Neurotoxic effects of 2,3,7,8-tetrachlorodibenzo-p-dioxin in cerebellar granule cells

An environmental pollutant, tetrachloro dibenzo dioxin (TCDD) is known to illicit the cognitive disability and motor dysfunction in the developing brain. TCDD induced effects leading to neurodevelopmental and neurobehavioral deficit may have been defined, however underlying molecular mechanism and possible intracellular targets remain to be elucidated. In this study, we attempted to analyze TCDD-induced neurotoxic effects in the granule cells from cerebellum where certain cognitive abilities and motor function command are known to be excuted. [3H]PDBu, (phorbol 12,13-dibutyrate) binding assay indicated that TCDD induced a dose-dependent increase of total PKC activity and its induction was the aryl hydrocarbon receptor (AhR) dependent and N-methyl-D-aspartate receptor (NMDAR) independent. TCDD also caused the translocation of both PKC-alpha and -epsilon in a dose-dependent manner but associated with different receptors; PKC-alpha via AhR but not PKC-epsilon indicating an isozyme-specific pattern of the induction. Increase of the ROS formation was also observed in the cells treated with TCDD in a dose-dependent and an AhR-dependent manner. The treatment of the cells with the diamino dicyano-bis(2-aminophenylthio) butadiene (U0126, MEK-1/2 inhibitor), dizocilpine maleate (MK-801, non-competitive N-methyl-D-aspartate glutamate receptor antagonist) and vitamin E attenuated the TCDD-induced ROS production indicating that TCDD-induced ROS formation may be associated with activation of ERK-1/2 in the MAP kinase pathway or the NMDA receptor. TCDD also increased [Ca2+]i, which is associated with ROS formation and PKC activation in the cerebellar granule cells. It is suggested that TCDD activates the NMDA receptor, which may induce a sustained increase of [Ca2+]i in neurons followed by the ROS formation. Our findings may contribute to understanding the mechanism of TCDD-related neurotoxicity, thereby improving the health risk assessment of neurotoxic compounds in humans.

Pretreatment with phorbol ester and an LHRH asgonist reduces testosterone production and protein kinase C activity in rat Leydig cells challenged with PDBu and LHRH

We have investigated the role of protein kinase C (PK-C) in luteinizing hormone-releasing hormone (LHRH)-induced testosterone secretion from purified rat Leydig cells (70-80-day old Sprague-Dawley rats) by pretreating the cells in vitro with 200 mM phorbol 12,13-dibutyrate (PDBu) (a known procedure to down-modulate this enzyme in most cell types) and 1 muM [D-Ala6,Des-Glyl0]-LHRH ethylamide, an LHRH agonist (LHRH-A). Following pretreatment we measured PK-C activity and secretion of testosterone in response to subsequent challenges with the PK-C activator PDBu (20-2000 nM) and with LHRH (0.001-1.0 muM) and the Ca2+ mobilizing secretagogue A23187 (0.1-1OO muM) in the same cell preparation. PDBu and LHRH-A pretreatments caused a reduction in testosterone secretion in response to subsequent exposure to PDBu or LHRH. Both pretreatments decreased PK-C activity in crude and purified extracts of the same cells. The magnitude of reduction of the secretory response was greater than that of enzyme activity for both PDBu and LHRH-A pretreatment (68.9 per cent reduction of testosterone secretion vs 54.7 per cent reduction of PK-C activity in PDBu-pretreated cells and 78.6 per cent reduction of testosterone production vs 36.6 per cent reduction of PK-C activity in LHRH-A-pretreated cells). The effect of phorbol ester pretreatment on PDBu- or LHRH-stimulated testosterone secretion and PK-C activity was specific (no measurable effect with 4 alpha-PDBu, an inactive phorbol ester). While PDBu and LHRH-A pretreatment reduced Leydig cell responsiveness to PDBu or LHRH, the secretion of testosterone in response to the Ca2+ -mobilizing secretagogue A23187 was similar in PDBu- and LHRH-A-pretreated and in control (non-pretreated) cells. We conclude that down-modulation of protein kinase C by prolonged exposure of Leydig cells to phorbol esters or LHRH-A results in decreased PK-C activity and testosterone secretion. These results provide the first evidence that pretreatment with LHRH-A, which does not enter the cell, can affect the steroidogenesis and PK-C activity responses to PDBu (the intracellular ligand of PK-C).

Efecto del pre-ligamiento del receptor de complemento tipo I en la fagocitosis mediada por el receptor para Fc / Effect of complement type I receptor pre-ligament in the phagocytosis mediated by Fc receptor

El preligamiento del receptor de C3b (CR1) con su ligando potencia la fagocitosis mediada por el receptor para Fc (FcR) en monocitos cultivados, pero no en monocitos frescos. Nuestros estudios se dirigieron a establecer si la cooperación CR1-FcR ocurre en neutrófilos en reposo o activados. Activando neutrófilos con dosis de 1 a 5 ng/ml de PDBu observamos estimulación de la fagocitosis via Fc, mientras que a concentraciones mayores hubo una inhibición de la misma. La adherencia de las células sobre C3 inactivado (iC3) en forma simultánea al tratamiento con dosis estimulatorias o subinhibitorias de PDBu no incrementó la ingestión de eritrocitos de carnero sensibilizados con IgG (E-IgG); aun variando la cantidad de anticuerpo sensibilizante o estimulando a las células con PDBu durante distintos tiempos. La estimulación de los neutrófilos con diferentes concentraciones de fMLP en forma simultánea a la adherencia sobre iC3 tampoco incrementó la fagocitosis de los blancos mediada por el FcR. La comunicación entre el CR1 y el FcR difere en neutrófilos y monocitos, hecho que podría relacionarse con el mecanismo de activación del CR1 y la clase de FcR encontrado en cada tipo de celular