Temporal and spatial trends in heavy metal concentrations in the marine mussel Mytilus edulis from the Western Scheldt estuary (The Netherlands)

Since the first North Sea Conference (1984, Bremen), all countries bordering the North Sea made commitments to reduce discharge of hazardous substances into the North Sea. From Belgium and The Netherlands, large reductions (upto 90) in heavy metal emissions from land-based sources have been reported between 1985 and 2000. Recently, some studies in the Western Scheldt estuary (WS) have shown that total metal concentration in the water, sediments and suspended particles have decreased compared to levels in the 70s. However, data on aquatic organisms is still very limited and it is therefore difficult to confirm whether the reductions in pollution input and generally improving water quality in the WS have a corresponding impact on the levels of heavy metals in aquatic organisms. The current study measured metal concentrations in the soft tissues of mussels, Mytilus edulis (known to be good indicators of environmental metal pollution) during the period 1996–2002. Spatial (salinity and pollution gradients), temporal and seasonal variations were also studied. Results showed a down-stream decreasing trend for the metals studied (Cd, Co, Cr, Cu, Fe, Mn, Ni, Pb and Zn) during all sampling campaigns. There was also a significant seasonal effect on tissue metal concentrations, with a peak observed around spring in both WS and the nearby less polluted Eastern Scheldt (ES). On temporal trends, a clear drop of metals in mussels was observed in the early 80s coinciding with the start of the efforts to reduce chemical pollution input into the North Sea. Since those early reductions, metal concentrations in mussels generally remained unchanged upto mid 90s. However, in recent times metal concentration in mussels have increased significantly, for example Cd in 2002 was almost 10 times the values in 1983 and similar to levels seen during the peak in the 70s. Other metals also increased in the 90s also reaching levels seen in the 70s. As there is no indication of recent increase in metal input into the estuary, we suggest that increased metal concentrations observed in mussels in recent years especially in the upper estuary are most likely a result of changes in physical and chemical speciation and metal bioavailability. Such changes may be caused by changes in some water quality parameters in the estuary (i.e. increased dissolved oxygen, concentration of organic matter), resulting in conditions that favour releases of sediment-bound metals into the water column. The relationship between metal content and season showed very similar annual profiles in the polluted WS and less polluted ES. Thus, seasonal variations in metal concentrations appear to be largely controlled by biological processes, while total body burdens are dependent on environmental levels and bioavailability.     

Evaluation of nanoselenium and nanogold activities against murine intestinal schistosomiasis

Nanomedicine is one of the most important methods used to treat human diseases including parasitic diseases. Schistosomiasis is a major parasitic disease that affects human health in tropical regions. Whilst Praziquantel is the main classic antischistosomal drug, new drugs are required due to the poor effect of the drug on the parasite juveniles and immature worms, and the emergence of drug resistant strains of Schistosoma. The present study aimed to examine the curative roles of both gold and selenium nanoparticles on jejunal tissues of mice infected with Schistosoma mansoni. Transmission electron microscopy was used for characterization of nanoparticles. Gold nanoparticles of 1 mg/kg mice body weight and selenium nanoparticles 0.5 mg/kg body weight were inoculated separately into mice infected with S. mansoni. The parasite induced a significant decrease in glutathione levels; however, the levels of nitric oxide and malondialdehyde were significantly increased. Additionally, the parasite introduced deteriorations in histological architecture of the jejunal tissue. Treatment of mice with metal nanoparticles reduced the levels of body weight changes, oxidative stress and histological impairment in the jejunal tissue significantly. Therefore, our results revealed the protective role of both selenium and gold nanoparticles against jejunal injury in mice infected with S. mansoni.     

Blood parasites of livestock in certain Regions in Saudi Arabia

Blood samples from camels, sheep, goats and cattle from six Regions in Saudi Arabia were examined for blood parasites. Asir Region camels were disinfected while those of the Eastern, Jazan, Northern Frontiers, Riyadh and Tabouk Regions were infected with Trypanosoma evansi (5–40%), those of Riyadh and the Eastern Regions were infected with Dipetalonema evansi (1–6%) and those of the Eastern, Jazan and Riyadh Regions were infected with Eperythrozoon species (8–20%). Sheep and goats of all tested regions were infected with Theilaria hirci (4–20% and 6–14%, respectively), Theilaria ovis (5–19% and 6–24%, respectively) and Eperthrozoon ovis (2–9% and 2–8%, respectively). Sheep of the Eastern and Northern Frontiers Regions were also infected with Anaplasma ovis (2%) and also those of the Eastern Region were infected with Babesia motasi (4%) as well. Cattle of Asir and Eastern Regions were infected with Anaplasma marginale (1–3.4%) and those of the Eastern, Jazan and Riyadh Regions were infected with Theileria annulata (11.3–25%) and Eperthrozoon wenyoni (1–4%). Moreover, Jazan cattle were infected with Babesia bigemina (6%) and a benign Theileria species (27%). Some of these parasites are recorded in new localities indicating that they are spreading in the country. Also, this is the first report in Saudi Arabia of D. evansi in camels, A. ovis and B. motasi in sheep and A. marginale and B. bigemina in cattle. These parasites may be introduced into the country with infected livestock infested with the vectors of these parasites. The suspected vectors of the detected parasites in Saudi Arabia is discussed. Follow up surveys of blood parasites are recommended to assess their distribution and infection rates in the livestock of all Regions of Saudi Arabia, to make plans for control measures against their vectors.     

