Changes in Lipid Peroxidation under Exposure to Electromagnetic Radiation of Nonthermal Intensity in the Prenatal Period

Biophysics - This study focused on the redox homeostasis in the lenses of 20- and 30-day-old chinchilla rabbit kits exposed to a combination of hypoxia and electromagnetic radiation at a nonthermal...     

Behavior of Rats in the Open Field within the Early Period after Light-Degree Blast-Induced Neurotrauma

Neurophysiology - Blast-induced neurotrauma (BINT) is a specific type of traumatic brain injury (TBI). At present, this type of injury is rather widespread throughout the world due to its...     

Neonatal Exposure to Bacterial Lipopolysaccharide Affects Behavior and Expression of Ionotropic Glutamate Receptors in the Hippocampus of Adult Rats after Psychogenic Trauma

Biochemistry (Moscow) - According to the two-hit hypothesis of psychoneuropathology formation, infectious diseases and other pathological conditions occurring during the critical periods of early...     

Subchronic Arsenic Exposure Through Drinking Water Alters Lipid Profile and Electrolyte Status in Rats

Arsenic is a groundwater pollutant and can cause various cardiovascular disorders in the exposed population. The aim of the present study was to assess whether subchronic arsenic exposure through drinking water can induce vascular dysfunction associated with alteration in plasma electrolytes and lipid profile. Rats were exposed to arsenic as 25, 50, and 100 ppm of sodium arsenite through drinking water for 90 consecutive days. On the 91st day, rats were sacrificed and blood was collected. Lipid profile and the levels of electrolytes (sodium, potassium, and chloride) were assessed in plasma. Arsenic reduced high-density lipoprotein cholesterol (HDL-C) and HDL-C/LDL-C ratio, but increased the levels of triglycerides, total cholesterol, low-density lipoprotein cholesterol (LDL-C), and electrolytes. The results suggest that the arsenic-mediated dyslipidemia and electrolyte retention could be important mechanisms in the arsenic-induced vascular disorder.     

Immediate and Delayed Cochlear Neuropathy after Noise Exposure in Pubescent Mice

Moderate acoustic overexposure in adult rodents is known to cause acute loss of synapses on sensory inner hair cells (IHCs) and delayed degeneration of the auditory nerve, despite the completely reversible temporary threshold shift (TTS) and morphologically intact hair cells. Our objective was to determine whether a cochlear synaptopathy followed by neuropathy occurs after noise exposure in pubescence, and to define neuropathic versus non-neuropathic noise levels for pubescent mice. While exposing 6 week old CBA/CaJ mice to 8-16 kHz bandpass noise for 2 hrs, we defined 97 dB sound pressure level (SPL) as the threshold for this particular type of neuropathic exposure associated with TTS, and 94 dB SPL as the highest non-neuropathic noise level associated with TTS. Exposure to 100 dB SPL caused permanent threshold shift although exposure of 16 week old mice to the same noise is reported to cause only TTS. Amplitude of wave I of the auditory brainstem response, which reflects the summed activity of the cochlear nerve, was complemented by synaptic ribbon counts in IHCs using confocal microscopy, and by stereological counts of peripheral axons and cell bodies of the cochlear nerve from 24 hours to 16 months post exposure. Mice exposed to neuropathic noise demonstrated immediate cochlear synaptopathy by 24 hours post exposure, and delayed neurodegeneration characterized by axonal retraction at 8 months, and spiral ganglion cell loss at 8-16 months post exposure. Although the damage was initially limited to the cochlear base, it progressed to also involve the cochlear apex by 8 months post exposure. Our data demonstrate a fine line between neuropathic and non-neuropathic noise levels associated with TTS in the pubescent cochlea.     

