Antitumor activity of (R,R')-4-methoxy-1-naphthylfenoterol in a rat C6 glioma xenograft model in the mouse.

(R,R')-4-methoxy-1-naphthylfenoterol (MNF) inhibits cancer cell proliferation in vitro through cell-type specific modulation of β2-adrenergic receptor and/or cannabinoid receptor function. Here, we report an investigation into antitumor activity of MNF in rat C6 glioma cells. The potent antiproliferative action of MNF in these cells (IC50 of ∼1 nmol/L) was refractory to pharmacological inhibition of β2-adrenergic receptor while a synthetic inverse agonist of cannabinoid receptor 1 significantly blocked MNF activity.

Monoamines and glycogen levels in cerebral cortices of fast and slow methionine sulfoximine-inbred mice.

The experimental model of seizures which depends upon methionine sulfoximine (MSO) simulates the most striking form of human epilepsy. MSO generates epileptiform seizures in a large variety of animals, increases brain glycogen content and induces brain monoamines modifications. We selected two inbred lines of mice based upon their latency toward MSO-dependent seizures, named as MSO-Fast (sensitive), having short latency toward MSO, and MSO-Slow (resistant) with a long latency.

Ultrastructural characterization of rat neurons in primary culture.

Few studies have addressed the ultrastructure and morphology of neurons in primary pure culture. We therefore use immunohistochemistry and electron microscopy to investigate the ultrastructure of cultured neurons during extended incubation in vitro. Rat cerebral cortex neurons were cultured in Neurobasal™ medium.

Phenotypic differences between fast and slow methionine sulfoximine-inbred mice: seizures, anxiety, and glutamine synthetase.

Seizures induced by the convulsant methionine sulfoximine (MSO) resemble human "grand mal" epilepsy, and brain glutamine synthetase is inhibited. We recently selected two inbred lines of mice: sensitive to MSO (MSO-Fast) and resistant (MSO-Slow). In the present study, the selection pressure was increased and consanguinity established.

Serotonergic neurotransmission plays a major role in the action of the glycogenic convulsant methionine sulfoximine.

Abnormalities of carbohydrate metabolism and monoamine neurotransmitters have been widely implicated in the pathoetiology of human epilepsy, and glucose hypometabolism and/or tryptophan utilization can be used to localize epileptic foci in the human brain. To investigate the neurochemical changes that underlie seizure susceptibility we studied four strains of mice that respond differently to the convulsant methionine sulfoximine (MSO). Seizures in CBA/J strain were induced by MSO at a dosage half that necessary to provoke seizures in C57BL/6J, BALB/c, or Swiss mice.

Pharmacological, neurochemical, and behavioral profile of JB-788, a new 5-HT1A agonist.

A novel pyridine derivative, 8-{4-[(6-methoxy-2,3-dihydro-[1,4]dioxino[2,3-b]pyridine-3-ylmethyl)-amino]-butyl}-8-aza-spiro[4.5]decane-7,9-dione hydrochloride, termed JB-788, was designed to selectively target 5-HT(1A) receptors. In the present study, the pharmacological profile of JB-788 was characterized in vitro using radioligands binding tests and in vivo using neurochemical and behavioural experiments.

Brain glycogen and neurotransmitter levels in fast and slow methionine sulfoximine-selected mice.

Brain glycogen could be considered as an energy store for neuronal activity, with high relevance in epilepsies. We selected two lines of mice based upon their latency to methionine sulfoximine (MSO) dependent-seizures: MSO-Fast and MSO-Slow, and their neurochemical characterization was attempted in order to look for the mechanisms of epileptogeny. We determined the MSO effect on brain glycogen in the two selected lines and their eight parental strains, and on indolamines and catecholamines.

Selection of two lines of mice based on latency to onset of methionine sulfoximine seizures.

Purpose: In various animals methionine sulfoximine (MSO) induces tonic-clonic seizures resembling the most striking form of human epilepsies. The aim of the present study was to select two lines of mice based upon differences in their latency to MSO-dependent seizures, in order to characterize them.

