12 research outputs found
Ultrastructural response of arcuate nucleus neurons to fasting in aged rats
The arcuate nucleus of the hypothalamus (ARH) is involved in the control of
energy homeostasis. Leptin - an adipocyte derived hormone - is known to
act on the hypothalamic nuclei and thus to control body weight by food intake
reduction. Oxidative stress is believed to be implicated in leptin signalling. However,
its relevance for leptin-induced signal transduction within ARH remains
unclear. The goal of the study was to investigate the effect of fasting on morphological
alterations of the neuronal endoplasmic reticulum/Golgi network as
well as on the expression of leptin receptors in the arcuate nucleus of aged
rats. Male Wistar rats, aged 24 months, were fasted for 96 hours. The control
animals were fed ad libitum. Membranous whorls in the ARH neurons were
visualized using the electron microscopy technique. Leptin receptors in the
membranes of ARH neurons were determined immunohistochemically (IHC),
and soluble leptin receptors in the plasma as well as plasma isoprostanes were
quantified immunochemically (ELISA). An intense formation of membranous
whorls was observed, directly associated with the cisternae of the rough endoplasmic
reticulum, as well as lamellar bodies. Interestingly, the whorls were
often localized near a well-developed Golgi complex. Moreover, some Golgi
complexes displayed an early stage of whorl formation. Groups of residual
lipofuscin granules were found in the immediate proximity of the whorls. An
increased immunoreactivity with neuronal leptin receptors suggests that hypersensitive
neurons may still effectively respond to the fasting serum levels of
leptin, mediating ultrastructural transformation of ARH neurons during short-term fasting. Having observed a significant accumulation of lipofuscin granules
and a marked increase of total 8-isoprostane serum level in the fasting rats, we
hypothesize that signal transduction within the neurons of ARH is dependent
on oxidative stress phenomena
4-OH-TEMPO prevents the morphological alteration of rat thymocytes primed to apoptosis by oxidative stress inducer ButOOH
Thymocytes exposed to the pro-oxidant tert–butyl-hydroperoxide (ButOOH) display
a number of dramatic changes in morphology similar to those observed in
the case of dexamethasone-treated cells. Both reagents induce nuclear chromatin
peripheral aggregation below the nuclear membrane. Some nuclei themselves
break up producing two or more fragments. ButOOH-treated cells are
morphologically characterised by cell shrinkage, extensive surface blebbing and,
finally, fragmentation into membrane–bound apoptotic bodies composed of
cytoplasm and tightly packed with or without nuclear fragments. An increased
level of lipid hydroxyperoxides was detected after exposure of thymocytes to
ButOOH. Both oxidative stress markers and morphological damage to cells were
prevented by the antioxidant 4-OH-TEMPO
The morphology of acinar cells during acute pancreatitis in rats induced by intraductal infusion of peracetate
Many experimental models have been created to explain the pathophysiology
of acute pancreatitis (AP). Investigations have been undertaken in this laboratory
into the influence of strong oxidants introduced into the pancreas retrogradely
through the bile-pancreatic duct. In these experiments a potentially toxic
metabolite of ethanol-peracetic acid was used to induce AP. Wistar rats were
treated with 1 mM and 40 mM peracetate and with a solvent as a control for
1 and 3 hours respectively. After a period of observation the samples of pancreata
were examined in a light and electron microscope together with the content
of sulphydryl groups as a marker of intracellular oxidative stress. The morphological
examination showed profound changes in the histology of the pancreas
and also in its subcellular structures, especially in groups 3 and 4 (with a higher
concentration of peracetate). The changes included parenchymal haemorrhage
and widespread acinar cell necrosis. The level of the sulphydryl groups decreased
in the rats treated with peracetate. This suggests that the severity of the disease
strongly depends on the intensity of the oxidative stress. The results confirmed
the axial role of oxygen-derived free radicals in the pathogenesis of AP
An ecotype-specific effect of osmopriming and melatonin during salt stress in Arabidopsis thaliana
Abstract Background Natural populations of Arabidopsis thaliana exhibit phenotypic variations in specific environments and growth conditions. However, this variation has not been explored after seed osmopriming treatments. The natural variation in biomass production and root system architecture (RSA) was investigated across the Arabidopsis thaliana core collection in response to the pre-sawing seed treatments by osmopriming, with and without melatonin (Mel). The goal was to identify and characterize physiologically contrasting ecotypes. Results Variability in RSA parameters in response to PEG-6000 seed osmopriming with and without Mel was observed across Arabidopsis thaliana ecotypes with especially positive impact of Mel addition under both control and 100 mM NaCl stress conditions. Two ecotypes, Can-0 and Kn-0, exhibited contrasted root phenotypes: seed osmopriming with and without Mel reduced the root growth of Can-0 plants while enhancing it in Kn-0 ones under both control and salt stress conditions. To