Changes in the Sensitivity of the Brain Cortex to the Action of Convulsants within the Remote Period after Electrostimulation-Induced Kindling in Rats

In acute experiments on rats, we measured the intensity of epileptiform events after applications of agonists of the receptors to excitatory amino acids, NMDA (10.0 mg/ml) and kainic acid (2.0 mg/ml), to the cortex. The rats were preliminarily subjected to a kindling procedure using electrical stimulations (ES) of the ventrobasal amygdala. Within the remote post-kindling period (three weeks after the last ES session), the sensitivity to the above drugs increased: the latency of the first EEG spike potential decreased, the amplitude of epileptic discharges within the period of the highest activity increased, and the epileptic nidi existed for a longer period. Applications of NMDA and kainic acid after preliminary intraventricular injections of an agonist of the -opiate receptors, DAMGO (0.5 g), on the one hand, evoked more intensive epileptogenic effects in kindling rats, and, on the other hand, did not change the above-mentioned indices of epileptogenesis in the control animals. The effects of applications of other convulsants (30 mg/ml strychnine or 10,000 IU/ml benzylpenicillin) showed no changes under the influence of DAMGO.     

Prenatal Morphine Exposure Differentially Alters Addictive and Emotional Behavior in Adolescent and Adult Rats in a Sex-Specific Manner

The effects of prenatal opioid exposure in adult animals has been widely studied, but little is known about the effects of prenatal opioid on adolescents. Most of the risk behaviors associated with drug abuse are initiated during adolescence. The developmental state of the adolescent brain makes it vulnerable to initiate drug use and susceptible to drug-induced brain changes. In this study, pregnant rats were subcutaneously injected with an increasing dose of morphine (5 mg/kg, 7 mg/kg, 10 mg/kg) for 9 days since the gestation day 11. The effects of prenatal morphine (PNM) on learning and memory, anxiety- and depressive- like behavior, morphine induced conditioned place preference (CPP) as well as locomotor sensitization were tested in both adolescent and adult rats. The results showed that: (1) PNM decreased anxiety-like behavior in both adolescent and adult female rats, but not males; (2) PNM decreased depressive-like behavior in adolescent but increased depressive -like behavior in adult females; (3) PNM increased low dose morphine induced locomotor sensitization in females; (4) PNM decreased tyrosine hydroxylase (TH) expression in the prefrontal cortex but decreased dopamine D1 receptor expression in the nucleus-accumbens (NAc) in female rats. These results suggested that PNM altered the emotional and addictive behavior mainly in female rats, with female rats being less anxiety and depressive during adolescence, but more depressive in adult, and more sensitive to low dose morphine induced locomotor activity sensitization, which might be mediated in part by the differential expression of the TH, dopamine D1 receptors in the female brain.

     

Effect of Long-term Fluoride Exposure on Lipid Peroxidation and Histology of Testes in First- and Second-generation Rats

This experiment was designed to investigate the histological and lipid peroxidation effects of chronic fluorosis on testes tissues of first- and second-generation rats. Sixteen virgin female Wistar rats were mated with eight males (2:1) for approximately 12 h to obtain first-generation rats. Pregnant rats were divided into two groups: controls and fluoride-given group, each of which containing five rats. Pregnant rats in the fluoride-given group were exposed to a total dose of 30 mg/l sodium fluoride (NaF) in commercial drinking water containing 0.07 mg/l of NaF throughout the gestation and lactation periods. After the lactation period, the young animals (first generation, F1) were exposed to the same dose of NaF in drinking water for 4 months. At the end of the 4 months of experimental period, nine randomly chosen male rats (F1) were killed and testes tissues were taken for histopathological and biochemical analysis. The remaining eight female rats were mated with four males (2:1) for approximately 12 h to obtain second-generation rats. Six female were identified as pregnant and treated with similarly throughout the gestation and the lactation periods. After the lactation period, the young male animals (second generation, F2) were also treated in the same way for 4 months. At the end of the 4 months of experimental period, nine randomly chosen male rats (F2) were killed and testes tissues were collected for histopathological and biochemical analysis. The rats in the control group were applied the same procedure without NaF administration. In biochemical analysis of the fluoride given F1 and F2 rats, it has been found that plasma fluoride levels and testes thiobarbituric acid reactive substance levels were significantly increased when compared with the control group. In F1 and F2 rats, similar histopathological changes were observed. In both groups, spermatogenesis was severely reduced. Spermatogonia and primary spermatocytes were normal, however, there was a widespread degeneration in other spermatogenic cell lines of the seminiferous epithelium. The histological structures of the Sertoli and interstitial Leydig cells were normally observed. It is concluded that chronic fluorosis exposure leads to a remarkable destruction in testes tissues of F1 and F2 rats via lipid peroxidation. The study was carried out in Suleyman Demirel University.     