Methods: Random crosses involving eight inbred mice strains were used to generate the starting population in which the first MSO challenge (75 mg/kg, i.

Identification and characterization of estrogen receptor-related receptor alpha and gamma in human glioma and astrocytoma cells.

The purpose of this study was to examine expression and function of estrogen receptor-related receptors (ERRs) in human glioma and astrocytoma cell lines. These estrogen receptor-negative cell lines expressed ERRalpha and ERRgamma proteins to varying degree in a cell context dependent manner, with U87MG glioma cells expressing both orphan nuclear receptors. Cell proliferation assays were performed in the presence of ERR isoform-specific agonists and antagonists, and the calculated EC(50) and IC(50) values were consistent with previous reported values determined in other types of cancer cell lines.

Epilepsy, regulation of brain energy metabolism and neurotransmission.

Seizures are the result of a sudden and temporary synchronization of neuronal activity, the reason for which is not clearly understood. Astrocytes participate in the control of neurotransmitter storage and neurotransmission efficacy. They provide fuel to neurons, which need a high level of energy to sustain normal and pathological neuronal activities, such as during epilepsy.

A new putative target for antisense gene therapy of glioma: glycogen synthase.

The treatment of malignant brain gliomas remains a challenge, despite the availability of the classical triad of surgery, radiotherapy, and chemotherapy. There is thus the need for investigations into other forms of treatment strategies, such as gene therapy. Using antisense technology we have targeted glycogen metabolism, since malignant astrocytes present a high content of glycogen.

Insulin-like growth factor type I biology and targeting in malignant gliomas.

Growth factors such as insulin-like growth factor type I (IGF-I), epidermal growth factor (EGF), vascular-endothelial growth factor (VEGF) and transforming growth factor beta (TGF-beta) are present during the development of the CNS. When they reappear in the mature brain they are overexpressed in neoplastic glia, participating in the development of the most common human brain malignant tumor, glioblastoma multiforme, which is invariably fatal. Progress in treatment of this disease involves an increase in median survival from 8 to 11 months to an average of 15 months, rarely to 18 months.

Regressive aortic valve and infundibular tumors during idiopathic hypereosinophilic syndrome.

Fibroblastic endocarditis is a classic complication of prolonged hypereosinophilic syndrome, whatever the cause. In France, it is most frequently encountered in cases of idiopathic hypereosinophilic syndrome. It commonly involves the apex of the ventricles, with a clinical picture of restrictive cardiomyopathy of unfavorable prognosis, and the auriculoventricular valves.

Corroboration of Dahl S Q276L alpha1Na,K-ATPase protein sequence: impact on affinities for ligands and on E1 conformation.

Objective: Multifactorial analyses support the hypothesis that alpha1Na,K-ATPase is a hypertension susceptibility gene in Dahl S rats. However, two studies report non-detection of the A1079T transversion underlying the Q276L substitution in Dahl S alpha1Na,K-ATPase questioning the validity of ATP1A1 as a hypertension susceptibility gene. To resolve this discordance, we investigated the issue at the protein level.

Stable transfection of cDNAs targeting specific steps of glycogen metabolism supports the existence of active gluconeogenesis in mouse cultured astrocytes.

In order to assess the participation of astrocytic gluconeogenesis in the synthesis of glycogen, mouse astrocytes were stably transfected with antisense cDNA of fructose-1,6-bisphosphatase (FBPase) and with sense and antisense cDNAs of glycogen synthase (GS). The antisenses of FBPase and GS have similar significant effect in decreasing astrocyte glycogen content by 60%, while sense GS significantly increased glycogen content by 100%. The FBPase activity was decreased by all three cDNAs used, while glycogen phosphorylase was not altered.

In vivo and in vitro glycogenic effects of methionine sulfoximine are different in two inbred strains of mice.

