Alcohol worsens acute lung injury by inhibiting alveolar sodium transport through the adenosine A1 receptor

Objective

Alcohol intake increases the risk of acute lung injury (ALI) and the acute respiratory distress syndrome (ARDS) and is associated with poor outcomes in patients who develop these syndromes. No specific therapies are currently available to treat or decrease the risk of ARDS in patients with alcoholism. We have recently shown increased levels of lung adenosine inhibit alveolar fluid clearance, an important predictor of outcome in patients with ARDS. We hypothesized that alcohol might worsen lung injury by increasing lung adenosine levels, resulting in impaired active Na⁺ transport in the lung.

Methods

We treated wild-type mice with alcohol administered i.p. to achieve blood alcohol levels associated with moderate to severe intoxication and measured the rate of alveolar fluid clearance and Na,K-ATPase expression in peripheral lung tissue and assessed the effect of alcohol on survival during exposure to hyperoxia. We used primary rat alveolar type II cells to investigate the mechanisms by which alcohol regulates alveolar Na⁺ transport.

Results

Exposure to alcohol reduced alveolar fluid clearance, downregulated Na,K-ATPase in the lung tissue and worsened hyperoxia-induced lung injury. Alcohol caused an increase in BAL fluid adenosine levels. A similar increase in lung adenosine levels was observed after exposure to hyperoxia. In primary rat alveolar type II cells alcohol and adenosine decreased the abundance of the Na,K-ATPase at the basolateral membrane via a mechanism that required activation of the AMPK.

Conclusions

Alcohol decreases alveolar fluid clearance and impairs survival from acute lung injury. Alcohol induced increases in lung adenosine levels may be responsible for reduction in alveolar fluid clearance and associated worsening of lung injury.     

Mitochondrial Complex III-generated Oxidants Activate ASK1 and JNK to Induce Alveolar Epithelial Cell Death following Exposure to Particulate Matter Air Pollution

We have previously reported that airborne particulate matter air pollution (PM) activates the intrinsic apoptotic pathway in alveolar epithelial cells through a pathway that requires the mitochondrial generation of reactive oxygen species (ROS) and the activation of p53. We sought to examine the source of mitochondrial oxidant production and the molecular links between ROS generation and the activation of p53 in response to PM exposure. Using a mitochondrially targeted ratiometric sensor (Ro-GFP) in cells lacking mitochondrial DNA (ρ⁰ cells) and cells stably expressing a small hairpin RNA directed against the Rieske iron-sulfur protein, we show that site III of the mitochondrial electron transport chain is primarily responsible for fine PM (PM_2.5)-induced oxidant production. In alveolar epithelial cells, the overexpression of SOD1 prevented the PM_2.5-induced ROS generation from the mitochondria and prevented cell death. Infection of mice with an adenovirus encoding SOD1 prevented the PM_2.5-induced death of alveolar epithelial cells and the associated increase in alveolar-capillary permeability. Treatment with PM_2.5 resulted in the ROS-mediated activation of the oxidant-sensitive kinase ASK1 and its downstream kinase JNK. Murine embryonic fibroblasts from ASK1 knock-out mice, alveolar epithelial cells transfected with dominant negative constructs against ASK1, and pharmacologic inhibition of JNK with SP600125 (25 μm) prevented the PM_2.5-induced phosphorylation of p53 and cell death. We conclude that particulate matter air pollution induces the generation of ROS primarily from site III of the mitochondrial electron transport chain and that these ROS activate the intrinsic apoptotic pathway through ASK1, JNK, and p53.Epidemiologic studies have consistently demonstrated a strong link between the daily levels of particulate matter air pollution <2.5 μm in diameter (PM_2.5)³ and PM <10 μmin diameter (PM₁₀) and cardiopulmonary morbidity and mortality (1–3). In humans, exposure to PM₁₀ has been associated with an increase in mortality from ischemic cardiovascular events including stroke and myocardial infarction, an acceleration in the age-related decline in lung function in normal adults, impairment in normal lung development in children, exacerbations of asthma in children and adults, accelerated atherosclerosis in women, increased rates of lung cancer, and the development of myocardial ischemia in men with stable coronary artery disease (4–10). The intracellular generation of reactive oxygen species (ROS) has emerged as a common mechanism by which particulates might initiate signaling pathways that end in these diverse pathologic conditions (11). We have reported that the PM-induced generation of ROS requires a functional electron transport chain, suggesting that PM might induce the inadvertent transfer of electrons from one or more sites in the electron transport chain to molecular oxygen (12).One of the mechanisms by which exposure to PM can contribute to alveolar epithelial dysfunction, lung injury and inflammation, and lung cancer is by activating the intrinsic apoptotic pathway to induce cell death (11, 12). We have reported that this process requires the activation of p53; however, the molecular events linking the generation of ROS by the mitochondrial electron transport chain with the activation of p53 are not known (12). In this paper, we show that exposure of alveolar epithelial cells to PM_2.5 induces the generation of ROS from site III of the mitochondrial electron transport chain. These mitochondrially derived oxidants activate the mitogen-activated signaling kinase kinase kinase (MAPKKK) apoptosis signaling kinase 1 (ASK1), which activates the c-Jun N-terminal kinase (JNK) signaling pathway. The activation of JNK is required for the phosphorylation of p53 and the subsequent cell death. Inhibition of mitochondrial oxidant production in mouse lungs prevents PM_2.5-induced cell death and the associated PM_2.5-induced increase in the permeability of the alveolar-capillary barrier.     