Does the presence of grassy strips and landscape grain affect the spatial distribution of aphids and their carabid predators?

• 1 We investigated, over the course of 2 years, the spatial distribution and abundance of two species of aphid, Metopolophium dirhodum and Sitobion avenae, and predatory species of carabid. This was undertaken in 24 wheat fields in ‘coarse‐grain’ and ‘fine‐grain’ landscapes in western France. A greater percentage of the latter landscape was covered by hedgerows and grassland and the total area covered by fields and the average size of the fields were smaller.
• 2 The effects on aphid abundance of the distance from field margins, the presence of grassy strips and carabid abundance were determined in both landscapes.
• 3 Both aphid species were more abundant in the ‘fine‐grain’ landscape, which may have been a result of the higher density of semi‐natural elements. In both types of landscape, the total numbers of aphids were negatively correlated with the distance from the field margin. This may have been because aphids were dispersing from overwintering sites in field margins. The abundance of M. dirhodum was strongly negatively correlated with the presence of grassy strips in the ‘coarse‐grain’ landscape, although there were no such significant correlations for either of the aphid species in the ‘fine‐grain’ landscape.
• 4 Aphid and carabid abundances were negatively correlated in the ‘fine‐grain’ and positively in ‘coarse‐grain’ landscape.
• 5 The results obtained in the present study emphasize the importance of semi‐natural areas in agricultural landscapes in shaping the spatial distribution of aphids and carabid beetles, their natural enemies, at different spatial scales.

     

Effect of decimation on the classification rate of non-linear analysis methods applied to uterine EMG signals

Recently, much attention has been paid to the use of non-linear analysis techniques for the characterization of biological signals. Several measures have been proposed to detect non-linear characteristics in time series. The effect of sampling frequency on the performance of these non-linear methods has rarely been evaluated. In this paper, we present a preliminary study of this effect for four methods that are widely used in non-linearity detection: Time reversibility, Sample Entropy, Lyapunov Exponents and Delay Vector Variance. These methods have been applied to real uterine EMG signals with the aim of distinguishing between pregnancy and labor contractions. The signals were used to classify contractions before and after decimating them by a factor 10. The results show that decimation improves the performance for sample entropy. It reduces it considerably for Delay Vector Variance and only slightly for Time reversibility and Lyapunov exponents. Time reversibility still gives the highest classification rate. The methods were much less computationally expensive after down sampling.     

Antioxidant activity of brown alga Saccharina bongardiana from Kamchatka (Pacific coast of Russia). A methodological approach

The present study aims to investigate the levels of polyphenols and antioxidant activity in one of the most important commercial species of seaweeds in Kamchatka, an edible brown seaweed Saccharina bongardiana. Six extracts of S. bongardiana, acetone, methanol, ethanol, and the respective 70 % aqueous solutions, were assessed for total phenol content in order to determine the most efficient extracting solvent. The total phenol content was measured by the Folin–Ciocalteu method and expressed as phloroglucinol equivalents (PGE). The antioxidant tests used were 2, 2-diphenyl-1-picrylhydrazyl (DPPH) radical scavenging assay, linoleic acid-β carotene oxidation inhibiting assay, and Fe²⁺ ion chelating method. Higher phenolic contents were obtained using aqueous organic solvents, as compared to the respective absolute solvents; 70 % acetone was found to be the most efficient solvent (1.039 mg PGE 100 mg^?1 dry algal powder). High significant correlations were noted between total phenol content and the tested antioxidant activities; so the aqueous organic extracts exhibited the highest antioxidant activities versus DPPH radicals (EC₅₀ values of 0.6–1.1 mg dry weight (DW) mL^?1), linoleic acid-β carotene oxidation (74–78 % at 0.8 mg DW mL^?1), as well as ferrous ions (EC₅₀ values of 5.0–7.9 mg DW mL^?1). Some methodological recommendations regarding the assays used and the expression of results are proposed.     

