A novel method for simultaneous glutamate and extracellular activity measurement in brain slices with high temporal resolution.

Measurement of neurotransmitters during normal or altered function in cerebral slices could be an important tool to better understand the relationship between biochemical changes and electrophysiological activity. Some attempts of this analysis have been made; however, the current techniques do not have the appropriate time resolution to establish this relationship. The use of electrochemical biosensors has allowed for good time resolution, but problems related to the reduction of signal noise and biofouling of the electrode surface could be an important issue. In this work, we propose a new alternative to simultaneously measure glutamate and electrical activity with a high temporal resolution in brain slices. This approach is based on the use of enzymatic reactors that generate a fluorescent derivative from glutamate that can be measured at high temporal resolution. The results presented here show a reliable measurement of this neurotransmitter in brain slices obtained from intact animals under the effect of a glutamate transporter blocker DL-threo-beta-benzyloxyaspartate as well as the potassium channel blocker 4-aminopyridine. Differences in the levels of glutamate and high frequency and amplitude discharges as an effect of drug administration were found in brain slices obtained from epileptic rats (p<0.05). In conclusion, this method could be used to measure neurotransmitter concentration online at a near physiological temporal resolution, which can then be correlated to the electrical activity that is simultaneously recorded.

Serotonin modulates fast ripple activity in rats with spontaneous recurrent seizures.

Fast ripples (FRs) are pathological high frequency oscillations that occur in patients with temporal lobe epilepsy (TLE), as well as in animal models of epilepsy in which seizures are induced with kainic acid or pilocarpine. These oscillations have been considered potential biomarkers of epileptogenesis in the hippocampus. Indeed, experimental evidence suggests an important role of serotonin in epilepsy and an increased frequency of FRs have been demonstrated in slow wave sleep, a period during which serotonin levels decrease. Accordingly, we investigated the role of serotonin in FRs modulation by evaluating the effects of citalopram, a blocker of serotonin uptake, on the occurrence of spontaneous FRs measured through intracranial bilateral EEG recording of the hippocampus of rats with spontaneous recurrent seizures. In addition, we recorded the mean number of oscillation cycles per FRs event and the average frequency (Hz) before, during and after citalopram administration in order to determine whether increases in extra-synaptic serotonin levels modulate FRs. The elevation of serotonin levels induced by citalopram (4.78 ± 1.69 nM) reduced the occurrence of spontaneous FRs (57%), the mean number of oscillation cycles per FRs event (34%) and the average frequency of FRs (33%). These findings suggest an important modulatory effect of serotonin on FRs.

Decreased frequency, but normal functional integrity of mesenchymal stromal cells derived from untreated and Imatinib-treated chronic myeloid leukemia patients.

In vitro, Imatinib inhibits the proliferation and stimulates the osteogenic and adipogenic differentiation of mesenchymal stromal cells (MSC). However, it is unknown whether Imatinib affects the biology of MSC in vivo. We asked whether MSC from long-term Imatinib-treated CML patients were affected by the in vivo treatment. MSC from untreated and Imatinib-treated patients displayed normal functional properties (i.e. proliferation, immunophenotype, differentiation and hematopoietic supportive capacity) - but a decreased frequency. In vitro, Imatinib lost its effect when discontinued; which suggest that it has a reversible effect on MSC. Therefore it might lose its effect on MSC after discontinuation in vivo.

Modeling workplace bullying using catastrophe theory.

Workplace bullying is defined as negative behaviors directed at organizational members or their work context that occur regularly and repeatedly over a period of time. Employees' perceptions of psychosocial safety climate, workplace bullying victimization, and workplace bullying perpetration were assessed within a sample of nearly 5,000 workers. Linear and nonlinear approaches were applied in order to model both continuous and sudden changes in workplace bullying. More specifically, the present study examines whether a nonlinear dynamical systems model (i.e., a cusp catastrophe model) is superior to the linear combination of variables for predicting the effect of psychosocial safety climate and workplace bullying victimization on workplace bullying perpetration. According to the AICc, and BIC indices, the linear regression model fits the data better than the cusp catastrophe model. The study concludes that some phenomena, especially unhealthy behaviors at work (like workplace bullying), may be better studied using linear approaches as opposed to nonlinear dynamical systems models. This can be explained through the healthy variability hypothesis, which argues that positive organizational behavior is likely to present nonlinear behavior, while a decrease in such variability may indicate the occurrence of negative behaviors at work.

