Relation entre facteurs environnementaux et densités larvaires d’Ochlerotatus caspius Pallas 1771 et Ochlerotatus detritus Haliday 1833 (Diptera: Culicidae) en Tunisie

Ochlerotatus caspius et Oc. detritus, deux espèces de moustiques fréquemment rencontrées en Tunisie, font l’objet de traitements insecticides en vue de limiter leur nuisance. Cependant, la portée de ces traitements demeure limitée compte tenu des grandes étendues de leurs biotopes larvaires et du caractère synchrone de leurs éclosions. Le but de cette étude vise à caractériser, à travers des analyses multivariées (AFC, CHA), la niche écologique de chaque espèce afin de définir des plans d’intervention plus adaptés. Nos résultats montrent que les abondances larvaires d’Oc. caspius et Oc. detritus sont principalement corrélées au couvert végétal et à la salinité des gîtes larvaires. En effet, Oc. detritus se développe abondamment dans les milieux fortement salés dominés par Sarcocornia fruticosa, alors qu’Oc. caspius est associé à une végétation plus diversifiée supportant une salinité moindre dominée par Juncus maritimus, et développant une litière végétale plus abondante.     

Enhanced tolerance to salinity following cellular acclimation to increasing NaCl levels in Medicago truncatula

Salinity is a major abiotic stress that limits plant productivity. Plants respond to salinity by switching on a coordinated set of physiological and molecular responses that can result in acclimation. Medicago truncatula is an important model legume species, thus understanding salt stress responses and acclimation in this species is of both fundamental and applied interest. The aim of this work was to test whether acclimation could enhance NaCl tolerance in calli of M. truncatula. A new protocol is described incorporating multi-step up acclimation over 0–350 mM exogenous NaCl. By the end of the experiment, calli were tolerant to 150 mM and competent for embryogenesis at 100 mM NaCl. Positive and negative linear relationships between Na⁺ and K⁺ uptake and exogenous NaCl concentration intercepted at 160 mM suggesting a Na⁺/K⁺ homeostasis. Proline level peaked at 100/150 mM whilst highest osmolarity and lowest water content occurred at 250/350 mM NaCl. The concentration of water soluble sugars was positively related to 0–250 mM NaCl whilst callus growth and embryogenesis occurred regardless of endoreduplication. Expression of genes linked to growth (WEE1), in vitro embryogenesis (SERK), salt tolerance (SOS1), proline synthesis (P5CS) and ploidy level (CCS52 and WEE1) peaked at 100/150 mM NaCl. Hence, these genes and various physiological traits except sugar levels, served as useful markers of NaCl tolerance. To our knowledge, this is the first report of a multi-step acclimation conferring tolerance to 150 mM NaCl in leaf-derived calli of M. truncatula.     

Effectiveness of entomopathogenic nematodes Steinernema feltiae and Heterorhabditis bacteriophora on the Colorado potato beetle Leptinotarsa decemlineata (Say) (Coleoptera: Chrysomelidae) under laboratory and greenhouse conditions

In laboratory and greenhouse studies, the invading ability, virulence, and mortality caused by Stinernema feltiae and Heterorhabditis bacteriophora were compared. After one and two days of exposure to either nematode species, the mortality of Colordo potato beetle (CPB) Leptinotarsa decemlineata larvae at different instars, third and fourth, was recorded and the number of nematodes invading cadavers was more than the number of nematodes inside the larvae at the late last instar (one day before pre-pupa). Two concentrations, 250 and 500 IJs/dish, infective juvenile nematodes/0.5 ml were tested on different CPB larval instar. S. feltiae was more effective, with fourth instar rather than third and late last instar. On the other hand, H. bacteriophora showed a very weak effect with L. decemlineata. Also it was clear that S. feltiae was more effective and faster than H. bacteriophora: more than 70% of larvae were killed within 24 hours compared with H. bacteriophora which killed 40% of larvae within 48–72 hours. A significant difference in invading efficiency was observed with concentration 2500 IJs/pot in the greenhouse test. The number of adult females found in the cadavers of L. decemlineata larvae was always higher than the number of males. Foliage application of S. feltiae and H. bacteriophora resulted in a significant reduction of the number of damaged leaves and a lower index of damage compared with that in the control. We conclude that S. feltiae has significant potential and can help in the management of the Colorado potato beetle.     

Validation of the organic electrochemical transistor for in vitro toxicology

Background

The gastrointestinal epithelium provides a physical and biochemical barrier to the passage of ions and small molecules; however this barrier may be breached by pathogens and toxins. The effect of individual pathogens/toxins on the intestinal epithelium has been well characterized: they disrupt barrier tissue in a variety of ways, such as by targeting tight junction proteins, or other elements of the junctions between adjacent cells. A variety of methods have been used to characterize disruption in barrier tissue, such as immunofluorescence, permeability assays and electrical measurements of epithelia resistance, but these methods remain time consuming, costly and ill-suited to diagnostics or high throughput toxicology.

Methods

The advent of organic electronics has created a unique opportunity to interface the worlds of electronics and biology, using devices such as the organic electrochemical transistor (OECT), whose low cost materials and potential for easy fabrication in high throughput formats represent a novel solution for assessing epithelial tissue integrity.

Results

In this study, OECTs were integrated with gastro-intestinal cell monolayers to study the integrity of the gastrointestinal epithelium, providing a very sensitive way to detect minute changes in ion flow across the cell layer due to inherent amplification by the transistor.

Major conclusions

We validate the OECT against traditional methods by monitoring the effect of toxic compounds on epithelial tissue. We show a systematic characterization of this novel method, alongside existing methods used to assess barrier tissue function.

