The relative importance of spatial and environmental processes in the assembly of larval Chironomidae (Insecta,Diptera) communities along a transition landscape in southern Brazilian streams

Limnology - Metacommunity structure of stream invertebrates is contingent on complex interplays between species dispersal ability, spatial extent and watershed environmental specificities. Previous...     

Vie di ossidazione della frazione extramitocondriale dei coenzimi piridinici: I. - Sull'Efficienza In Vivo del sistema ascorbato/deidroascorbato

Abstract

OXIDATION PATHWAYS OF EXTRAMITOCHONDRIAL PIRIDINE COENZYMES. I. - ON THE « IN VIVO » EFFICIENCY OF THE ASCORBATE-DEYHDROASCORBATE SYSTEM. — An evaluation of the efficiency in vivo of the AA-DHA couple as an electron carrier system has been attempted, by measuring after short time of anaerobiosis the rate of the increase of AA and of the dicrease of DHA in etiolated pea internode segments and in potato tuber disks. The changes of reduced glutathione (GSH) contents as induced by anaerobiosis or by the addition of DHA to the incubation medium were also followed.

In the pea segments anaerobiosis induced a significant increase of AA and a corresponding decrease of DHA. These changes were almost completed after 10 minutes from starting anaerobiosis. The value (extrapolated to 0 time) of the initial rate of DHA desappearance under anaerobiosis was taken as representing the rate of DHA reduction to AA « in vivo », under aerobic conditions. As this rate — in a steady state situation — corresponds to that of the inverse process of oxidation of AA to DHA, this value should give and indication on the « in vivo » efficiency of the AA-DHA system as an electron carrier in respiration. As some AA was probably reoxidized to DHA in the very short period required to kill the tissue, the value of the AA DHA turnover thus calculated is probably somewhat lower than the real one.

According to the present work, the oxidative turnover of the AA-DHA system would results of 0,7 micromoles/g. fr. weght/h. for the pea internode tissues and of 0,9 micromoles/g. fr. weght^?h for the potato tuber (aged disks). These values would account for 5% of total oxygen uptake, in the former, and for 3% in the latter material.

The very high AA/DHA ratio usually prevailing in living cells suggests that the contents in DHA (and thus the activity of the AA oxidizing systems) is a limiting factor for the efficiency of the AA-DHA system as an electron carrier. This view is supported also by experiments in which DHA (at pH 5) was fed to pea internode segments and to potato tuber disks : as the presence of DHA into the medium induced — under anaerobiotic conditions — a rapid increase of the level of AA in both types of materials. In aerobiosis uptake and reduction of DHA to AA was evident in the potato tuber tissue, while it appeared very scarce in the pea internodes. As an interpretation of this behaviour it is suggested that, in aerobiosis, the very active and probably surface localized ascorbic acid oxidase of the pea tissue re-oxidises the AA formed from reduction of the DHA fed; an accumulation of DHA into the cells would follow, and this excess of DHA would inhibit the enzyme GSH-DHA reductase. This enzyme, in fact, appears, from « in vitro » experiments, to be strongly inhibited by DHA when the DHA/GSH ratio becomes higher than 1. On the other hand, the same hypothesis is also supported by the finding that the addition of DHA to the medium induces a significant drop in the GSH level (probably due to its oxidation to GSSG) only under those conditions in which DHA is absorbed and reduced to AA; that is, in the pea internodes, under anaerobiosis, and in the potato disks, under both anaerobiosis and aerobiosis. These results are also taken as confirming the indication from the enzymatic data that GSH is acting, in vivo as a reducing agent for DHA. The results of this investigation are thus interpred as showing that a comparatively small, but by no means negligeable fraction of respiration is mediated, in higher plant tissues such as those of the pea stem and the potato tuber, by and electron transfer system including glutathione and the ascorbate-dehydroascorbate couple. The efficiency of this system in the materials investigated appears to account for 3–5% of the total 0₂ uptake (minimum value). As enzyme systems transferring electrons from TPNH to ox. glutathione are widely distributed and generally very active in higher plant tissues, it is suggested that the sequence TPNH-GSH-AA/DHA - O₂ is probably of considerable importance in mediating the reoxidation of extramitochondrial trophosphoridine nucleotide and thus in permitting the operation of the TPN requiring pentose phosphate pathway of respiration.     