Spin Trapping Study in the Lungs and Liver of F344 Rats after Exposure to Ozone

Fischer 344 rats were injected with the spin traps C-phenyl N-tert-butyl nitrone (PBN, 150 mg/kg bw, ip) or 4-pyridine-N-oxide N-tert -butyl nitrone (POBN, 775 mg/kg bw, ip), and exposed to clean air or 2 ppm ozone for two hours. The presence of spin adducts was determined by electron paramagnetic resonance (EPR) spectroscopy of chloroform extracts of lung and liver homogenates. No significant levels of adducts were detected in the lungs of air control animals. Benzoyl N-tert-butyl aminoxyl, attributed to direct reaction of ozone with PBN, and tert-butyl hydroaminoxyl, the scission product of the hydroxyl adduct of PBN, were detected in the lungs of ozone exposed rats. EPR signals for carbon-centred alkoxyl and alkyl adducts were also detected with PBN in the lungs and liver of animals exposed to ozone. With POBN, only carbon-centred alkyl radicals were detected. Senescent, 24 months old rats were found to retain about twice more ¹⁴C-PBN in blood, heart and lungs by comparison to juvenile, 2 months old animals. Accordingly, the EPR signals were generally stronger in the lungs of the senescent rats by comparison to juvenile rats. Together, the observations were consistent with the previously proposed notion that a significant flux of hydrogen peroxide produced from the reaction of ozone with lipids of the extracellular lining, or from activated macrophages in the lungs could be a source of biologically relevant amounts of hydroxyl radical.     

Spin Trapping Study in the Lungs and Liver of F344 Rats after Exposure to Ozone

Fischer 344 rats were injected with the spin traps C-phenyl N-tert-butyl nitrone (PBN, 150 mg/kg bw, ip) or 4-pyridine-N-oxide N-tert -butyl nitrone (POBN, 775 mg/kg bw, ip), and exposed to clean air or 2 ppm ozone for two hours. The presence of spin adducts was determined by electron paramagnetic resonance (EPR) spectroscopy of chloroform extracts of lung and liver homogenates. No significant levels of adducts were detected in the lungs of air control animals. Benzoyl N-tert-butyl aminoxyl, attributed to direct reaction of ozone with PBN, and tert-butyl hydroaminoxyl, the scission product of the hydroxyl adduct of PBN, were detected in the lungs of ozone exposed rats. EPR signals for carbon-centred alkoxyl and alkyl adducts were also detected with PBN in the lungs and liver of animals exposed to ozone. With POBN, only carbon-centred alkyl radicals were detected. Senescent, 24 months old rats were found to retain about twice more ¹⁴C-PBN in blood, heart and lungs by comparison to juvenile, 2 months old animals. Accordingly, the EPR signals were generally stronger in the lungs of the senescent rats by comparison to juvenile rats. Together, the observations were consistent with the previously proposed notion that a significant flux of hydrogen peroxide produced from the reaction of ozone with lipids of the extracellular lining, or from activated macrophages in the lungs could be a source of biologically relevant amounts of hydroxyl radical.     

