Abnormal RNA stability in amyotrophic lateral sclerosis.

Amyotrophic lateral sclerosis (ALS) and frontotemporal dementia (FTD) share key features, including accumulation of the RNA-binding protein TDP-43. TDP-43 regulates RNA homeostasis, but it remains unclear whether RNA stability is affected in these disorders. We use Bru-seq and BruChase-seq to assess genome-wide RNA stability in ALS patient-derived cells, demonstrating profound destabilization of ribosomal and mitochondrial transcripts. This pattern is recapitulated by TDP-43 overexpression, suggesting a primary role for TDP-43 in RNA destabilization, and in postmortem samples from ALS and FTD patients. Proteomics and functional studies illustrate corresponding reductions in mitochondrial components and compensatory increases in protein synthesis. Collectively, these observations suggest that TDP-43 deposition leads to targeted RNA instability in ALS and FTD, and may ultimately cause cell death by disrupting energy production and protein synthesis pathways.

Production of a Sindbis/Eastern Equine Encephalitis chimeric virus inactivated cell culture antigen.

Eastern Equine Encephalitis virus (EEEV) is a medically important pathogen that can cause severe encephalitis in humans, with mortality rates ranging from 30 to 80%. Unfortunately there are no antivirals or licensed vaccines available for human use, and laboratory diagnosis is essential to differentiate EEEV infection from other pathogens with similar clinical manifestations. The Arboviral Diseases Branch (ADB) reference laboratory at the CDC Division of Vector-Borne Diseases (DVBD) produces reference antigens used in serological assays such as the EEEV immunoglobulin M antibody-capture enzyme-linked immunosorbent assay (MAC-ELISA). However, EEEV is classified as a HHS select agent and requires biosafety level (BSL) three containment, limiting EEEV antigen production in non-select agent and BSL-2 laboratories. A recombinant Sindbis virus (SINV)/EEEV has been constructed for use under BSL-2 conditions and is not regulated as a select agent. Cell culture production of inactivated EEEV antigen from SINV/EEEV for use in the EEEV MAC-ELISA is reported here. Cell culture conditions and inactivation procedures were analyzed for SINV/EEEV using a recently developed antigen production algorithm, with the MAC-ELISA as the performance indicator.

Survey of the knowledge, perception, and attitude of medical students at the University of Leeds toward organ donation and transplantation.

BACKGROUND: The shortage of organ donors is the key rate-limiting factor for organ transplantation in the United Kingdom. Many strategies have been proposed to increase donation; one strategy aims to improve awareness of organ donation and transplantation (ODT) among medical students. This survey seeks to investigate the knowledge, perceptions, and attitudes of the medical students in the United Kingdom toward ODT and the curriculum content. METHODS: A 32-item online questionnaire was distributed to 957 medical students at the University of Leeds (October to December 2012). RESULTS: There were 216 (22.6%) respondents. Students were aware of kidney, heart, and liver transplantation (91.6%, 88.8%, and 86.5%). Awareness of small intestine (36.7%) and islet of Langerhans (33.0%) transplantation was poor. Students understood the term "brain stem death" (82.3%); however, they lacked understanding of criteria used for brain stem death testing (75.8%). Their perceptions and attitudes were favorable toward ODT; 43.3% of the students were unhappy with their current knowledge, and 87.6% of the students agree that ODT teaching should be included in the curriculum. CONCLUSIONS: Students have a basic understanding of ODT but lack detailed knowledge. They accept its importance and desire further teaching to supplement their current knowledge to be able to understand the issues related to ODT.

Development of an algorithm for production of inactivated arbovirus antigens in cell culture.