Subunit Interactions and Requirements for Inhibition of the Yeast V1-ATPase

Disassembly of the yeast V-ATPase into cytosolic V₁ and membrane V₀ sectors inactivates MgATPase activity of the V₁-ATPase. This inactivation requires the V₁ H subunit (Parra, K. J., Keenan, K. L., and Kane, P. M. (2000) J. Biol. Chem. 275, 21761–21767), but its mechanism is not fully understood. The H subunit has two domains. Interactions of each domain with V₁ and V₀ subunits were identified by two-hybrid assay. The B subunit of the V₁ catalytic headgroup interacted with the H subunit N-terminal domain (H-NT), and the C-terminal domain (H-CT) interacted with V₁ subunits B, E (peripheral stalk), and D (central stalk), and the cytosolic N-terminal domain of V₀ subunit Vph1p. V₁-ATPase complexes from yeast expressing H-NT are partially inhibited, exhibiting 26% the MgATPase activity of complexes with no H subunit. The H-CT domain does not copurify with V₁ when expressed in yeast, but the bacterially expressed and purified H-CT domain inhibits MgATPase activity in V₁ lacking H almost as well as the full-length H subunit. Binding of full-length H subunit to V₁ was more stable than binding of either H-NT or H-CT, suggesting that both domains contribute to binding and inhibition. Intact H and H-CT can bind to the expressed N-terminal domain of Vph1p, but this fragment of Vph1p does not bind to V₁ complexes containing subunit H. We propose that upon disassembly, the H subunit undergoes a conformational change that inhibits V₁-ATPase activity and precludes V₀ interactions.V-ATPases are ubiquitous proton pumps responsible for compartment acidification in all eukaryotic cells (1, 2). These pumps couple hydrolysis of cytosolic ATP to proton transport into the lysosome/vacuole, endosomes, Golgi apparatus, clathrin-coated vesicles, and synaptic vesicles. Through their role in organelle acidification, V-ATPases are linked to cellular functions as diverse as protein sorting and targeting, zymogen activation, cytosolic pH homeostasis, and resistance to multiple types of stress (3). They are also recruited to the plasma membrane of certain cells, where they catalyze proton export (4, 5).V-ATPases are evolutionarily related to ATP synthases of bacteria and mitochondria and consist of two multisubunit complexes, V₁ and V₀, which contain the sites for ATP hydrolysis and proton transport, respectively. Like the ATP synthase (F-ATPase), V-ATPases utilize a rotational catalytic mechanism. ATP binding and hydrolysis in the three catalytic subunits of the V₁ sector generate sequential conformational changes that drive rotation of a central stalk (6–8). The central stalk subunits are connected to a ring of proteolipid subunits in the V₀ sector that bind protons to be transported. The actual transport is believed to occur at the interface of the proteolipids and V₀ subunit a. Rotational catalysis will be productive in proton transport only if V₀ subunit a is held stationary, whereas the proteolipid ring rotates (8). This “stator function” resides in a single peripheral stalk in F-ATPases (9, 10), but is distributed among up to three peripheral stalks in V-ATPases (11–13). The peripheral stator stalks link V₀ subunit a to the catalytic headgroup and ensures that there is rotation of the central stalk complex relative to the V₀ a subunit and catalytic headgroup.Eukaryotic V-ATPases are highly conserved in both their overall structure and the sequences of individual subunits. Although homologs of most subunits of eukaryotic V-ATPases are present in archaebacterial V-ATPases (also known as A-ATPases), the C and H subunits are unique to eukaryotes. Both subunits have been localized at the interface of the V₁ and V₀ sectors, suggesting that they are positioned to play a critical role in structural and functional interaction between the two sectors (14–16). The yeast C and H subunits are the only eukaryotic V-ATPase subunits for which x-ray crystal structures are available (17, 18). The structure of the C subunit revealed an elongated “dumbbell-shaped” molecule, with foot, head, and neck domains (18). The structure of the H subunit indicated two domains. The N-terminal 348 amino acids fold into a series of HEAT repeats and are connected by a 4-amino acid linker to a C-terminal domain containing amino acids 352–478 (17). These two domains have partially separable functions in the context of the assembled V-ATPase (19). Complexes containing only the N-terminal domain of the H subunit (H-NT)² supported some ATP hydrolysis but little or no proton pumping in isolated vacuolar vesicles (19, 20). The C-terminal domain (H-CT) assembled with the rest of the V-ATPase in the absence of intact subunit H, but supported neither ATPase nor proton pumping activity (19). However, co-expression of the H-NT and H-CT domains results in assembly of both sectors with the V-ATPase and allows increased ATP-driven proton pumping in isolated vacuolar vesicles. These results suggest that the H-NT and H-CT domains play distinct and complementary roles even when the two domains are not covalently attached.In addition to their role as dedicated proton pumps, eukaryotic V-ATPases are also distinguished from F-ATPases and archaeal V-ATPases in their regulation. Eukaryotic V-ATPases are regulated in part by reversible disassembly of the V₁ complex from the V₀ complex (1, 21, 22). In yeast, disassembly of previously assembled complexes occurs in response to glucose deprivation, and reassembly is rapidly induced by glucose readdition to glucose-deprived cells. Disassembly down-regulates pump activity, and both the disassembled sectors are inactivated. Inhibition of ATP hydrolysis in free V₁ sectors is particularly critical, because release of an active ATPase into the cytosol could deplete cytosolic ATP stores. This inhibition is dependent in part on the H subunit. V₁ complexes isolated from vma13Δ mutants, which lack the H subunit gene (V₁(-H) complexes) have MgATPase activity. Consistent with a physiological role for H subunit inhibition of V₁, heterozygous diploids containing elevated levels of free V₁ complexes without subunit H have severe growth defects (23). V₁ complexes containing subunit H have no MgATPase activity, but retain some CaATPase activity, suggesting a role for nucleotides in inhibition (24, 25). Consistent with such a role, both the CaATPase activity of native V₁ and the MgATPase activity of V₁(-H) complexes are lost within a few minutes of nucleotide addition (24).A number of points of interaction between the H subunit and the V₁ and V₀ complexes have been identified through two-hybrid assays, binding of expressed proteins, and cross-linking experiments. These experiments have indicated that the H subunit binds to V₁ subunits E and G of the V-ATPase peripheral stalks (26, 27), the catalytic subunit (V₁ subunit A) (28), regulatory V₁ subunit B (15), and the N-terminal domain of subunit a (28). Recently, Jeffries and Forgac (29) have found that cysteines introduced into the C-terminal domain of subunit H can be cross-linked to subunit F in isolated V₁ sectors via a 10-Å cross-linking reagent.In this work, we examine both the subunit-subunit interactions and functional roles of the H-NT and H-CT domains in inhibition of V₁-ATPase activity. When expressed in yeast cells lacking subunit H, H-NT can be isolated with cytosolic V₁ complexes, but H-CT cannot. We find that both of these domains contribute to inhibition of ATPase activity, but that stable binding to V₁ and full inhibition of activity requires both domains. We also find that the H-CT can bind to the cytosolic N-terminal domain of V₀ subunit Vph1p (Vph1-NT) in isolation, but does not support tight binding of Vph1-NT to isolated V₁ complexes.     

