showed a close and strong correlation between plasma increments of some cytokines such as IL-6 or TNFalpha and cardiovascular diseases. HP infection induces platelet activation and aggregation that could be the pathogenic explanation of the association between HP infection and CAD. The aim of this study was to determine the seroprevalence of HP infection and antibodies to CagA, an antigen that is expressed by the most virulent HP strains inducing an enhanced gastric inflammatory response, in patients undergoing routine coronary artery examination. We studied 76 patients with CAD and 81 healthy controls patients without significant change in coronary circulation. Angiograms were read by two independent experienced cardiologists blinded to the results of HP status. The presence of serum IgG antibodies to HP and to CagA and plasma interleukin-8 (IL-8) levels was measured by ELISA. In addition plasma C-reactive protein fibrinogen, total cholesterol and lipids levels were measured in all studied patients. Seropositivity to HP was found in 81.5 % of cases and in 51% of controls and the difference in prevalence was statistically significant, the odds ratio being 4.3 for Hp patients. Antibody to CagA protein was detected in 47.3% of CAD but only in 28% of healthy controls (OR = 2.3 vs OR = 10). C-reactive protein, plasma fibrinogen and total cholesterol were, respectively higher in patients with CAD than in controls. Present data show that there is significant link between CAD and HP infection. The HP infection significantly increases the risk of CAD, especially when both the anti-HP IgG and anti-CagA IgG are considered. Higher prevalence of cytotoxic HP strains might enhance the atherosclerotic process by inducing a persistent, low grade inflammatory response in arterial wall with enhanced synthesis of acute phase reactants.