Arboviruses are medically important pathogens that cause human disease ranging from a mild fever to encephalitis. Laboratory diagnosis is essential to differentiate arbovirus infections from other pathogens with similar clinical manifestations. The Arboviral Diseases Branch (ADB) reference laboratory at the CDC Division of Vector-Borne Diseases (DVBD) produces reference antigens used in serological assays such as the virus-specific immunoglobulin M antibody-capture enzyme-linked immunosorbent assay (MAC-ELISA). Antigen production in cell culture has largely replaced the use of suckling mice; however, the methods are not directly transferable. The development of a cell culture antigen production algorithm for nine arboviruses from the three main arbovirus families, Flaviviridae, Togaviridae, and Bunyaviridae, is described here. Virus cell culture growth and harvest conditions were optimized, inactivation methods were evaluated, and concentration procedures were compared for each virus. Antigen performance was evaluated by the MAC-ELISA at each step of the procedure. The antigen production algorithm is a framework for standardization of methodology and quality control; however, a single antigen production protocol was not applicable to all arboviruses and needed to be optimized for each virus.

Neuroprotective effect of RO-20-1724-a phosphodiesterase4 inhibitor against intracerebroventricular streptozotocin induced cognitive deficit and oxidative stress in rats.

Cyclic nucleotides viz cGMP and cAMP are known to play an important role in learning and memory processes. Enhancement of cyclic nucleotide signalling through inhibition of phosphodiesterases (PDEs) has been reported to be beneficial in several neurodegenerative disorders associated with cognitive decline. The present study was undertaken to investigate the effect of RO-20-1724-a PDE4 inhibitor on streptozotocin (STZ) induced experimental sporadic dementia of Alzheimer's type. The STZ was injected twice intracerebroventrically (3 mg/kg i.c.v.) on alternate days (day 1 and day 3) in rats. The STZ injected rats were treated with RO-20-1724 (125, 250 and 500 µg/kgi.p.) for 21 days following first i.c.v. STZ administration. Learning and memory in rats were assessed by passive avoidance [PA (days 14 and 15)] and Morris water maze [MWM (days 17, 18, 19, 20 and 21)] following first i.c.v. STZ administration. On day 22 rat cerebral homogenate was used for all the biochemical estimations. The pharmacological inhibition of PDE4 by RO-20-1724 significantly attenuated STZ induced cognitive deficit and oxidative stress. RO-20-1724 was found to not only improve learning and memory in MWM and PA paradigms but also restore STZ induced elevation in cholinesterase activity. Further, RO-20-1724 significantly reduced malondialdehyde and nitrite levels, and restored the glutathione levels indicating attenuation of oxidative stress. Current data complement previous studies by providing evidence for a subset of cognition enhancing effects after PDE4 inhibition. The observed beneficial effects of RO-20-1724 in spatial memory may be due to its ability to restore cholinergic functions and possibly through its antioxidant mechanisms.

Mice undernourished before, but not after, weaning perform better in motor coordination and spatial learning tasks than well-fed controls.

Undernutrition of rodents has been claimed to result in long-term behavioural deficits in motor coordination and spatial learning ability, although the literature on this is somewhat conflicting. We have recently been engaged in a study of the effects of either pre- or post-weaning undernutrition on longevity in mice. As part of this ageing study, we have also assessed the effects of such nutritional regimes on motor coordination and spatial learning ability of mice. Motor coordination was tested in 21-week-old control and previously undernourished mice by assessing their ability to remain on a revolving drum. We have found that mice previously undernourished either during the pre- or post-weaning period performed better than controls during some, but not all, of the test days. Spatial learning was tested in 50-58-week-old mice using the Morris water maze. In this instance we found that mice previously undernourished during the pre-weaning period performed better at this task than either controls or mice undernourished for a period after weaning. It seems that undernutrition during the pre-weaning period may, paradoxically, improve the performance of mice in these behavioural tasks compared to controls. Undernutrition after weaning had little or no effect on these behavioural measures. The exact mechanisms involved in causing the observed long-term changes in functional capacity due to a period of undernutrition from conception until weaning age of the mice in our study remain unknown.

SP600125, a competitive inhibitor of JNK attenuates streptozotocin induced neurocognitive deficit and oxidative stress in rats.

