tacrolimus has been researched along with 3-4-5-3--4--pentachlorobiphenyl* in 1 studies
1 other study(ies) available for tacrolimus and 3-4-5-3--4--pentachlorobiphenyl
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ortho-substituted PCB95 alters intracellular calcium signaling and causes cellular acidification in PC12 cells by an immunophilin-dependent mechanism.
ortho-Substituted PCBs mobilize Ca2+ from isolated brain microsomes by interaction with FKBP12/RyR complexes. Investigation into the cellular importance of this mechanism was undertaken using PC12 cells by fluoroimaging the actions of specific PCB congeners on [Ca2+]i and pH. RyR and IP3R share a common intracellular Ca2+ store in PC12 cells. Perfusion of nM to low microM PCB95 caused a transient rise of [Ca2+]i that was not completely dependent on extracellular Ca2+. Pre-incubation of the cells with ryanodine or FK506 completely eliminated PCB95 responses, suggesting a primary action on the FKPP12/RyR-sensitive store. PCB95, but not PCB126, induced a gradual decrease in cytosolic pH that could be completely eliminated by FK506 pre-incubation of the cells. Direct respiration measurement using isolated brain mitochondria demonstrated that neither of the PCBs directly altered any stage of mitochondrial respiration. These results revealed that PCB95 disrupts intracellular Ca2+ signaling in PC12 cells by interaction with the FKBP12/RyR complex that in turn accelerated cellular metabolism, possibly affecting signaling between ER and mitochondria. Since ortho-substituted PCBs have been shown to be neurotoxic and may affect neurodevelopment, studies on the molecular mechanism by which they alter cellular signaling may provide valuable information on the physiological roles of FKPB12 and RyR on neuronal functions. Topics: Acidosis; Animals; Bradykinin; Brain Chemistry; Calcium; Calcium Signaling; Cell Respiration; Enzyme Inhibitors; Estrogen Antagonists; Hydrogen-Ion Concentration; Immunophilins; Inositol Phosphates; Intracellular Fluid; Male; Mitochondria; PC12 Cells; Pheochromocytoma; Polychlorinated Biphenyls; Rats; Rats, Sprague-Dawley; Ryanodine; Structure-Activity Relationship; Tacrolimus | 2001 |