Contribution to the taxonomy of Turkish Scorzonera (Asteraceae) taxa based on vegetative anatomy

In the present study, the general stem, root and leaf anatomical features of 59 Scorzonera L. s.l. (Asteraceae) taxa collected from Turkey are presented and evaluated by cluster and principal coordinate analysis. Numerical analyses based on 26 anatomical traits showed that arrangement of tracheal elements in the root, presence of cortical bundles, latex canals, secretory cells and aerenchyma in the stem and mesophyll are valuable for grouping Scorzonera taxa. Dendograms inferred from anatomical data were generally congruent with the traditional subgeneric classification of Scorzonera (Scorzonera L., Podospermum DC., Pseudopodospermum (Lipsch. et Krasch.) Lipsch.). However, the present study also show that the examined species may not be identified only based on the internal morphology of root, stem and leaf. In addition, the results support to treat Podospermum as a distinct genus.     

A new Chondrostoma species from the Büyük Menderes River Basin,Turkey (Teleostei: Cyprinidae)

In a study of the fishes of the Büyük Menderes River Basin, Aegean region of Turkey, two populations of Chondrostoma were found which showed clearly distinctive characters: the population from the Upper B. Menderes (I??kl? Lake) was attributed to C. meandrense Elvira, 1987, while the population from the Çine Stream in the Lower B. Menderes River basin proved to be a hitherto undescribed species: Chondrostoma turnai sp. n. Altogether 24 metric and 7 meristic parameters were compared. The new species is distinguished from C. meandrense and all other cogeners by a combination of the number of lateral line scales, the number of scale rows between the lateral line and the dorsal-fin origin, the number of scale rows of the lateral line and pelvic-fin origin, and the number of gill rakers on the first gill arch.

http://www.zoobank.org/urn:lsid:zoobank.org:pub:811C213D-BEDD-4C8C-AE57-BFFA7964781A     

Interleukin-6 in neuro-Behçet’s disease: Association with disease subsets and long-term outcome

Increased cerebrospinal fluid (CSF) IL-6 has been reported in patients with Behçet’s disease (BD) and neurological involvement. To elucidate the value of IL-6 as a marker of disease activity, serum and CSF IL-6 levels of 68 BD patients with acute (26) or chronic progressive (14) parenchymal involvement (pNB), dural sinus thrombosis (10), ischemic stroke (5) or headache (13) were measured by ELISA. Samples from multiple sclerosis, subacute sclerosing panencephalitis, and noninflammatory neurological disorders were used as controls. CSF but not serum samples of neuro-BD patients with acute pNB displayed significantly increased IL-6 levels as compared to other groups. Chronic progressive pNB patients also showed increased CSF IL-6 levels, albeit less prominent. Patients with increased CSF IL-6 levels were more likely to have increased CSF cell counts and total protein levels and these three parameters were correlated with long-term (3 years) disease outcome. In four chronic progressive patients, IL-6 was elevated despite otherwise normal CSF. CSF IL-6 seems to be a marker of disease activity and long-term outcome for pNB along with CSF cell count and protein levels. CSF IL-6 could be used in chronic progressive patients who have normal CSF cell, or protein levels to detect disease activity.     

