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Rami Yossef Chamutal Gur Avishai Shemesh Ofer Guttman Uzi Hadad Shlomo Nedvetzki Antonija Mileti? Karen Nalbandyan Adelheid Cerwenka Stipan Jonjic Ofer Mandelboim Angel Porgador 《PloS one》2015,10(2)
Natural killer (NK) cells belong to the innate lymphoid cells. Their cytotoxic activity is regulated by the delicate balance between activating and inhibitory signals. NKp46 is a member of the primary activating receptors of NK cells. We previously reported that the NKp46 receptor is involved in the development of type 1 diabetes (T1D). Subsequently, we hypothesized that blocking this receptor could prevent or hinder disease development. To address this goal, we developed monoclonal antibodies for murine NKp46. One mAb, named NCR1.15, recognizes the mouse homologue protein of NKp46, named Ncr1, and was able to down-regulate the surface expression of NKp46 on primary murine NK cells following antibody injection in vivo. Additionally, NCR1.15 treatments were able to down-regulate cytotoxic activity mediated by NKp46, but not by other NK receptors. To test our primary assumption, we examined T1D development in two models, non-obese diabetic mice and low-dose streptozotocin. Our results show a significantly lower incidence of diabetic mice in the NCR1.15-treated group compared to control groups. This study directly demonstrates the involvement of NKp46 in T1D development and suggests a novel treatment strategy for early insulitis. 相似文献
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Sucrose synthase (SUS) plays a role in many contexts of sugar metabolism, including low-oxygen and low-ATP respiration and
the synthesis of cellulose. In tomato (Solanum lycopersicum), as in many plants, SUS is encoded by genes at several independent loci. Here, we report the isolation of a novel tomato
SUS (SlSUS) isoform, SlSUS4, that is homologous to potato SUS isoform 1 (StSUS1) and also shows greater homology to SUS isoforms of other plants than to the other tomato SUS isoforms. All three tomato
isoforms are very similar in genomic structure and sequence, yet each is located on a separate chromosome. Real-time expression
analysis of the three distinct isoforms revealed widely varying patterns of expression, in terms of both tissue specificity
and overall magnitude of expression. Analysis of SlSUS expression along the tomato stem revealed opposing expression gradients for two of the SlSUS isoforms, in apparent correlation with vascular tissue maturation. Western-blot analysis of SlSUS protein showed an increasing
SlSUS concentration gradient along the developmental axis of the tomato stem, with the protein concentrated mainly in the
vascular tissue of the stem. These gene expression and protein accumulation patterns indicate that each isoform may play a
discrete role in the development of tomato plants, most notably in the development of vascular tissue in the stem. 相似文献
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Reducing the available water in food is a long-established method for controlling bacterial growth in the food industry. Nevertheless, food-borne outbreaks of salmonellosis due to consumption of dry foods have been continuously reported. Previous studies showed that dried Salmonella cells acquire high tolerance to heat and ethanol. In order to examine if dehydration also induces tolerance to other stressors, dried Salmonella enterica serotype Typhimurium cells were exposed to multiple stresses, and their viability was assessed. Indeed, desiccated S. Typhimurium acquired higher tolerance to multiple stressors than nondesiccated cells. The dried cells were significantly more resistant to most stressors, including ethanol (10 to 30%, 5 min), sodium hypochlorite (10 to 100 ppm, 10 min), didecyl dimethyl ammonium chloride (0.05 to 0.25%, 5 min), hydrogen peroxide (0.5 to 2.0%, 30 min), NaCl (0.1 to 1 M, 2 h), bile salts (1 to 10%, 2 h), dry heat (100°C, 1 h), and UV irradiation (125 μW/cm(2), 25 min). In contrast, exposure of Salmonella to acetic and citric acids reduced the survival of the dried cells (1.5 log) compared to that of nondesiccated cells (0.5 log). Three other S. enterica serotypes, S. Enteritidis, S. Newport, and S. Infantis, had similar stress responses as S. Typhimurium, while S. Hadar was much more susceptible and gained tolerance to only a few stressors. Our findings indicate that dehydration induces cross-tolerance to multiple stresses in S. enterica, demonstrating the limitations of current chemical and physical treatments utilized by the food industry to inactivate food-borne pathogens. 相似文献
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Shani Shenhar‐Tsarfaty Tal Bruck Estelle R. Bennett Tsafrir Bravman Einor Ben Aassayag Nir Waiskopf Ori Rogowski Natan Bornstein Shlomo Berliner Hermona Soreq 《Journal of cellular and molecular medicine》2011,15(8):1747-1756
The metabolic syndrome (MetS) is a risk factor for type 2 diabetes mellitus (T2DM). However, the mechanisms underlying the transition from MetS to T2DM are unknown. Our goal was to study the potential contribution of butyrylcholinesterase (BChE) to this process. We first determined the hydrolytic activity of BChE in serum from MetS, T2DM and healthy individuals. The ‘Kalow’ variant of BChE (BChE‐K), which has been proposed to be a risk factor for T2DM, was genotyped in the last two groups. Our results show that in MetS patients serum BChE activity is elevated compared to T2DM patients and healthy controls (P < 0.001). The BChE‐K genotype showed similar prevalence in T2DM and healthy individuals, excluding this genotype as a risk factor for T2DM. However, the activity differences remained unexplained. Previous results from our laboratory have shown BChE to attenuate the formation of β‐amyloid fibrils, and protect cultured neurons from their cytotoxicity. Therefore, we next studied the in vitro interactions between recombinant human butyrylcholinesterase and amylin by surface plasmon resonance, Thioflavine T fluorescence assay and cross‐linking, and used cultured pancreatic β cells to test protection by BChE from amylin cytotoxicity. We demonstrate that BChE interacts with amylin through its core domain and efficiently attenuates both amylin fibril and oligomer formation. Furthermore, application of BChE to cultured β cells protects them from amylin cytotoxicity. Taken together, our results suggest that MetS‐associated BChE increases could protect pancreatic β‐cells in vivo by decreasing the formation of toxic amylin oligomers. 相似文献
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The human immunodeficiency virus (HIV) envelope is enriched in cholesterol and sphingomyelin, two lipids that sustain the formation of laterally segregated liquid-ordered fluid domains in model systems. Several evidences indicate that the high lipid order existing at the envelope may play a role in HIV pathogenesis. A putative mechanism might involve the modulation of the membrane-perturbing function of the gp41 membrane-proximal external region (MPER). To test such hypothesis, we investigate here the effect of lipid phase coexistence on the membrane-restructuring properties of NpreTM and CpreTM, two peptides based on the amino- and carboxy-terminal MPER sequences, respectively. Fluid phase coexistence elicited the fusogenic activity of NpreTM at high membrane doses and stimulated "graded" leakage at low doses. By comparison, the effect on CpreTM was restricted to an enhancement of "all-or-none" leakage that was consistent with the promotion of its surface aggregation. Confocal microscopy of single vesicles revealed the preference of both peptides for liquid-disordered domains. Accordingly, we speculate that confinement into envelope fluid nanodomains might boost the distinct capacities of HIV MPER hydrophobic modules for inducing membrane defects during fusion. 相似文献