Activated JNK has been reported to be located in nucleus in mild cases of Alzheimer's disease (AD), but is exclusively in cytoplasm in more advanced stages of AD and implicated in its pathogenesis, suggesting that activation and re-distribution of JNK correlate with the progress of AD. The present study was designed to investigate the role of JNK in intracerebroventricular streptozotocin (i.c.v. STZ) induced cognitive impairment and oxidative stress. Streptozotocin has been observed to impair learning and memory, increase oxidative-nitritive stress, induce cholinergic hypofunction and neuronal damage in rat brain. Chronic treatment with SP600125 from day 10 to 28 following i.c.v. STZ injections significantly improved spatial memory, attenuate oxidative-nitritive stress. In addition, significant increase in acetylcholinesterase activity and lactate dehydrogenase (LDH) levels was observed in the present model indicating cholinergic hypofunction and increase in neuronal cell damage. Whereas, SP600125 treatment significantly restored acetylcholinesterase activity and reduced LDH levels indicating restorative capacity of SP600125 with respect to cholinergic functions and preventing the neuronal damage. In line with previous report, the current study also supports the potential of JNK inhibition as a possible therapeutic strategy to ameliorate neurodegenerative disorders associated with oxidative stress and cognitive impairment.

Undernutrition during the gestation and suckling periods does not cause any loss of pyramidal neurons in the CA2-CA3 region of the rat hippocampus.

The total number of hippocampal pyramidal cells in the CA2-CA3 region are reported to be unaffected by undernutrition during the gestation period. We hypothesised that this may not be the case in animals subjected to a lengthier period of undernutrition. Wistar rats were undernourished from conception until 21 post-natal days-of-age and killed for examination at 21 and 62 days-of-age. There were between 180-212 thousand pyramidal cells in control animals at both 21 and 62 days of age. Twenty-one-day-old undernourished rats had about 152 thousand such cells and this increased to about 206 thousand by 62 days-of-age. Analysis of variance tests on these data revealed a significant main effect of age but no group or interaction effects. Our experiments, therefore, confirm that these hippocampal pyramidal neurons are relatively spared the adverse effects of undernutrition during early life, even when this is extended to include both the gestation and suckling periods.

Undernutrition during either the pre- or immediate post-weaning period does not affect longevity in Quackenbush mice.

Diet restriction of rodents during a lengthy period of adult life, can lead to a marked increase in their life-span. However, undernutrition during gestation and/or the suckling period is, paradoxically, known to cause long-lasting 'deleterious' deficits in body and brain structure. It remains uncertain whether or not such undernourished rodents also have an altered life-span. We have now investigated whether a short period of undernutrition of mice either before or immediately after the weaning period could modulate their life-span. Female out-bred Quackenbush mice were undernourished for 40 days by standardised procedures either from conception until weaning or from weaning (day 19) till 60-days-of-age and compared to control mice that had been well-nourished throughout their lives. During the course of their life-span, some mice in each group became seriously ill and, because of ethical considerations, were required to be killed before their 'natural' death. The median age of mice at which they were required to be euthanized due to illness was significantly younger in the well-fed control group compared to the two previously undernourished groups. Of those mice that died of natural causes, it was found that about 90% died between about 300-700 (average, 552-570; median, 556-595) days-of-age irrespective of group. Any differences between groups were not statistically significant. There were no significant differences between groups in the numbers of mice that survived beyond the 90th percentile of maximum life-span. Our results provided no evidence that a short period of undernutrition of Quackenbush mice either before or immediately after weaning has significant effects on their life-span. However, there was some evidence that, if it occurred, serious illness happened at a younger age in the well-nourished mice than those in the two diet-restricted groups.

Short-term exposure to ethanol causes a differential response between nerve growth factor and brain-derived neurotrophic factor ligand/receptor systems in the mouse cerebellum.

