Mechanisms and implications of the age-associated decrease in DNA repair capacity.

Skin cancer incidence is clearly linked to UV irradiation and increases exponentially with age. We studied the rate of removal of thymine dimers and (6-4) photoproducts in UV-irradiated human dermal fibroblasts derived from donors of different ages. There was a significant decrease with aging in the repair rates of both thymine dimers and (6-4) photoproducts (P<0.001). In addition, there was an age-associated decrease in the protein levels of ERCC3, PCNA, RPA, XPA, and p53 that participate in nucleotide excision repair. Moreover, the mRNA levels of XPA, ERCC3, and PCNA were significantly reduced with aging, suggesting that these decreases are often regulated at the mRNA level. Furthermore, with age induction of p53 after UV irradiation was significantly reduced. Taken together, our data suggest that the age-associated decrease in the repair of UV-induced DNA damage results at least in part from decreased levels of proteins that participate in the repair process.     

Calcium-Dependent Transglutaminase of Rat Sympathetic Ganglion in Development and After Nerve Injury

The activity of transglutaminase (TG) was examined in the rat superior cervical ganglion (SCG) during development and after postganglionic nerve crush. During postnatal development the enzyme activity is increased by sevenfold in parallel to protein content of the ganglion and reaches adult levels by day 35 after birth. The endogenous activity (enzyme activity assayed in the absence of the exogenous substrate) during development is transiently elevated with a peak at day 21 postnatal. In the adult ganglion the enzyme specific activity is evenly distributed in all subcellular compartments, but most of it is contained in the cytosol. Within the first hour after axotomy TG activity is rapidly and transiently elevated. The peak value, 80% above control levels, is attained by 30 min postoperative. At this time the activity is increased in all subcellular fractions, but the endogenous activity is selectively increased in the fraction containing nuclei. The enhanced TG activity after axotomy can be prevented by topical treatments with verapamil, an inhibitor of voltage-dependent calcium fluxes across excitable membranes, or with the calcium chelator EGTA. The results show that intracellular TG activity is present in the SCG and that it increases with postnatal growth of the ganglion. After axotomy the enzyme activity is rapidly and transiently increased in the ganglion and this elevation critically depends on calcium fluxes.     

CRP velocity and short-term mortality in ST segment elevation myocardial infarction

Context: There is a known association between C-reactive protein (CRP) levels and adverse outcomes in patients presenting with ST-elevation myocardial infarction (STEMI). The optimal time frame to measure CRP for risk stratification is not known.

Objective: The aim of the current study was to evaluate the relation between the change in CRP velocity (CRPv) and 30-d mortality among STEMI patients.

Material and methods: We included consecutive patients with a diagnosis of STEMI who presented to Tel-Aviv Medical Center between 2008 and 2014 and had their CRP measured with a wide range assay (wr-CRP) at least twice during the 24?h after admission. CRPv was defined as the change in wr-CRP concentration (mg/l) divided by the change in time (in hours) between the two measurements.

Results: The study population comprised of 492 patients, mean age was 62?±?14, 80% were male. CRPv was significantly higher among patients who died within 30 d of admission (1.42?mg/l versus 0.18?mg/l, p?<?0.001). In a multivariate regression model adjusted to multiple confounders, CRPv was independently associated with 30-d mortality (OR 1.39, 95% CI: 1.20–1.62, p?<?0.001).

Conclusion: CRPv might be an independent and rapidly measurable biomarker for short-term mortality in patients presenting with STEMI.     

A structural basis for the pH-dependence of cofilin. F-actin interactions.

A marked pH-dependent interaction with F-actin is an important property of typical members of the actin depolymerizing factor (ADF)/cofilin family of abundant actin-binding proteins. ADF/cofilins tend to bind to F-actin with a ratio of 1 : 1 at pH values around 6.5, and to G-actin at pH 8.0. We have investigated the mechanism for the pH-sensitivity. We found no evidence for pH-dependent changes in the structure of cofilin itself, nor for the interaction of cofilin with G-actin. None of the actin-derived, cofilin-binding peptides that we had previously identified [Renoult, C., Ternent, D., Maciver, S.K., Fattoum, A., Astier, C., Benyamin, Y. & Roustan, C. (1999) J. Biol. Chem. 274, 28893-28899] bound cofilin in a pH-sensitive manner. However, we have detected a conformational change in region 75-105 in the actin subdomain 1 by the use of a peptide-directed antibody. A pH-dependent conformational change has also been detected spectroscopically in a similar peptide (84-103) on binding to cofilin. These results are consistent with a model in which pH-dependent motion of subdomain 1 relative to subdomain 2 (through region 75-105) of actin reveals a second cofilin binding site on actin (centered around region 112-125) that allows ADF/cofilin association with the actin filament. This motion requires salt in addition to low pH.     

Toxicity effect of Silver Nanoparticles to the Haemocytes and Antioxidant activity of Silkworm Bombyx mori

The present study investigates the effect of AgNPs on some biological parameters and total protein amount, antioxidant potential and catalase activity of silkworm Bombyx mori. Incorporation of AgNPs (100 μg mL^–1) in supplementary diets results in significant increases in the larval weight and the antioxidant potential but significantly decreases the catalase activity. The relative growth rate decreases as the high concentration (1000 μg mL^–1). Exposure to AgNPs also caused violent results in alteration of haemocyte including an immediate increase in THC, may due to the release of these haemocytes either from an increase in cell divisions or from attached haemocyte populations, and decline in the percentage of prohaemocytes and increase in the percentage of two immune-phagocytes, i.e., granulocytes and plasmatocytes. Also, AgNPs at 100 and 1000 μg mL^–1 caused different levels of deformations on almost all haemocyte types and increased the antioxidant enzyme activity (catalase) in the haemolymph of treated larvae as a result of the toxic effects of treatment.     

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.     

Liposome-mediated gene delivery into plant cells

Liposomes may offer several advantages as vectors for gene delivery into plant cells: (1) enhanced delivery of encapsulated DNA by membrane fusion, (2) protection of nucleic acids from nuclease activity, (3) targeting to specific cells, (4) delivery into a variety of cell types besides protoplasts by entry through plasmodesmata, (5) delivery of intact small organelles. Realization of these advantages calls for the construction of efficient liposomes, for appropriate fusion conditions and for an understanding of the nature of liposome-cell interactions. Various characteristics and techniques of the liposome-cell system are described (mode of delivery, liposome types and composition, and means of promoting delivery of liposome contents). Data of liposome-mediated delivery of various macromolecules into plant cells, with special reference to protoplasts, calli and pollen are reviewed. This includes data obtained by the use of fluorescent probes, radioactive-labelled DNA, viral nucleic acids and expression of plasmid-DNA. Structure and characteristics of plant surfaces and plasmodesmata are discussed with respect to DNA entry. It is suggested that liposome-mediated gene delivery into plant cells, and not only protoplasts, will be advantageous in certain specific tissues and situations.     

Structural variations in actins. Biochemical and immunological tools for probing the structure of rabbit skeletal-muscle and bovine aortic actins.

Structural differences between skeletal-muscle and aortic actins were studied by using biochemical and immunological approaches. By using proteinase digestion we found that three regions of actin show structural differences: (a) in the C-terminal part, (b) the region around residue 227 and (c) the region around residue 167. By using antibodies specific to particular actin conformations we can discriminate between monomeric and filamentous forms of the two actins. Our results show that the minor sequence variations of the N- and C-terminal regions induce structural change in these regions, but also some long-range structural variations in other regions.