Brain Polyamine Stress Response: Recurrence After Repetitive Stressor and Inhibition by Lithium

Abstract: We recently demonstrated that, unlike in peripheral tissues, the increase in activity of polyamine synthesizing enzymes observed in the brain after acute stress can be prevented by long-term, but not by short-term, treatment with lithium. In the present study we sought to examine the effects of chronic intermittent stress on two key polyamine synthesizing enzymes, ornithine decarboxylase and S-adenosylmethionine decarboxylase, and their modulation by lithium treatment. Adult male rats were subjected to 2 h of restraint stress once daily for 5 days and to an additional delayed stress episode 7 days later. Enzyme activities were assayed 6 h after the beginning of each stress episode. In contrast to the liver, where ornithine decarboxylase activity was increased (300% of the control) only after the first stress episode, the enzyme activity in the brain was increased after each stress episode (to ～170% of the control). Unlike ornithine decarboxylase activity, S-adenosylmethionine decarboxylase activity was slightly reduced after the first episode (86% of the control) but remained unchanged thereafter. After cessation of the intermittent stress period, an additional stress episode 7 days later led again to an increase in ornithine decarboxylase activity in the brain (225% of the control) but not in the liver, whereas S-adenosylmethionine decarboxylase activity remained unchanged. The latter increase in ornithine decarboxylase activity was blocked by lithium treatment during the intervening 7-day interval between stressors. The results warrant the following conclusions: (a) Repetitive application of stressors results in a recurrent increase in ornithine decarboxylase activity in the brain but to habituation of this response in the liver. (b) This brain polyamine stress response can be blocked by long-term (days) lithium treatment. (c) The study implicates an overreactive polyamine response as a component of the adaptive, or maladaptive, brain response to stressful events and as a novel molecular target for lithium action.     

Cognitive function in adolescence and the risk for premature diabetes and cardiovascular mortality in adulthood

Background

Epidemiological studies have demonstrated a relationship between cognitive function in youth and the future risk of death. Less is known regarding the relationship with diabetes related death. This study assessed the relationship between cognitive function in late adolescence and the risk for diabetes, cardiovascular- (CVD) and all-cause mortality in adulthood.

Methods

This retrospective study linked data from 2,277,188 16–19 year olds who had general intelligence tests (GIT) conducted during pre-military recruitment assessment with cause of death as coded by the Israel Central Bureau of Statistics. The associations between cognitive function and cause-specific mortality were assessed using Cox models.

Results

There were 31,268 deaths that were recorded during 41,916,603 person-years of follow-up, with a median follow-up of 19.2 (IQR 10.7, 29.5) years. 3068, 1443, 514 and 457 deaths were attributed to CVD, CHD, stroke, and diabetes, respectively. Individuals in the lowest GIT vs. highest GIT quintiles in unadjusted models had the highest risk for all-cause mortality (HR 1.84, 95% CI 1.78, 1.91), total CVD (HR 3.32, 95% CI 2.93, 3.75), CHD (HR 3.49 95% CI 2.92, 4.18), stroke (HR 3.96 95% CI 2.85, 5.5) and diabetes-related (HR 6.96 95% CI 4.68, 10.36) mortality. These HRs were attenuated following adjustment for age, sex, birth year, body-mass index, residential socioeconomic status, education and country of origin for all-cause (HR 1.23, 95% CI 1.17, 1.28), CVD (HR 1.76, 95% CI 1.52, 2.04), CHD (HR 1.7 95% CI 1.37, 2.11), stroke (HR 2.03, 95% CI 1.39, 2.98) and diabetes-related (HR 3.14 95% CI 2.00, 4.94) mortality. Results persisted in a sensitivity analyses limited to participants with unimpaired health at baseline and that accounted competing risk.

Conclusions

This analysis of over 2 million demonstrates a strong relationship between cognitive function at youth and the risk for diabetes, all-cause and CVD-related mortality independent of adolescent obesity.

     

Mechanisms of Salinity Control in Sea Bass

Sea bass can regulate the concentration of Na⁺, K⁺, and Cl^-, among other ions, in their blood, skin, gills, and kidney. Therefore, the salinity of the water does not have a great influence on their metabolism, and sea bass can live in both sea and freshwater in accordance with the salt concentration. Most salinity control occurs in the gills, primarily through the control of chloride cells present there. The concentration of ions in the blood is controlled by the cotransporter Na⁺ / K⁺ / 2Cl^- (NKCC) in the chloride cell, and the subunits of Na⁺ / K⁺ ATPase (NKA) function to maintain homeostasis. The expression of NKA is regulated by subunits of the protein FXYD, allowing the sea bass to survive in compliance with the salinity. In this way, it is possible for sea bass to live in sea and freshwater by controlling the salinity of its body using functions of various channels, proteins, and genes present in the chloride cells of sea bass. In this study, we investigated recent studies of salt control mechanisms in sea bass and their application.     