Impact of obesity severity and duration on pancreatic ß- and α-cell dynamics in normoglycemic non-human primates.

OBJECTIVE: Obesity is associated with high insulin and glucagon plasma levels. Enhanced ß-cell function and ß-cell expansion are responsible for insulin hypersecretion. It is unknown whether hyperglucagonemia is due to α-cell hypersecretion or to an increase in α-cell mass. In this study, we investigated the dynamics of the ß-cell and α-cell function and mass in pancreas of obese normoglycemic baboons. METHODS: Pancreatic ß- and α-cell volumes were measured in 51 normoglycemic baboons divided into six groups according to overweight severity or duration. Islets morphometric parameters were correlated to overweight and to diverse metabolic and laboratory parameters. RESULTS: Relative α-cell volume (RαV) and relative islet α-cell volume (RIαV) increased significantly with both overweight duration and severity. Conversely, in spite of the induction of insulin resistance, overweight produced only modest effects on relative ß-cell volume (RßV) and relative islet ß-cell volume (RIßV). Of note, RIßV did not increase neither with overweight duration nor with overweight severity, supposedly because of the concomitant, greater increase in RIαV. Baboons' body weights correlated with serum levels of interleukin-6 and tumor necrosis factor-α soluble receptors, demonstrating that overweight induces abnormal activation of the signaling of two cytokines known to impact differently ß- and α-cell viability and replication. CONCLUSION: In conclusion, overweight and insulin resistance induce in baboons a significant increase in α-cell volumes (RαV, RIαV), whereas have minimal effects on the ß cells. This study suggests that an increase in the α-cell mass may precede the loss of ß cells and the transition to overt hyperglycemia and diabetes.

Short- and long-term changes in extracellular glutamate and acetylcholine concentrations in the rat hippocampus following hypoxia.

Hypoxia at birth is a major source of brain damage and it is associated with serious neurological sequelae in survivors. Alterations in the extracellular turnover of glutamate (Glu) and acetylcholine (ACh), two neurotransmitters that are essential for normal hippocampal function and learning and memory processes, may contribute to some of the neurological effects of perinatal hypoxia. We set out to determine the immediate and long-lasting effects of hypoxia on the turnover of these neurotransmitters by using microdialysis to measure the extracellular concentration of Glu and ACh in hippocampus, when hypoxia was induced in rats at postnatal day (PD) 7, and again at PD30. In PD7 rats, hypoxia induced an increase in extracellular Glu concentrations that lasted for up to 2.5 h and a decrease in extracellular ACh concentrations over this period. By contrast, perinatal hypoxia attenuated Glu release in asphyxiated rats, inducing a decrease in basal Glu levels when these animals reached PD30. Unlike Glu, the basal ACh levels in these animals were greater than in controls at PD30, although ACh release was stimulated less strongly than in control animals. These results provide the first evidence of the initial and long term consequences of the hypoxia on Glu and ACh turnover in the brain, demonstrating that hypoxia produces significant alterations in hippocampal neurochemistry and physiology.

Spontaneous pathology of the baboon endocrine system.