understand the stress responses in these two ecotypes, main stress markers as well as physiological analyses were assessed in shoots and roots. Although the effect of Mel addition was evident in both ecotypes, its protective effect was more pronounced in Kn-0. Antioxidant enzymes were induced by osmopriming with Mel in both ecotypes, but Kn-0 was characterized by a higher responsiveness, especially in the activities of peroxidases in roots. Kn-0 plants experienced lower oxidative stress, and salt-induced ROS accumulation was reduced by osmopriming with Mel. In contrast, Can-0 exhibited lower enzyme activities but the accumulation of proline in its organs was particularly high. In both ecotypes, a greater response of antioxidant enzymes and proline accumulation was observed compared to mechanisms involving the reduction of Na+ content and prevention of K+ efflux. Conclusions In contrast to Can-0, Kn-0 plants grown from seeds osmoprimed with and without Mel displayed a lower root sensitivity to NaCl-induced oxidative stress. The opposite root growth patterns, enhanced by osmopriming treatments might result from different protective mechanisms employed by these two ecotypes which in turn result from adaptive strategies proper to specific habitats from which Can-0 and Kn-0 originate. The isolation of contrasting phenotypes paves the way for the identification of genetic factors affecting osmopriming efficiency
Cost-effectiveness of Digital Breast Tomosynthesis in Population-based Breast Cancer Screening:A Probabilistic Sensitivity Analysis
BACKGROUND: Digital breast tomosynthesis (DBT) is a promising screening test, but its outcomes and cost-effectiveness remain uncertain. PURPOSE: To determine if biennial DBT is cost-effective in a screening setting, when compared with digital mammography (DM) in the Netherlands, and to quantify the uncertainty. MATERIALS AND METHODS: In this study, performed from March 2018 to February 2019, the MIcrosimulation SCreening ANalysis model was used to conduct a probabilistic sensitivity analysis (PSA), consisting of 10 000 model runs with 1 000 000 women simulated per run. The Bayesian Cost-Effectiveness Analysis package and the Sheffield Accelerated Value of Information tool were used to process PSA outcomes. Two simulated cohorts born in 1970 were invited to undergo biennial screening between ages 50 and 74 years—one cohort was assigned to DM screening, and one was assigned to DBT screening. DM input parameters were based on data from the Dutch breast cancer screening program. DBT parameters were based on literature and expert opinion. Willingness-to-pay thresholds of €20 000 (38 500) per life-year gained (LYG) were considered. Effects and costs were discounted at 3.5% per year. RESULTS: DBT resulted in a gain of 13 additional life-years per 1000 women invited to screening (7% increase, 13 of 193), followed over lifetime, compared with DM and led to 2% (four of 159) fewer false-positive results. DBT screening led to incremental discounted lifetime effects of 5.09 LYGs (95% confidence interval: −0.80, 9.70) and an increase in lifetime costs of €137 555 (34 202], €263 537 [29 725) per LYG. The probability of DBT being more cost-effective was 0.36 at €20 000 and 0.66 at €35 000 per LYG. CONCLUSION: Switching from digital mammography to biennial digital breast tomosynthesis is not cost-effective at a willingness-to-pay threshold of €20 000 per life-year gained, but digital breast tomosynthesis has a higher probability of being more cost-effective than digital mammography at a threshold of €35 000 per life-year gained. © RSNA, 2020 Online supplemental material is available for this article. See also the editorial by Slanetz in this issue
Organization of cellulose synthase complexes involved in primary cell wall synthesis in Arabidopsis thaliana
In all land plants, cellulose is synthesized from hexameric plasma membrane complexes. Indirect evidence suggests that in vascular plants the complexes involved in primary wall synthesis contain three distinct cellulose synthase catalytic subunits (CESAs). In this study, we show that CESA3 and CESA6 fused to GFP are expressed in the same cells and at the same time in the hypocotyl of etiolated seedlings and migrate with comparable velocities along linear trajectories at the cell surface. We also show that CESA3 and CESA6 can be coimmunoprecipitated from detergent-solubilized extracts, their protein levels decrease in mutants for either CESA3, CESA6, or CESA1 and CESA3, CESA6 and also CESA1 can physically interact in vivo as shown by bimolecular fluorescence complementation. We also demonstrate that CESA6-related CESA5 and CESA2 are partially, but not completely, redundant with CESA6 and most likely compete with CESA6 for the same position in the cellulose synthesis complex. Using promoter-β-glucuronidase fusions we show that CESA5, CESA6, and CESA2 have distinct overlapping expression patterns in hypocotyl and root corresponding to different stages of cellular development. Together, these data provide evidence for the existence of binding sites for three distinct CESA subunits in primary wall cellulose synthase complexes, with two positions being invariably occupied by CESA1 and CESA3, whereas at least three isoforms compete for the third position. Participation of the latter three isoforms might fine-tune the CESA complexes for the deposition of microfibrils at distinct cellular growth stages