COMPARATIVE ELECTROPHORESIS AND ISOZYME ANALYSIS OF SEED PROTEINS FROM CULTIVATED RACES OF SORGHUM

Comparative disc electrophoresis of acidic proteins, basic proteins, and isozymes of esterase, MDH, and peroxidase were performed with aqueous extracts of seeds from seven cultivars belonging to five races of Sorghum bicolor ssp. bicolor: bicolor, caudatum, durra, guinea, and kafir. Two disc electrophoretic systems were employed. Acidic proteins were electrophoresed in an anionic system (tris-glycine buffer, pH 8.3). Basic proteins were electrophoresed in a cationic system (β-alanin-acetate buffer, pH 4.5). Soluble proteins were stained with Coomassie brilliant blue. Isozyme activity was detected by using specific enzyme stains and substrates. Each cultivar yielded reproducible, characteristic patterns of distinct acidic and basic proteins. Cultivars belonging to the same race produced identical protein and isozyme patterns. The degree of electrophoretic similarity among races was estimated by calculating similarity index values for each of the 10 possible pairs of races. Bicolor, caudatum, durra, and guinea produced very similar acidic and basic protein patterns and esterase, MDH, and peroxidase isozyme patterns. Differences, however, were observed among all races. All of kafir patterns were significantly different from the patterns of other races. Comparative electrophoresis may provide a new source of taxonomic characters for investigating phenetic and phylogenetic relationships in Sorghum.     

Calcitonin induced increase in ACTH, beta-endorphin and cortisol secretion

The response of ACTH, beta-endorphin and cortisol to calcitonin administration was investigated in 8 subjects with recent fractures of the vertebrae due to postmenopausal or senile osteoporosis (Ost) and in seven normal healthy controls (NC). A significant increase of the three hormones was observed in 13 subjects. The maximum increase was observed between 15 and 60 min.: the cortisol level (microgram/100 ml) rose from 14.3 +/- 1.9 to 24.8 +/- 3.2 (P less than 0.05) in Ost and from 7.7 +/- 0.6 to 21.7 +/- 1.7 (P less than 0.001) in NC, the beta-endorphin (pmol/l) from 5.8 +/- 0.6 and to 21.2 +/- 1.3 in OST (P less than 0.001) and from 5.9 +/- 0.4 to 21.9 +/- 4.5 (P less than 0.01) in NC and the ACTH levels (pg/ml) from 21.3 +/- 5.7 to 61.7 +/- 3.6 (P less than 0.001) in OST and from 30.0 +/- 6.2 to 58.8 +/- 7.5 (P less than 0.05) in NC. The results indicate a possible role of calcitonin in modulating the anterior pituitary function. It also suggests that the analgesic effect of calcitonin might be mediated by the increase of beta-endorphin. The possibility that this analgesic effect of calcitonin is due to its direct binding to the opiate receptors was excluded in the present study by in vitro binding assay.     

Histochemical localization of ornithine decarboxylase with a labelled suicidal enzyme inhibitor

We describe a new technique for cytochemical localization of ornithine decarboxylase by the use of a synthesized conjugate of rhodamine bound to α-difluoromethylornithine a suicidal inhibitor of the enzyme. The labelled inhibitor retained its specificity and irreversibility towards ornithine decarboxylase inhibition. Using this technique we have localized the enzyme in specific regions of the developing rat cerebellum. This novel technique may be generally applicable to other enzymes.     

The gene encoding vasoactive intestinal peptide is located on human chromosome 6p21→6qter

Summary Vasoactive intestinal peptide (VIP) is a regulatory neuropeptide involved in a wide variety of functions, among them vasodilation, smooth muscle relaxation, sweat secretion, gastrointestinal peristalsis, and pancreatic function. A deficient VIP-innervation of sweat glands was recently described as a possible pathogenic factor in sweating of cystic fibrosis (CF) patients. To investigate a possible role for a defective VIP-gene in cystic fibrosis, we have used a panel of rodent-human hybrid cells, retaining defined complements of human chromosomes to localize the VIP-gene to the human chromosome region 6p216qter. As the CF gene was recently mapped to chromosome 7, we conclude that the VIP-gene is not the primary gene defect in this disease.     

Novel Proteome Extraction Method Illustrates a Conserved Immunological Signature of MSI-H Colorectal Tumors

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Highlights

• •TOP: robust, bio-friendly FFPE proteome extraction method with less fixation bias.
• •Proteome of MSI-H colorectal cancer identifies immunobiology key elements.
• •MSI-H tumor displays an “INFg-STAT1 centric signature”.
• •Long-term IFNg induction In-vitro mimicks MSI-H signature.