BACKGROUND: Study of endocrine pathology in animal models is critical to understanding endocrine pathology in humans. METHODS: We evaluated 434 endocrine-related diagnoses from 4619 baboon necropsies, established the incidence of spontaneous endocrine pathology, and analyzed the clinical and biochemical data associated with the individual cases. RESULTS: The most common diagnoses in descending order, were pancreatic islet cell amyloidosis (n = 259), ovarian cysts (n = 50), pituitary adenoma (n = 37), pancreatic islet cell adenoma (n = 20), granulosa cell tumor (n = 15), thyroid adenoma (n = 11), adrenal hyperplasia (n = 10), thyroid carcinoma (n = 8), and pheochromocytoma (n = 6). The incidence of pancreatic islet cell amyloidosis progressively increased with age. Pheochromocytomas were associated with renal and heart failure. The incidence of pancreatic islet cell amyloidosis and adrenal pathology was similar to humans; the incidence of pituitary adenoma and thyroid pathology was lower than in humans. CONCLUSIONS: Endocrine disease in baboons is common and shares clinical and biochemical characteristics with endocrine disease in humans.

[Structural and functional characteristics of glutamate transporters: how they are related to epilepsy and oxidative stress]. / Caracteristicas estructurales y funcionales de los transportadores de glutamato: su relacion con la epilepsia y el estres oxidativo.

AIMS: The article highlights the general structural characteristics, functional properties and distribution of glutamate transporters, as well as the role they play in epilepsy and oxidative stress. DEVELOPMENT: Transporters of amino acids such as glutamate are considered to be proteins that are extremely important in the central nervous system because they participate in the capture of the neurotransmitter following its release in the synaptic cleft, thus putting an end to its effect and limiting glutamate-mediated excitability. These proteins belong to the family of Na+/K+ dependent transporters. A growing body of evidence has been gathered to show that these transporters are involved in several neuronal disorders, such as epilepsy and cerebral ischaemia. In this regard, it is considered that some defect in the structure of the transporters could affect their functioning and, therefore, favour the hyperexcitability produced by glutamate; this in turn would lead to the pathological disorders that are found in epilepsy. CONCLUSIONS: A detailed study of the structure and functioning of these transporters, as well as the role they play in the more common neurological diseases, such as epilepsy, would afford us a clearer view of new therapeutic alternatives with which to fight this kind of neuronal disorder in the future.

Características estructurales y funcionales de los transportadores de glutamato: su relación con la epilepsia y el estrés oxidativo / Structural and functional characteristics of glutamate transporters: how they are related to epilepsy and oxidative stress

Se enfatizan las características estructurales generales, las propiedades funcionales y la distribución de los transportadores de glutamato, así como la participación de éstos en la epilepsia y el estrés oxidativo. Desarrollo. Los transportadores de aminoácidos como el glutamato se consideran proteínas de suma importancia en el sistema nervioso central,ya que participan en la captura del neurotransmisor posterior a su liberación en la hendidura sináptica para finalizar de esta manera su efecto y limitar la excitabilidad mediada por el glutamato. Estas proteínas se incluyen en la familia de lostransportadores dependientes de Na+/K+. Numerosas evidencias demuestran la participación de los transportadores en variostrastornos neuronales, como la epilepsia y la isquemia cerebral. A este respecto se considera que algún defecto en la estructura de los transportadores podría afectar su función y, por tanto, favorecer la hiperexcitabilidad producida por el glutamato, de tal manera que conduzca a las alteraciones patológicas que se presentan en la epilepsia. Conclusiones. El estudio detalladode la estructura y función de estos transportadores, así como del papel que desempeñan en las enfermedades neurológicas más comunes como la epilepsia, permitirá visualizar con claridad nuevas alternativas terapéuticas para combatir este tipo de afecciones neuronales en el futuro

The article highlights the general structural characteristics, functional properties and distribution of glutamate transporters, as well as the role they play in epilepsy and oxidative stress. Development. Transporters of amino acids such as glutamate are considered to be proteins that are extremely important in the central nervous system because theyparticipate in the capture of the neurotransmitter following its release in the synaptic cleft, thus putting an end to its effect and limiting glutamate-mediated excitability. These proteins belong to the family of Na+/K+ dependent transporters. A growingbody of evidence has been gathered to show that these transporters are involved in several neuronal disorders, such as epilepsy and cerebral ischaemia. In this regard, it is considered that some defect in the structure of the transporters could affect their functioning and, therefore, favour the hyperexcitability produced by glutamate; this in turn would lead to thepathological disorders that are found in epilepsy. Conclusions. A detailed study of the structure and functioning of these transporters, as well as the role they play in the more common neurological diseases, such as epilepsy, would afford us a clearer view of new therapeutic alternatives with which to fight this kind of neuronal disorder in the future

Action of 4-aminopyridine on extracellular amino acids in hippocampus and entorhinal cortex: a dual microdialysis and electroencehalographic study in awake rats.