Note ecologiche su Petroglossum nicaeense (Duby) Schotter (Phyllophoraceae)

Abstract

Ecological researches on Petroglossum nicaeense. — Some environmental variables of the biotope where P. nicaeense grows are described; that is a superficial cave of the coastline of Bari (Adriatic). The distribution of this species in the Mediterranean is outlined and a classification of this alga on the basis of the criterion of the biological types is tried.     

A Multi-Target Real-Time PCR Assay for Rapid Identification of Meningitis-Associated Microorganisms

A central nervous system (CNS) infection, such as meningitis, is a serious and life-threatening condition. Bacterial meningitis can be severe and may result in brain damage, disability or even death. Rapid diagnosis of CNS infections and identification of the pathogenic microorganisms are needed to improve the patient outcome. Bacterial culture of a patient??s cerebrospinal fluid (CSF) is currently considered the ??gold standard?? for diagnosing bacterial meningitis. From the CSF cultures researchers can assess the in vitro susceptibility of the causative microorganism to determine the best antibiotic treatment. However, many of the culture assays, such as microscopy and the latex agglutination test are not sensitive. To enhance pathogen detection in CSF samples we developed a multi-target real-time PCR assay that can rapidly identify six different microorganisms: Streptococcus pneumoniae, Neisseria meningitidis, Haemophilus influenzae, Streptococcus agalactiae, Listeria monocytogenes and Cryptococcus neoformans. In this study we applied this PCR analysis to 296 CSF samples from patients who were suspected of having meningitis. Of the 296 samples that were examined, 59 samples were positive according to the CSF culture and/or molecular assays. Forty-six CSF samples were positive for both the CSF culture and our real-time PCR assay, while 13 samples were positive for the real-time PCR but negative for the traditional assays. This discrepancy may have been caused by the fact that these samples were collected from 23 patients who were treated with antimicrobials before CSF sampling.     

Pneumococcal immune evasion: ZmpC inhibits neutrophil influx

Neutrophil recruitment is essential in clearing pneumococcal infections. The first step in neutrophil extravasation involves the interaction between P‐selectin on activated endothelium and P‐Selectin Glycoprotein 1 (PSGL‐1) on neutrophils. Here, we identify pneumococcal Zinc metalloproteinase C as a potent inhibitor of PSGL‐1. ZmpC degrades the N‐terminal domain of PSGL‐1, thereby disrupting the initial rolling of neutrophils on activated human umbilical vein endothelial cells. Furthermore, mice infected with wild‐type strain in the model of pneumococcal pneumonia showed lower lungs neutrophil infiltration compare to animals infected with ZmpC mutant. In addition, we confirmed the association of zmpC with serotype 8 and 11A and found it to be associated with serotype 33F as well. In conclusion, wereport PSGL‐1 as a novel target for ZmpC and show that ZmpC inhibits neutrophil extravasation during pneumococcal pneumonia.     

Oxidative Stress and Erythrocyte Membrane Alterations in Children with Autism: Correlation with Clinical Features

It has been suggested that oxidative stress may play a role in the pathogenesis of Autism Spectrum Disorders (ASD), but the literature reports somewhat contradictory results. To further investigate the issue, we evaluated a high number of peripheral oxidative stress parameters, and some related issues such as erythrocyte membrane functional features and lipid composition. Twenty-one autistic children (Au) aged 5 to 12 years, were gender and age-matched with 20 typically developing children (TD). Erythrocyte thiobarbituric acid reactive substances, urinary isoprostane and hexanoyl-lysine adduct levels were elevated in Au, thus confirming the occurrence of an imbalance of the redox status of Au, whilst other oxidative stress markers or associated parameters (urinary 8-oxo-dG, plasma radical absorbance capacity and carbonyl groups, erythrocyte superoxide dismutase and catalase activities) were unchanged. A very significant reduction of Na⁺/K⁺-ATPase activity (−66%, p<0.0001), a reduction of erythrocyte membrane fluidity and alteration in erythrocyte fatty acid membrane profile (increase in monounsaturated fatty acids, decrease in EPA and DHA-ω3 with a consequent increase in ω6/ω3 ratio) were found in Au compared to TD, without change in membrane sialic acid content. Some Au clinical features appear to be correlated with these findings; in particular, hyperactivity score appears to be related with some parameters of the lipidomic profile and membrane fluidity. Oxidative stress and erythrocyte membrane alterations may play a role in the pathogenesis of ASD and prompt the development of palliative therapeutic protocols. Moreover, the marked decrease in NKA could be potentially utilized as a peripheral biomarker of ASD.