Alcohol ingestion affects both neuropsychological and motor functions. We hypothesized that one of the key factors involved in such functions are neurotrophins and their receptors. We have therefore examined the effects of short-term ethanol exposure on the mRNA expression and protein levels of neurotrophin ligands and receptors in the cerebellum using real-time RT-PCR and Western blotting techniques. Male BALB/C mice were fed a liquid diet containing 5% (v/v) ethanol. The pair-fed control mice were fed an identical liquid diet except that sucrose was substituted isocalorically for ethanol. The cerebellum of mice exhibiting intoxication signs of stage 1 or 2 were used in the present study. We found that exposure to ethanol resulted in elevated levels of nerve growth factor (NGF) and TrkA mRNA expression but a decreased level of brain-derived neurotrophic factor (BDNF) mRNA expression. The expression of TrkB and p73 mRNA was unchanged. Changes in the level of these proteins were found to mirror these mRNA expression levels. We conclude that exposure to ethanol for a short period can cause a differential responsive in the various neurotrophin ligand/receptor systems. The functional consequences of these changes are unknown at present.

Bioenhancers: Revolutionary concept to market.

Treatment cost is a major concern for modern medicine in developing countries like India and systematic innovative means to reduce these costs are needed. This article reviews the concept of bioenhancers to reduce treatment costs by increasing drug bioavailability. This concept, based on the Ayurvedic system of medicine, works for a wide range of ingested substances, and has been applied to modern drugs, particularly single chemicals. It offers a fine example of the benefit of integrating an ancient system with modern medicine in both theory and practice.

Amelioration of intracerebroventricular streptozotocin induced cognitive dysfunction and oxidative stress by vinpocetine -- a PDE1 inhibitor.

Enhancing cyclic nucleotides signaling by inhibition of phosphodiesterases (PDEs) is known to be beneficial in disorders associated with cognitive decline. The present study was designed to investigate the effect of vinpocetine (PDE1 inhibitor) on intracerebroventricular (i.c.v.) streptozotocin induced experimental sporadic dementia of Alzheimer's type. Infusion of streptozotocin impaired learning and memory, increased oxidative-nitritive stress and induced cholinergic hypofunction in rats. Chronic treatment with vinpocetine (5, 10 and 20 mg/kg i.p.) for 21 days following first i.c.v. streptozotocin infusion significantly improved learning and memory in Morris water maze and passive avoidance paradigms. Further, vinpocetine significantly reduced the oxidative-nitritive stress, as evidenced by decrease in malondialdehyde (MDA) and nitrite levels, and restored the reduced glutathione (GSH) levels. Significant increase in acetylcholinesterase activity and lactate dehydrogenase levels was observed in the present model indicating cholinergic hypofunction and increase in neuronal cell damage. Chronic treatment with vinpocetine also reduced significantly the increase in acetylcholinesterase activity and lactate dehydrogenase levels indicating restorative capacity of vinpocetine with respect to cholinergic functions and preventing the neuronal damage. The observed beneficial effects of vinpocetine on spatial memory may be due to its ability to favorably modulate cholinergic functions, prevent neuronal cell damage and possibly through its antioxidant mechanism also.

Early life undernutrition alters the level of reduced glutathione but not the activity levels of reactive oxygen species enzymes or lipid peroxidation in the mouse forebrain.

Diet restriction of rodents during adult life is known to cause an increased life span. It has been hypothesised that this increase may be related to effects on the anti-oxidant defence systems. However, it has been suggested that undernutrition during the gestation and pre-weaning may reduce their life span as it is known to have other deleterious effects on a rodent's growth and development. We have now examined the activity levels of some anti-oxidant defence system enzymes and other markers of oxidative stress in mice that have been undernourished from conception until 21 postnatal days of age, followed in some cases by a period of nutritional rehabilitation until 61 days of age. We found that such undernutrition exerted only minimal effects on oxidative stress markers under investigation (ROS enzyme activities, GSH levels, and lipid peroxidation). Only GSH levels were significantly affected by pre-weaning undernutrition. In conclusion, pre-weaning undernutrition may regulate anti-oxidant enzymes at the transcriptional level differently from that at the post-transcriptional, translational, or post-translational levels. The possible effects that these changes at the cellular level, may have on the longevity of the animals remain of great interest and importance.

Pre-weaning undernutrition alters the expression levels of reactive oxygen species enzymes but not their activity levels or lipid peroxidation in the rat brain.