Isolation of alcohol tolerant,osmotolerant and thermotolerant yeast strains and improvement of their alcohol tolerance by UV mutagenesis

In this study, the yeast strains were isolated from grapes by serial dilution technique to determine their alcohol-, sugar- and thermotolerance. 34 wild type yeast strains were isolated and alcohol-, sugar- and thermotolerance of these strains were determined. The maximum alcohol tolerance was found to be 9% (v/v) in yeast strain which is named Y2. Thermotolerance behavior of 6 strains were investigated. The strains were treated with UV light with intervals of 20, 30, 40 and 50 seconds. Selected resistant colonies were investigated for alcohol tolerance. It was found that alcohol tolerance increased from 9% (v/v) to 12% (v/v) on Y2 strain.     

Global regulatory systems operating in Bacilysin biosynthesis in Bacillus subtilis

In Bacillus subtilis, bacilysin is a nonribosomally synthesized dipeptide antibiotic composed of L-alanine and L-anticapsin. The biosynthesis of bacilysin depends on the bacABCDEywfG operon (bac operon)and the adjacent ywfH gene. To elucidate the effects of global regulatory genes on the expression of bac operon, we used the combination of lacZ fusion analysis and the gel mobility shift assays. The cell density-dependent transition state induction of the bac operon was clearly shown. The basal expression level of the bac operon as well as transition state induction of bac is directly ComA dependent. Three Phr peptides, PhrC, PhrF and PhrK, are required for full-level expression of ComA-dependent bac operon expression, but the most important role seemed to be played by PhrC in stimulating bac expression through a RapC-independent manner. Spo0A is another positive regulator which participates in the transition state induction of bac both directly by interacting with the bac promoter and indirectly by repressing abrB expression. AbrB and CodY proteins do not only directly repress the bac promoter, but they also mutually stimulate the transition state induction of bac indirectly, most likely by antagonizing their repressive effects without preventing each other's binding since both proteins can bind to the bac promoter simultaneously.     

The clinical significance of circulating miR-21, miR-142, miR-143, and miR-146a in patients with prostate cancer

BackgroundProstate cancer (PCa) is the most common type of solid tissue cancer among men in western countries. In this study, we determined the levels of circulating miR-21, miR-142, miR-143, miR-146a, and RNU 44 levels as controls for early diagnosis of PCa.MethodsThe circulating miRNA levels in peripheral blood samples from 43 localized PCa patients, 12 metastatic PCa (MET) patients, and a control group of, 42 benign prostate hyperplasia (BPH) patients with a total of 97 volunteers were determined the by PCR method.ResultsNo differences in the DCT values were found among the groups. In PCa and PCaMet groups the expression of miR21 and miR142 were higher compared to the BHP group. No other differences were observed among the other groups. miR21 expression in the PCa group was 6.29 folds upregulated whereas in the PCaMet group 10.84 folds up-regulated. When the total expression of miR142 is evaluated, it showed a positive correlation with mir21 and mir 146 (both p<0.001). Also, the expression of miR146 shows a positive correlation with both miR21 and miR143 (both p<0.001). Expression of miRNAs was found to be an independent diagnostic factor in patients with Gleason score, PSA, and free PSA levels.ConclusionsOur study showed that co-expression of miR21, miR-142, miR-143, and miR-146a and the upregulation of miR-21 resulted in increased prostate carcinoma cell growth. In the PCaMet group, miR21 is the most upregulated of all miRNAs. These markers may provide a novel diagnostic tool to help diagnose PCa with aggressive behavior.