Changes in Ultrastructure and Fourier Transform Infrared Spectrum of Salmonella enterica Serovar Typhimurium Cells after Exposure to Stress Conditions

The effect of exposure to acid (pH 2.5), alkaline (pH 11.0), heat (55°C), and oxidative (40 mM H₂O₂) lethal conditions on the ultrastructure and global chemical composition of Salmonella enterica serovar Typhimurium CECT 443 cells was studied using transmission electron microscopy and Fourier transform infrared spectroscopy (FT-IR) combined with multivariate statistical methods (hierarchical cluster analysis and factor analysis). Infrared spectra exhibited marked differences in the five spectral regions for all conditions tested compared to those of nontreated control cells, which suggests the existence of a complex bacterial stress response in which modifications in a wide variety of cellular compounds are involved. The visible spectral changes observed in all of the spectral regions, together with ultrastructural changes observed by transmission electron microscopy and data obtained from membrane integrity tests, indicate the existence of membrane damage or alterations in membrane composition after heat, acid, alkaline, and oxidative treatments. Results obtained in this study indicate the potential of FT-IR spectroscopy to discriminate between intact and injured bacterial cells and between treatment technologies, and they show the adequacy of this technique to study the molecular aspects of bacterial stress response.Salmonella spp. are an important cause of bacterial food-borne disease all over the world, causing a diversity of illnesses that include typhoid fever, gastroenteritis, and septicemia (11). According to epidemiological data from the European Union, a total of 131,468 laboratory-confirmed salmonellosis cases were reported in 2008, with two serovars, Salmonella enterica serovar Typhimurium and Salmonella enterica serovar Enteritidis, being responsible for 79.9% of all cases (13). The detection and identification of pathogens in foods are a basic cornerstone of food safety, because they make it possible to identify sources of contamination, provide data on the evaluation of risk reduction measures, and identify the food chain operations, processes, batches, or products representing a threat to public health. Furthermore, they also are fundamental in the epidemiological investigation of food-borne diseases. The presence of stress-injured bacterial cells in foods represents a challenge to those involved in food quality assurance, as routine microbiological procedures may yield negative results for sublethally injured cells. Thus, food could be presumed to be safe and free from pathogenic cells but during storage become dangerous due to the recovery and growth of previously injured cells.Given the fact that bacterial cells react to the different environmental stress conditions by inducing structural and physiological changes, Fourier transform infrared (FT-IR) spectroscopy, which reflects the biochemical composition of the cellular constituents of bacteria that include water, fatty acids, proteins, polysaccharides, and nucleic acids (26), should be able to monitor the changes occurring in bacterial cells in response to several food-related stress conditions. The potential of this methodology to detect and differentiate sublethally heat-injured and dead Listeria monocytogenes and S. Typhimurium cells and to discriminate between diverse heat treatment intensities has been highlighted (2, 20). FT-IR spectroscopy also has been successfully applied to the identification and classification of bacteria such as Acinetobacter (35), Brucella (23), Campylobacter (24, 25), Escherichia coli (1), Lactobacillus (10, 27), Listeria (28, 29), Salmonella (9, 17), Staphylococcus (8, 19), and Yersinia (18).The main aim of this study was to assess ultrastructural modifications and infrared (IR) spectral changes at different degrees of stress exposure and to discriminate between injured and noninjured S. Typhimurium cells after their exposure to heat, acid, alkaline, and oxidative lethal conditions. Results obtained also could help us improve our knowledge of S. Typhimurium cell damage and strategies of response to these adverse conditions.     

Zinc Prevents Sickness Behavior Induced by Lipopolysaccharides after a Stress Challenge in Rats

Sickness behavior is considered part of the specific beneficial adaptive behavioral and neuroimmune changes that occur in individuals in response to infectious/inflammatory processes. However, in dangerous and stressful situations, sickness behavior should be momentarily abrogated to prioritize survival behaviors, such as fight or flight. Taking this assumption into account, we experimentally induced sickness behavior in rats using lipopolysaccharides (LPS), an endotoxin that mimics infection by gram-negative bacteria, and then exposed these rats to a restraint stress challenge. Zinc has been shown to play a regulatory role in the immune and nervous systems. Therefore, the objective of this study was to examine the effects of zinc treatment on the sickness response of stress-challenged rats. We evaluated 22-kHz ultrasonic vocalizations, open-field behavior, tumor necrosis factor α (TNF-α), corticosterone, and brain-derived neurotrophic factor (BDNF) plasma levels. LPS administration induced sickness behavior in rats compared to controls, i.e., decreases in the distance traveled, average velocity, rearing frequency, self-grooming, and number of vocalizations, as well as an increase in the plasma levels of TNF-α, compared with controls after a stressor challenge. LPS also decreased BDNF expression but did not influence anxiety parameters. Zinc treatment was able to prevent sickness behavior in LPS-exposed rats after the stress challenge, restoring exploratory/motor behaviors, communication, and TNF-α levels similar to those of the control group. Thus, zinc treatment appears to be beneficial for sick animals when they are facing risky/stressful situations.     