It has been hypothesised that the increased life span commonly observed in rodents that have had their diet restricted after weaning may be related to its effects on the anti-oxidant defence systems. However, undernutrition during the gestation and pre-weaning period is known to have long-term deleterious effects on a rodent's growth and development, and it has been suggested that this may reduce their life span. We have now examined some of the anti-oxidant defence system in rats that have been undernourished from conception until 21 postnatal days-of-age, followed in some cases by a period of nutritional rehabilitation until 62 days of age. We found that such undernutrition could modulate the mRNA expression of Cu/ZnSOD and catalase in some brain regions. However, only catalase showed any undernutrition-induced change of enzyme activity level. There was some evidence that undernourished (but not control) rats had an age-related increase in the level of lipid peroxidation between 21 and 62 days of age, although the group x age interaction was not statistically significant. There was no significant change in the level of reduced glutathione induced by the pre-weaning period of undernutrition. If ROS and the extent of oxidative damage are truly implicated in the determination of life span, our results indicate that this is unlikely to be markedly affected by the relatively small changes we have observed in the anti-oxidant defence systems induced by undernutrition of rats from conception until weaning.

Immunomodulatory activity of biopolymeric fraction RLJ-NE-205 from Picrorhiza kurroa.

In the last three decades, numerous biopolymeric fractions have been isolated from medicinal plants and used as a source of therapeutic agents. The most promising biopharmacological activities of these biopolymers are their immunomodulatory effects. The biopolymeric fraction RLJ-NE-205 was isolated and purified from the rhizomes of Picrorhiza kurroa. We evaluated the effects of biopolymeric fraction RLJ-NE-205 from P. kurroa on the in vivo immune function of the mouse. Balb/c mice were treated with the biopolymeric fraction RLJ-NE-205 (12.5, 25 and 50 mg/kg body weight) for 14 days with sheep red blood cells (SRBC) as an antigen. Haemagglutination antibody (HA) titre, plaque forming cell (PFC) assay, delayed type hypersensitivity (DTH) reaction, phagocytic index, proliferation of lymphocytes, analysis of cytokines in serum and CD4/CD8 population in spleen (determined by flowcytometry) were studied. At the dose of 50 mg/kg, significant increases in the proliferation of lymphocytes (p<0.001) and cytokine levels (IL-4 and IFN-gamma) in serum (p<0.001) were observed. A dose dependent increase was demonstrated in HA titre (p<0.05), DTH (p<0.01), PFC (p<0.05), phagocytic index (p<0.05) and CD4/CD8 (p<0.01) population. This suggests that the biopolymeric fraction RLJ-NE-205 improves the immune system and might be regarded as a biological response modifier.

The effects of pre-weaning undernutrition on the expression levels of free radical deactivating enzymes in the mouse brain.

A mild degree of undernutrition brought about by restricting the amount of food in the diet is known to alter the life span of an animal. It has been hypothesised that this may be related to the effects of undernutrition on an animals anti-oxidant defense system. We have therefore, used real-time PCR (rt-PCR) techniques to determine the levels of mRNA expression for manganese superoxide dismutase (MnSOD), copper/zinc superoxide dismutase (Cu/ZnSOD), glutathione peroxidase 1 (GPx 1) and catalase in the brains of Quackenbush mice undernourished from conception until 21-post-natal days of age. It was found that 21- and 61-day-old undernourished mice had a deficit in the expression of Cu/ZnSOD in both the cerebellum and forebrain regions compared to age-matched controls. The expression of MnSOD was found to be greater in the cerebellum, but not the forebrain region, of 21-day-old undernourished mice. There were no significant differences in the expression of GPx 1 and catalase between control and undernourished or previously undernourished mice. Our results confirm that undernutrition during the early life of a mouse may disrupt some of the enzymes involved in the anti-oxidant defense systems.

Nutritional effects on neuron numbers.