We investigated the relationship between brain glycogen anabolism and methionine sulfoximine (MSO)-induced seizures in two inbred mouse strains that presented differential susceptibility to the convulsant. CBA/J was considered a MSO-high-reactive strain and C57BL/6J a MSO-low-reactive strain. Accordingly, the dose of MSO needed to induce seizures in CBA/J mice is lower than that in C57BL/6J mice, and CBA/J mice which had seizures, died during the first convulsion.

Chronic inhibition of glutamine synthetase is not associated with impairment of learning and memory in mice.

The convulsant methionine sulfoximine (MSO) is a byproduct of the agenized flour commonly used for feeding domestic animals decades ago. MSO is a powerful glycogenic and epileptogenic agent, and it is an irreversible inhibitor of glutamine synthetase. This latter effect was hypothesized to be responsible for the increase in the incidence of some neuropathologies in humans, such as Alzheimer's disease or Parkinson's disease.

Development of an immobilized brain glutamine synthetase liquid chromatographic stationary phase for on-line biochemical studies.

Glutamine synthetase (GS) plays a key role in the regulation of glutamate availability to neurons. In the present study glutamine synthetase was immobilized on a silica-based immobilized artificial membrane liquid chromatographic stationary phase (IAM-SP) to create the GS-IAM. The stability of GS was improved by immobilization, but the enzyme's affinity for the substrates L-glutamate and D-glutamate was significantly decreased.

The xenobiotic methionine sulfoximine modulates carbohydrate anabolism and related genes expression in rodent brain.

Methionine sulfoximine is a xenobiotic amino acid derived from methionine. One of its major properties is to display a glycogenic activity in the brain. After studying this property, we investigate here a possible action of this xenobiotic on the expression of genes related to carbohydrate anabolism in the brain.

Correlation between brain glycogen and convulsive state in mice submitted to methionine sulfoximine.

It is now well established that in epileptic patients, hypometabolic foci appear during interictal periods. The meaning and the mechanism of such an hypometabolism are as yet unclear. The aim of the present investigation was to look for a putative relationship between glucose metabolism in the brain and the genesis of seizures in mice using administration of the convulsant, methionine sulfoximine.

[Acute eosinophilic myocarditis: a diagnostic and therapeutic emergency].

This report describes three histologically documented cases of acute eosinophilic myocarditis. These three cases illustrate the different clinical and therapeutic outcomes of this disease which can range from full recovery under prolonged corticosteroid treatment to requirement for emergency heart transplantation or death due to intractable cardiac insufficiency. In absence of specific clinical or laboratory data, diagnosis must be established in vivo by endomyocardial biopsy demonstrating eosinophil-rich inflammatory infiltration and necrotic lesions.

Characterization of a sodium-response transcriptional mechanism.

On the basis of paradigms in development wherein discrete transcriptional events are pivotal regulatory steps, we tested the hypothesis that transcriptional sodium (Na+)-response mechanisms are involved in in vivo Na+-induced responses relevant to normal (homeostatic) and pathophysiological (salt-sensitive hypertension) conditions. We used Na,K-ATPase alpha-subunit genes as molecular probes and the Na+ ionophore monensin to induce a dose-specific incremental increase in [Na+]i in rat A10 embryonic aortic smooth muscle cells. RNA blot analysis of rat A10 cells revealed a dose-specific (0.

Various fructose-1,6-bisphosphatase mRNAs in mouse brain, liver, kidney and heart.

The mouse fructose-1,6-bisphosphatase (FBPase) cDNA was previously cloned from testicular teratocarcinoma cultured cells (F9 cells). Using this published nucleotide sequence four primer sets were defined and used to amplify FBPase transcript from cerebral cortex, heart, kidney, liver and testis of male C57B1/6 mice. Only one primer set was efficient in all total RNA prepared from the various tissues.

[Evidence for two alpha 2B-adrenoreceptor isoforms in the renal cortex of salt-sensitive and salt resistant Sabra rats. Effect of salt loading].

alpha 2-adrenoceptors are involved in various renal functions regulating blood pressure. They were classified in subtypes whom genes were identified in both humans and rats. In rat renal cortex it was evidenced that the alpha 2B isoform is predominant.