Symmetrical distribution of amino acid neurotransmitters in the right and left cerebral cortex of the rat

The level and activity of seven amino acids were examined in both the right and left areas of the cerebral cortex of the rat in order to determine their respective symmetrical distribution. In the first experiment, alanine, glycine, threonine, serine, GABA, aspartate, and glutamate were measured in six different regions of the cortex: medial, sulcal, and dorsal prefrontal as well as parietal, temporal, and occipital. The differences in the level of these amino acids in symmetrical regions of either side of the cortex were not statistically significant. In the second experiment, the in vivo synthesis from the [¹⁴C]glucose precursor of three amino acids, glutamate, glutamine, and GABA was measured using the cortical push-pull perfusion technique in the freely moving rat. Although differences in synthesis were found between the prefrontal and parietal areas of the cortex, no changes occurred between right and left hemispheres. These results indicate that for the resting levels of the amino acids examined in this study, no differential asymmetric distribution exists between right or left cortical regions of the rat's brain.     

Effect of ethanol and other alkanols on the maltose transport system of Saccharomyces cerevisiae

Summary Maltose transport in S. cerevisiae was inhibited by ethanol and other alkanols in a non-competitive way. The Michaelis constant, K_m, for the sugar, with or without alkanols was 5.9 mM, whereas the maximum trans port capacity, V_max, decreased exponentially with alkanols concentration. The inhibitory capacity was positively correlated with the lipid solubility of the alkanols, indicating that inhibition is due to an alteration of the lipid environment of the maltose transport system in the plasma membrane.     

The metabolism of acetone in the pregnant rat

The administration of a single dose of acetone (100 mg/kg bw) to virgin and 21-day pregnant rats resulted in the appearance of relatively high concentrations of 1,2-propanediol, acetol and methylglyoxal in plasma and liver. In the fetuses no methylglyoxal was detectable. The acetone metabolism curves tend to indicate that the capacity for acetone disposal may be enhanced in the 48 hr-fasted pregnant rat, thus enabling the animal to re-use acetone metabolically, possibly for accelerated gluconeogenesis.     

PREVENTION-ACHD: PRospEctiVE study on implaNTable cardioverter-defibrillator therapy and suddeN cardiac death in Adults with Congenital Heart Disease; Rationale and Design

Background

Many adult congenital heart disease (ACHD) patients are at risk of sudden cardiac death (SCD). An implantable cardioverter-defibrillator (ICD) may prevent SCD, but the evidence for primary prevention indications is still unsatisfactory.

Study Design

PREVENTION-ACHD is a prospective study with which we aim to prospectively validate a new risk score model for primary prevention of SCD in ACHD patients, as well as the currently existing guideline recommendations. Patients are screened using a novel risk score to predict SCD as well as current ICD indications according to an international Consensus Statement. Patients are followed up for two years. The primary endpoint is the occurrence of SCD and sustained ventricular arrhythmias. The Study was registered at ClinicalTrials.gov (NCT03957824).

Conclusion

PREVENTION-ACHD is the first prospective study on SCD in ACHD patients. In the light of a growing and aging population of patients with more severe congenital heart defects, more robust clinical evidence on primary prevention of SCD is urgently needed.

     

Hepatic endothelial lipase activity in neonatal rat liver

Hepatic endothelial lipase (HEL) activity is as high in the neonatal (1-day old) rat liver as in adults. Most of the HEL activity is located at the capillaries since 75% of the total activity is released by heparin or collagenase perfusion. The residual activity (non-releasable) is located in hepatocytes and not in hemopoietic cells, which are the major cell type in neonatal liver. Per mg of protein, the HEL activity is 50% higher in neonatal than in adult hepatocytes. We suggest that neonatal hepatocytes have an increased capacity to synthesize and secrete HEL activity, so maintaining a high activity in the whole organ. it might contribute to the hepatic uptake of cholesterol from circulating lipoproteins, in a period in which endogenous cholesterol synthesis is known to be inhibited in the liver.     