Undernutrition during early life is known to cause deficits and distortions of brain structure although it has remained uncertain whether or not this includes a diminution of the total numbers of neurons. Estimates of numerical density (e.g. number of cells per microscopic field, or number of cells per unit area of section, or number of cells per unit volume of tissue) are extremely difficult to interpret and do not provide estimates of total numbers of cells. However, advances in stereological techniques have made it possible to obtain unbiased estimates of total numbers of cells in well defined biological structures. These methods have been utilised in studies to determine the effects of varying periods of undernutrition during early life on the numbers of neurons in various regions of the rat brain. The regions examined so far have included the cerebellum, the dentate gyrus, the olfactory bulbs and the cerebral cortex. The only region to show, unequivocally, that a period of undernutrition during early life causes a deficit in the number of neurons was the dentate gyrus. These findings are discussed in the context of other morphological and functional deficits present in undernourished animals.

Hepatocurative and antioxidant profile of HP-1, a polyherbal phytomedicine.

HP-1 a herbal formulation comprising of Phyllanthus niruri and extracts of Terminalia belerica, Terminalia chebula, Phyllanthus emblica and Tinospora cordifolia has been evaluated for hepatoprotective activity against carbon tetrachloride (CCl4) induced toxicity. Results show that HP-1 reversed the leakage of lactate dehydrogenase (LDH) and glutamate pyruvate transaminase (GPT) and prevented the depletion of glutathione (GSH) levels in a primary monolayer culture of rat hepatocytes (in vitro). HP-1 attenuated the serum toxicity as manifested in elevated levels of transaminases (glutamate oxaloacetate transaminase (GOT), and GPT) The antioxidative enzymes in liver (catalase and superoxide dismutase (SOD)) were restored to normal values after the oral administration of HP-1. HP-1 suppressed the formation of the superoxide anion radical and reduced CCl4 mediated lipid peroxidation (LPO). Silymarin and antioxidants (ascorbic acid, beta-carotene and alpha-tocopherol) were used for comparison. The present study showed that HP-1 is a potential hepatoprotective formulation with an additional attribute of being anti-peroxidative.

Liquid chromatographic method for determination of piperine in rat plasma: application to pharmacokinetics.

Piperine, a major alkaloid of Piper longum and Piper nigrum has been reported to have several pharmacological/toxicological effects. Though a number of methods for analysis of this omnipresent food component in pepper fruits are available, its analysis in body fluids has been largely neglected. A high-performance liquid chromatography method for the analysis of piperine in rat plasma is presented in this communication. Analysis was performed using a Symmetry C(18) column (250x4.6 mm) by isocratic elution with 25 mM KH(2)PO(4) (pH 4.5)-acetonitrile (35:65) and UV detection at 340 nm. The calibration plot was linear over the range studied (2-2000 ng) with correlation coefficient of 0.9984. Limit of detection and limit of quantitation were 1 ng/ml and 3 ng/ml, respectively. Good overall recovery (85.5+/-6%) was obtained with 4 ml ethyl acetate and extraction time of 3 min. Intra- and inter-assay coefficient of variation was found to be less than 7.5%. Plasma concentration-time profile of piperine in a conscious rat implanted with jugular vein cannula was obtained using this method. The method is simple, sensitive and reproducible.

Simple high-performance liquid chromatography method for the simultaneous determination of ketoconazole and piperine in rat plasma and hepatocyte culture.

Piperine, a major alkaloid of black and long peppers has been reported to act as bioavailability enhancer of several drugs by inhibiting drug metabolising enzymes and/or by increasing oral absorption. Ketoconazole is a well established potent inhibitor of CYP 3A4 and P-glycoprotein. A simple and rapid HPLC method has been developed for the simultaneous analysis of ketoconazole and piperine in rat plasma and hepatocyte culture. Analysis was performed using a Symmetry C18 column (150x4.6 mm, 5 microm) and isocratic elution with 25 mM KH2PO4 (pH 4.5)-acetonitrile (50:50) with a flow-rate of 1 ml/min. Photodiode array detection was used to simultaneously monitor piperine at 340 nm and ketoconazole at 231 nm in a single sample. Calibration plots in spiked plasma, hepatocytes and William's medium E were linear over the range studied (10-2000 ng for both drugs). The detection limits for piperine and ketoconazole are 2 and 4 ng, respectively, and the limits of quantitation are 10 and 12 ng, respectively. Intra- and inter-assay variations were less than 8%.