Detection of pantothenic acid-immunoreactive neurons in the rat lateral septal nucleus by a newly developed antibody

Introduction. The available immunohistochemical techniques have documented restricted distribution of vitamins in the mammalian brain. The aim of the study was to develop a highly specific antiserum directed against pantothenic acid to explore the presence of this vitamin in the mammalian brain. Material and methods. According to ELISA tests, the anti-pantothenic acid antiserum used showed a good affinity (10–8 M) and specificity. The antiserum was raised in rabbits. Using an indirect immunoperoxidase technique, the mapping of pantothenic acid-immunoreactive structures was carried out in the rat brain. Results. Pantothenic acid-immunoreactive perikarya were exclusively found in the intermediate part of the lateral septal nucleus. These cells were generally small, round, fusiform or pyramidal and showed 2–3 long (50–100 μm) immunoreactive dendrites. Any immunoreactive axons containing pantothenic acid were detected. Conclusions. The very restricted anatomical distribution of the pantothenic acid suggests that this vitamin could be involved in some specific neurophysiological mechanisms

Generation of specific antisera directed against D-amino acids: focus on the neuroanatomical distribution of D-glutamate and other D-amino acids

This review updates the findings about the anatomical distribution (using immunohistochemical techniques) and possible functions of D-glutamate in the central nervous system of mammals, as well as compares the distribution of D-glutamate with the distribution of the most studied D-amino acids: D-serine and D-aspartate. The protocol used to obtain highly specific antisera directed against D-amino acids is also reported. Immunoreactivity for D-glutamate was found in dendrites and cell bodies, but not in nerve fibers. Perikarya containing D-glutamate were found in the mesencephalon and thalamus. The highest density of cell bodies was found in the dorsal raphe nucleus, the mesencephalic central grey matter, the superior colliculus, and in the subparafascicular thalamic nucleus. In comparison with the distribution of immunoreactive cell bodies containing D-serine or D-aspartate, the distribution of D-glutamate-immunoreactive perikarya is less widespread. Currently, the physiological actions mediated by D-glutamate in the brain are unknown but the restricted neuroanatomical distribution of this D-amino acid suggests that D-glutamate could be involved in very specific physiological mechanisms. In this sense, the possible functional roles of D-glutamate are discussed

Evidence for the existence of Myalgic Encephalomyelitis/Chronic Fatigue Syndrome (ME/CFS) with and without abdominal discomfort (irritable bowel) syndrome.

There is evidence that Myalgic Encephalomyelitis/Chronic Fatigue Syndrome (ME/CFS) is accompanied by gastro-intestinal symptoms; and IgA and IgM responses directed against lipopolysaccharides (LPS) of commensal bacteria, indicating bacterial translocation

Overexpression of kynurenic acid and 3-hydroxyanthranilic acid after rat traumatic brain injury

[EN]Using an immunohistochemical technique, we have studied the distribution of kynuneric acid (KYNA) and 3-hydroxyanthranilic acid (3-HAA) in a rat brain injury model (trauma). The study was carried out inducing a cerebral ablation of the frontal motor cortex. Two mouse monoclonal specific antibodies previously developed by our group directed against KYNA and 3-HAA were used. In control animals (sham-operated), the expression of both KYNA and 3-HAA was not observed. In animals in which the ablation was performed, the highest number of immunoreactive cells containing KYNA or 3-HAA was observed in the region surrounding the lesion and the number of these cells decreased moving away from the lesion. KYNA and 3-HAA were also observed in the white matter (ipsilateral side) located close to the injured region and in some cells placed in the white matter of the contralateral side. The distribution of KYNA and 3-HAA perfectly matched with the peripheral injured regions. The results found were identical independently of the perfusion date of animals (17, 30 or 54 days after brain injury). For the first time, the presence of KYNA and 3-HAA has been described in a rat trauma model

Autoanti-phosphatidylinositide antibodies specifically inhibit noradrenaline effects on Ca2+ and Cl- channels in rat portal vein myocytes.

International audienceHigh levels of circulating autoantibodies (auto-Ab) directed against phosphatidylinositides have been identified in the sera of patients with malignant tumors. These polyclonal autoantibodies had higher avidity and specificity for phosphatidylinositol (PtdIns) than for the other phosphatidylinositides. Effects of the auto-Ab were studied in smooth muscle myocytes in the PtdIns-involving transduction mechanism triggered by activation of alpha 1-adrenoceptors. Noradrenaline activated a Ca(2+)-dependent Cl- current through the Ca(2+)-releasing action of inositol 1,4,5-trisphosphate (InsP3) and enhanced the Ca2+ channel current through a diacylglycerol and protein kinase C-dependent mechanism. External applications of auto-Ab (0.03-0.3 mg/ml) were without effect on noradrenaline-induced responses whereas intracellular applications (0.0004-0.012 mg/ml) inhibited both Cl- current activation and Ca2+ channel current stimulation. Intracellular applications of IgG from healthy donors had no effect on noradrenaline-induced responses. When anti-PtdIns Ab were preincubated with PtdIns the inhibition of the noradrenaline-induced responses on Ca2+ and Cl- channels was not observed. Autoanti-PtdIns Ab inhibited also the acetylcholine-activated Cl- current, confirming that the acetylcholine response was mediated through the phosphatidylinositol breakdown. In contrast, the autoanti-PtdIns Ab were ineffective against the transduction pathway after beta-adrenoceptor activation. Therefore, these results suggest that the biological effect of autoanti-PtdIns Ab results from a specific binding to membrane PtdIns or PtdIns metabolites and thereby prevented InsP3 and diacylglycerol production. These autoanti-PtdIns Ab appear to be a new specific tool to identify the role of phosphatidylinositides in intracellular transduction processes