CpG methylation frequency of TET2, GRIA2, and CDKN2A genes in the North Atlantic fin whale varies with age and between populations

Recovery rates for baleen whales that were decimated by exploitation vary between species and populations. Age determination is critical for the understanding of recovery trends and population structure, but determining age in free-ranging individuals remains challenging. Recent research has suggested that the methylation level of some genes in skin samples may provide age determinations with accuracy. We selected nine CpG sites from three genes (TET2, CDKN2A, and GRIA2) and analyzed them in 40 skin samples from known-age individuals pertaining to two different populations of fin whales from the North Atlantic. We observed significant correlations with age in five CpG sites. We used three of these CpG sites to perform an epigenetic age estimation. Predictions had a standard deviation of 2.94, but regression between observed and predicted ages showed a clear underestimation for older fin whales. For further development, we suggest: (1) screening for new CpG sites associated with age that exhibit higher variability between individuals, and (2) including older animals whenever the sampling allows it. We also observed subtle, but significant differences between the two populations studied in one of the CpG sites (TET2_CpG + 21). We attributed these differences to genetic differences or to the dissimilar environments that affect both populations.     

Biology of killer yeasts

Killer yeasts secrete proteinaceous killer toxins lethal to susceptible yeast strains. These toxins have no activity against microorganisms other than yeasts, and the killer strains are insensitive to their own toxins. Killer toxins differ between species or strains, showing diverse characteristics in terms of structural genes, molecular size, mature structure and immunity. The mechanisms of recognizing and killing sensitive cells differ for each toxin. Killer yeasts and their toxins have many potential applications in environmental, medical and industrial biotechnology. They are also suitable to study the mechanisms of protein processing and secretion, and toxin interaction with sensitive cells. This review focuses on the biological diversity of the killer toxins described up to now and their potential biotechnological applications. Electronic Publication     

Superoxide dismutase, glutathione peroxidase, and glutathione reductase in sheep organs

The enzyme activities of the superoxide dismutase (SOD), glutathione peroxidase (GSHPx), glutathione reductase (GR) and thiobarbituric acid reactive substances (TBARS) content were measured in tissue extracts of the liver, kidney and lung of sheep in a nonpolluted control area (C), a polluted area pasture (PP) and those from polluted areas but fed in the laboratory with an experimental emission supplement diet (EEF). Compared with the control SOD, activity was significantly increased (1.75 times) only in the liver of the PP group. In the EEF group there was a tendency toward lower activities in all organs. The Cu,Zn-SOD isoenzymes pattern analyzed by isoelectrofocusing was different in the organs of the animals exposed to pollutants when compared with those of the controls. In the liver, two new isoenzymes with pI 5.30 and 5.70 were found in the PP group and an additional isoenzyme with pI 5.10 in the EEF group. The kidney isoenzymes with pl 5.30 and 5.40 were inhibited in the EEF group. In the lung, two new isoenzymes appeared with pl 5.30 and 5.40 in the PP group and two new isoenzymes with pI 6.10 and 6.50 in the EEF group. GSHPx activity was inhibited in the liver and kidney of the sheep exposed to pollutants. GR activity was significantly changed only in the liver. The activity in the PP group was 2.30 and 2.10 times higher than in the C and EEF groups, respectively. TBARS content was increased in the liver and kidney of the EEF group compared with the control.     

The in vitro interaction with DNA of several hypoxic radiosensitizers

The five 5-nitroimidazole derivatives and the four glyoxylic compounds tested in this paper for their interaction with DNA with and without irradiation had previously been reported to act as radiosensitizers at a cellular level. Our aim was to find if the radiosensitizing activity of these products could be due to their interaction with DNA. For this purpose the formation of a complex was tested by comparing the spectrophotometrical absorbances of (DNA-product) solutions with those of DNA and of the products, at the absorption maxima of the products. None of the products formed in vitro a complex with DNA. The irradiation of product solutions with and without DNA induced a molecular degradation of the product which was linearly correlated with the radiation dose. The G values characterizing this radiodegradation showed that the presence of DNA did not modify the radiosensitivity of the products, neither in aerobic nor under hypoxic irradiation conditions. These results proved that the radiosensitizing properties of these compounds cannot be attributed to their chemical interaction with DNA.