In order to study the role of amino acids in the hippocampus and the entorhinal cortex during the convulsive process induced by 4-aminopyridine (4-AP), we have used a device allowing the simultaneous microdialysis and the recording of their electrical activity of both regions in freely moving rats. We found that infusion of 4-AP into the entorhinal cortex resulted in a large increase in extracellular glutamate and glutamine and small increases in glycine and taurine levels. Likewise, infusion of 4-AP into the hippocampus resulted in a major increase in glutamate, as well as slight increases in taurine and glycine. In both infused regions the peak concentration of extracellular glutamate was observed 15 min after 4-AP administration. No significant changes were found in the non-infused hippocampus or entorhinal cortex of the same rats. Simultaneous electroencephalographic recordings showed intense epileptiform activity starting during 4-AP infusion and lasting for the rest of the experiment (1 h) in both the entorhinal cortex and the hippocampus. The discharges were characterized by poly-spikes and spike-wave complexes that propagated almost immediately to the other region studied. These findings suggest that increased glutamatergic synaptic function in the circuit that connects both regions is involved in the epileptic seizures induced by 4-AP.

Cortical catecholamine changes and seizures induced by 4-aminopyridine in awake rats, studied with a dual microdialysis-electrical recording technique.

We describe a rotatory electrical device that permits the simultaneous microdialysis and electroencephalographic (EEG) recording, by means of bipolar electrodes attached to the microdialysis probe, in two brain regions of awake rats. Using this device, we have found that the microdialysis infusion of 4-aminopyridine (4-AP) in the motor cerebral cortex produces intense behavioral convulsions and EEG seizures in both the infused and the contralateral cortex. This convulsant action is accompanied by a remarkable increase of extracellular dopamine (about 15-fold), norepinephrine (2.4-fold) and vanillylmandelic acid (1.8-fold) concentration in the infused cortex. Delayed increases of these amines were observed also in the contralateral cortex. The results suggest that 4-AP induces the release of catecholamines either through a direct effect on nerve endings or as a consequence of seizures.

Acceleration of functional recovery from motor cortex ablation by two Ginkgo biloba extracts in rats.

We studied the effects of two extracts of Ginkgo biloba, with and without terpenes, on motor recovery from cortical hemiplegia. Both extracts of the reference product (EGb761-IPSEN) produced a dose-dependent acceleration of behavioral recovery and diminished ventricular dilation in lesion rats. These results indicate that the active substance(s) participating in the beneficial effect of EGb761 is (are) contained in the non-terpenic fraction of the extract.

[Considerations on 200 cases of vaginal burns by potassium permanganate]. / Consideraciones sobre 200 casos de quemaduras vaginales con permanganato de potasio.

PIP: Potassium permanganate in tablets is still used in Mexico under the wrong belief that it will induce abortion. What it does, instead, is to provoke deep burns and ulcers in the vaginal walls, and to cause serious hemorrhage. This study investigates 200 women who used potassium permanganate as an abortifacient agent, and who needed hospitalization. Average age was 28; 58.5% had 4 or more children; 88.5% were married, and 11.5% were not; all patients belonged to the lowest socioeconomic class. Many had antecedents of induced abortion, and most had been amenorrheic for only 4-5 weeks. 23.5% of patients was not pregnant. Acute anemia was the most common complication, followed by hypovolemic shock. In this series there was 21.5% of diagnostic error, which shows the importance of suspecting this pathologic entity in women bleeding profusely and for whom induced abortion is suspected.^ieng