Introduction of Daytime Feeding in Rats by Exposure to Choice of a Sugar Diet

Food intakes of rats having first access to either sucrose or fructose as the carbohydrate source in a three-way selection of macronutrients were compared. In the first period of choice between sugar, protein and fat similar day/night intakes were found in rats given sucrose or fructose. When rats had a first experience with either sucrose or fructose as the carbohydrate source, their total energy and macronutrient intakes decreased dramatically and diurnal rather than nocturnal feeding occurred when sugar was switched. These findings indicate that a previous adaptation to a sugar as a carbohydrate source in a three-way selection design has long-lasting effects on the subsequent pattern and amount of food intake on a similar choice among diets.     

Introduction of Daytime Feeding in Rats by Exposure to Choice of a Sugar Diet

Food intakes of rats having first access to either sucrose or fructose as the carbohydrate source in a three-way selection of macronutrients were compared. In the first period of choice between sugar, protein and fat similar day/night intakes were found in rats given sucrose or fructose. When rats had a first experience with either sucrose or fructose as the carbohydrate source, their total energy and macronutrient intakes decreased dramatically and diurnal rather than nocturnal feeding occurred when sugar was switched. These findings indicate that a previous adaptation to a sugar as a carbohydrate source in a three-way selection design has long-lasting effects on the subsequent pattern and amount of food intake on a similar choice among diets.     

围产期慢性尼古丁摄入对子代小鼠学习与记忆的影响

尼古丁对学习记忆间接作用的研究鲜有报道。昆明小鼠母鼠受孕后随机分为对照组(CON)和尼古丁组(NIC)。CON组母鼠自由饮水,NIC组母鼠饮水中给予浓度为50μg/mL的尼古丁。子代小鼠60日龄时,进行Morris水迷宫实验,之后在体记录海马区穿通纤维通路(perforant pathway,PP)至齿状回(dentate gyrus,DG)的长时程增强(long-term potentiation,LTP)。结果显示,NIC组仔鼠的逃避潜伏期从第3天开始明显大于CON组,目标象限停留时间所占百分比和穿越平台次数均低于CON组,LTP群峰电位幅值和场兴奋性突触后电位斜率也都显著低于CON组。说明由母体摄入的尼古丁,可经胎盘和乳汁明显作用于其子代,导致子代学习记忆功能的明显损伤,其可能机制是因为海马神经元突触传递可塑性的效率显著降低。     

Osbpl8 Deficiency in Mouse Causes an Elevation of High-Density Lipoproteins and Gender-Specific Alterations of Lipid Metabolism

