Differential Effects of Commercial Polybrominated Diphenyl Ether and Polychlorinated Biphenyl Mixtures on Intracellular Signaling in Rat Brain In Vitro

doi:10.1093/toxsci/kfi147

ToxSci Advance Access published online on March 16, 2005
Toxicological Sciences, doi:10.1093/toxsci/kfi147

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Published by Oxford University Press 2005.
Received February 17, 2005
Accepted March 14, 2005

Neurotoxicology

Differential Effects of Commercial Polybrominated Diphenyl Ether and Polychlorinated Biphenyl Mixtures on Intracellular Signaling in Rat Brain In Vitro

Prasada Rao S. Kodavanti ¹^* and Thomas R. Ward ¹

¹ Cellular and Molecular Toxicology Branch, Neurotoxicology Division, NHEERL, ORD, U.S. Environmental Protection Agency, Research Triangle Park, NC 27711, USA

^* To whom correspondence should be addressed.
Prasada Rao S. Kodavanti, E-mail: kodavanti.prasada{at}epa.gov

Abstract

Polybrominated diphenyl ethers (PBDEs) are widely used asflame-retardants and have been detected in human blood, adiposetissue, and breast milk. Developmental and long-term exposuresto these contaminants may pose a human health risk, especiallyto children. Previously, we demonstrated that polychlorinatedbiphenyls (PCBs), which are neurotoxic and structurally similarto PBDEs, perturbed intracellular signaling events includingcalcium homeostasis and subsequent events such as protein kinaseC (PKC) which are critical for the normal function and developmentof the nervous system. The objective of the present study wasto test whether commercial PBDE mixtures (DE-71, a pentabrominateddipheyl ether mixture and DE-79, a mostly octabromodiphenylether mixture) affected intracellular signaling mechanisms ina similar way to that of PCBs and other organohalogens as anattempt to understand the common mode of action for these persistentchemicals. PKC translocation was studied by determining [³H]phorbolester ([³H]PDBu) binding in rat cerebellar granule cells; and,calcium buffering was determined by measuring ⁴⁵Ca²⁺-uptakeby microsomes and mitochondria, isolated from adult male ratbrain (frontal cortex, cerebellum, and hippocampus). As seenwith PCBs, DE-71 increased PKC translocation and inhibited ⁴⁵Ca²⁺-uptakeby both microsomes and mitochondria in a concentration-dependentmanner. The effect of DE-71 on ⁴⁵Ca²⁺-uptake seems to be similarin all three-brain regions. Between the two organelles, DE-71inhibited mitochondrial ⁴⁵Ca²⁺-uptake to a greater extent thanmicrosomal ⁴⁵Ca²⁺-uptake. DE-79 had no effects on either neurochemicalevent even at 30 µg/ml. Aroclor 1254 altered both eventsto a greater extent compared to DE-71 on a weight basis. Whenthe results were compared on a molar basis, Aroclor 1254 alteredPKC translocation and microsomal ⁴⁵Ca²⁺-uptake to a greaterextent than DE-71, however, Aroclor 1254 and DE-71 equally affectedmitochondrial ⁴⁵Ca²⁺-uptake. These results indicate that PBDEsperturbed intracellular signaling mechanisms in rat brain asdo other organohalogen compounds and the efficacy between thecommercial PCB and PBDE mixtures seem to vary with differentendpoints.

Keywords: Polychlorinated biphenyls (PCBs); Polybrominated diphenyl ethers (PBDEs); Neurotoxicity; Intracellular signaling; cytotoxicity; protein kinase C; calcium signaling.

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