LINGO1 variants in the French-Canadian population

Essential tremor (ET) is a complex genetic disorder for which no causative gene has been found. Recently, a genome-wide association study reported that two variants in the LINGO1 locus were associated to this disease. The aim of the present study was to test if this specific association could be replicated using a French-Canadian cohort of 259 ET patients and 479 ethnically matched controls. Our genotyping results lead us to conclude that no association exists between the key variant rs9652490 and ET (P_corr = 1.00).     

Fasciolagigantica: Parasitological and scanning electron microscopy study of the in vitro effects of ivermectin and/or artemether

Objective

To evaluate the in vitro effects of different concentrations of ivermectin and/or artemether on Fasciolagigantica worms and to study the parasitological changes and tegumental alterations using scanning electron microscopy (SEM).

Methods

Fasciola gigantica worms were incubated in vitro for 24 and 48 h with three concentrations of either ivermectin or artemether (10, 20 and 50 μg/ml) or both in half concentration of either (5, 10 and 25 μg/ml).

Results

Exposure of Fasciola worms to 25 + 25 μg/ml of combined drug regimens or to 50 μg/ml of either ivermectin or artemether for 48 h led to 100%, 41.7% and 75% worm killing which were accompanied by a significant reduction in egg laying capacity and significant increase in dead eggs maximally recorded in combined drug regimens. SEM of the flukes incubated for 48 h with combined drug regimens showed maximal tegumental disruption with swelling of the worm body, roughness, blebbing, sloughing and complete loss of spines. Disruption to the tegument of the flukes induced by artemether was more than that of ivermectin.

Conclusions

Artemether alone or combined with ivermectin in half doses had potent fasciocidal activities. Besides, half doses of combined drug regimens had higher ovicidal effects than each drug alone. In vivo studies are recommended to explore the efficacy of combined regimens against Fasciola infection.