General significance

The toxic compounds induce a dramatic disruption of barrier tissue, and the OECT measures this disruption with increased temporal resolution and greater or equal sensitivity when compared with existing methods. This article is part of a Special Issue entitled Organic Bioelectronics — Novel Applications in Biomedicine.     

A novel and efficient ligand-based virtual screening approach using the HWZ scoring function and an enhanced shape-density model

In this work, we extend our previous ligand shape-based virtual screening approach by using the scoring function Hamza–Wei–Zhan (HWZ) score and an enhanced molecular shape-density model for the ligands. The performance of the method has been tested against the 40 targets in the Database of Useful Decoys and compared with the performance of our previous HWZ score method. The virtual screening results using the novel ligand shape-based approach demonstrated a favorable improvement (area under the receiver operator characteristics curve AUC?=?.89?±?.02) and effectiveness (hit rate HR^1%?=?53.0%?±?6.3 and HR^10%?=?71.1%?±?4.9). The comparison of the overall performance of our ligand shape-based method with the highest ligand shape-based virtual screening approach using the data fusion of multi queries showed that our strategy takes into account deeper the chemical information of the set of active ligands. Furthermore, the results indicated that our method are suitable for virtual screening and yields superior prediction accuracy than the other study derived from the data fusion using five queries. Therefore, our novel ligand shape-based screening method constitutes a robust and efficient approach to the 3D similarity screening of small compounds and open the door to a whole new approach to drug design by implementing the method in the structure-based virtual screening.     

Erratum to: Synthesis,Reactions, and Antimicrobial Activity of Novel Heterocyclic Compounds Containing Cyclopenta[d]thieno[2,3-b]pyridine Moiety and Related Fused Heterocycles

Russian Journal of Bioorganic Chemistry - An Erratum to this paper has been published: https://doi.org/10.1134/S1068162020060060     

The pro‐inflammatory effect of NR4A3 in osteoarthritis

NR4A3 is a member of nuclear receptor subfamily 4, which is an important regulator of cellular function and inflammation. In this study, high expression of NR4A3 in human osteoarthritis (OA) cartilage was firstly observed. To explore the relationship between NR4A3 and OA, we used a lentivirus overexpression system to simulate its high expression and study its role in OA. Additionally, siRNA‐mediated knockdown of NR4A3 was used to confirm the findings of overexpression experiments. The results showed the stimulatory effect of IL‐1β on cartilage matrix‐degrading enzyme expression such as MMP‐3, 9, INOS and COX‐2 was enhanced in NR4A3‐overexpressed chondrocytes and decreased in NR4A3‐knockdown chondrocytes at both mRNA and protein levels, while IL‐1β‐induced chondrocyte‐specific gene (collagen 2 and SOX‐9) degradation was only regulated by NR4A3 at protein level. Furthermore, overexpression of NR4A3 would also enhance EBSS‐induced chondrocytes apoptosis, while knockdown of NR4A3 decreased apoptotic level after EBSS treatment. A pathway study indicated that IL‐1β‐induced NF‐κB activation was enhanced by NR4A3 overexpression and reduced by NR4A3 knockdown. We suggest that NR4A3 plays a pro‐inflammatory role in the development of OA, and we also speculate that NR4A3 mainly regulates cartilage matrix‐degrading gene expression under inflammatory conditions via the NF‐κB pathway.     

A distributed three-channel wireless Functional Electrical Stimulation system for automated triggering of stimulation to enable coordinated task execution by patients with neurological disease

Functional Electrical Stimulation (FES) is a technique used to improve mobility and function for patients suffering some neurological related diseases such us Multiple Sclerosis (MS) and stroke. Some patients might require FES applied in more than one location depending on the extent of the neurological condition. Currently, this can be achieved using multi-channel FES systems. However, these systems can be bulky and impractical in daily usage. This research investigates using a wireless distributed FES system to overcome some of the limitations of the current multi-channel systems. A prototype of a three-channel FES system was built and tested. The prototype is used for drop foot stimulation and reciprocal arm swing stimulation while the user is walking, and for elbow extension and wrist/fingers opening stimulation if triggered while standing or sitting. A pilot study was designed to evaluate the reliability and repeatability of the system with 11 healthy volunteers without applying stimulation. This was followed by a case study with a hemiplegic person. The results indicate that the system can successfully detect and generate output responses appropriate to the input signals from the body sensors.     

Self-Gated CINE MRI for Combined Contrast-Enhanced Imaging and Wall-Stiffness Measurements of Murine Aortic Atherosclerotic Lesions

Background

High-resolution contrast-enhanced imaging of the murine atherosclerotic vessel wall is difficult due to unpredictable flow artifacts, motion of the thin artery wall and problems with flow suppression in the presence of a circulating contrast agent.

Methods and Results

We applied a 2D-FLASH retrospective-gated CINE MRI method at 9.4T to characterize atherosclerotic plaques and vessel wall distensibility in the aortic arch of aged ApoE^−/− mice after injection of a contrast agent. The method enabled detection of contrast enhancement in atherosclerotic plaques in the aortic arch after I.V. injection of micelles and iron oxides resulting in reproducible plaque enhancement. Both contrast agents were taken up in the plaque, which was confirmed by histology. Additionally, the retrospective-gated CINE method provided images of the aortic wall throughout the cardiac cycle, from which the vessel wall distensibility could be calculated. Reduction in plaque size by statin treatment resulted in lower contrast enhancement and reduced wall stiffness.

Conclusions

The retrospective-gated CINE MRI provides a robust and simple way to detect and quantify contrast enhancement in atherosclerotic plaques in the aortic wall of ApoE^−/− mice. From the same scan, plaque-related changes in stiffness of the aortic wall can be determined. In this mouse model, a correlation between vessel wall stiffness and atherosclerotic lesions was found.