OSBP-related protein 8 (ORP8) encoded by Osbpl8 is an endoplasmic reticulum sterol sensor implicated in cellular lipid metabolism. We generated an Osbpl8^−/− (KO) C57Bl/6 mouse strain. Wild-type and Osbpl8KO animals at the age of 13-weeks were fed for 5 weeks either chow or high-fat diet, and their plasma lipids/lipoproteins and hepatic lipids were analyzed. The chow-fed Osbpl8KO male mice showed a marked elevation of high-density lipoprotein (HDL) cholesterol (+79%) and phospholipids (+35%), while only minor increase of apolipoprotein A-I (apoA-I) was detected. In chow-fed female KO mice a less prominent increase of HDL cholesterol (+27%) was observed, while on western diet the HDL increment was prominent in both genders. The HDL increase was accompanied by an elevated level of HDL-associated apolipoprotein E in male, but not female KO animals. No differences between genotypes were observed in lecithin:cholesterol acyltransferase (LCAT) or hepatic lipase (HL) activity, or in the fractional catabolic rate of fluorescently labeled mouse HDL injected in chow-diet fed animals. The Osbpl8KO mice of both genders displayed reduced phospholipid transfer protein (PLTP) activity, but only on chow diet. These findings are consistent with a model in which Osbpl8 deficiency results in altered biosynthesis of HDL. Consistent with this hypothesis, ORP8 depleted mouse hepatocytes secreted an increased amount of nascent HDL into the culture medium. In addition to the HDL phenotype, distinct gender-specific alterations in lipid metabolism were detected: Female KO animals on chow diet showed reduced lipoprotein lipase (LPL) activity and increased plasma triglycerides, while the male KO mice displayed elevated plasma cholesterol biosynthetic markers cholestenol, desmosterol, and lathosterol. Moreover, modest gender-specific alterations in the hepatic expression of lipid homeostatic genes were observed. In conclusion, we report the first viable OsbplKO mouse model, demonstrating a HDL elevating effect of Osbpl8 knock-out and additional gender- and/or diet-dependent impacts on lipid metabolism.     

Enhanced Tyrosine Hydroxylation in Hippocampus of Chronically Stressed Rats upon Exposure to a Novel Stressor

We have used microdialysis to measure the in vivo level of tyrosine hydroxylation in hippocampus of the freely moving rat. An inhibitor of aromatic amino acid decarboxylase, NSD-1015, was administered through the dialysis probe and the resulting accumulation of 3,4-dihydroxyphenylalanine (DOPA) in extracellular fluid of hippocampus was quantified. Administration of the tyrosine hydroxylase inhibitor, alpha-methyl-p-tyrosine, decreased extracellular DOPA to undetectable level. In addition, both systemic and local application of clonidine, an alpha 2-adrenergic agonist, produced a decrease in extracellular DOPA. In response to acute tail shock, a significant increase in extracellular DOPA was observed. Thus, it appears that in vivo accumulation of DOPA after local administration of NSD-1015 provides a reliable index of hippocampal tyrosine hydroxylation. We have used this technique to investigate whether prior exposure to chronic stress alters the in vivo level of tyrosine hydroxylation in hippocampus under basal conditions as well as in response to a novel stressor. In rats previously exposed to chronic cold stress, the basal accumulation of extracellular DOPA did not differ from naive controls. Acute tail shock, however, produced a significantly greater and more prolonged elevation in extracellular DOPA of chronically stressed rats. These data suggest that enhanced biosynthetic capacity of noradrenergic terminals may be one mechanism underlying adaptation to chronic stress.     

Stress During the Pre-pubertal Period Leads to Long-Term Diet-Dependent Changes in Anxiety-Like Behavior and in Oxidative Stress Parameters in Male Adult Rats

Social isolation during early development is one of the most potent stressors that can cause alterations in the processes of brain maturation, leading to behavioral and neurochemical changes that may persist to adulthood. Exposure to palatable diets during development can also affect neural circuits with long-term consequences. The aims of the present study were to investigate the long-term effects of isolation stress during the pre-pubertal period on the exploratory and anxiety-like behavior, the oxidative stress parameters and the respiratory chain enzymes activities in the hippocampus of adult male rats under chronic palatable diets. The results showed that isolated rats receiving either normal or high-fat diet during the pre-pubertal period presented an anxiolytic-like behavior. The animals exposed to stress and treated with high-carbohydrate diet, rich in disaccharides, on the other hand, presented the opposite pattern of behavior. Stress in the pre-pubertal period also leads to decreased activity of the antioxidant enzymes and the mitochondrial respiratory chain complexes II and IV and decreased total thiol content. These effects were reversed by high-fat diet when it was associated with stress. The effects of a sub-acute pre-pubertal isolation stress on anxiety-like behavior and on hippocampal oxidative imbalance during adulthood appear to be modulated by different types of diets, and probably different mechanisms are involved.