Entry, Half-Life, and Desferrioxamine-Accelerated Clearance of Brain Aluminum after a Single 26Al Exposure

doi:10.1093/toxsci/64.1.77

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Toxicological Sciences 64, 77-82 (2001)
Copyright © 2001 by the Society of Toxicology

NEUROTOXICOLOGY

Entry, Half-Life, and Desferrioxamine-Accelerated Clearance of Brain Aluminum after a Single ²⁶Al Exposure

Robert A. Yokel^*^,^,1, Susan S. Rhineheimer^*, Pankaj Sharma, David Elmore and Patrick J. McNamara^*^,

^* College of Pharmacy and Graduate Center for Toxicology, University of Kentucky Medical Center, Lexington, Kentucky 40536-0082; and Purdue Rare Isotope Measurement Laboratory, Department of Physics, Purdue University, West Lafayette, Indiana 47907

The objectives of our study were to estimate the percentageof aluminum (Al) that enters the brain, the half-life of brainAl, and the ability of an Al chelator to reduce brain Al. Ratsreceived an iv infusion of Al transferrin, the primary Al speciesin plasma, or Al citrate, the predominant small molecular weightAl species in plasma. The infusion contained $~$ 0.2–0.3nCi (0.4–0.6 nmol) ²⁶Al, enabling the study of Al distributioninto and retention by the brain at physiological Al concentrations.Some Al transferrin–infused rats received ip injectionsof the Al chelator desferrioxamine (DFO), 0.15 mmol/kg, threetimes weekly. The others received saline injections. The ratswere euthanized from 4 hr to 4 days (Al citrate) or 256 days(Al transferrin) later. Brain ²⁶Al was determined by acceleratormass spectrometry. Peak brain ²⁶Al concentration was $~$ 0.005%of the ²⁶Al dose in each gram of brain, irrespective of Al speciesadministered. In the absence of DFO treatments, brain ²⁶Al concentrationdecreased with a half-life of approximately 150 days. The brainAl half-life in the DFO-treated rats was approximately 55 days.The results show a small fraction of Al in blood enters thebrain, where it persists for a long time. The ability of repeatedDFO treatments to modestly accelerate the reduction of brainAl is consistent with the necessity of prolonged DFO therapyto significantly reduce Al-induced dialysis encephalopathy.

Key Words: accelerator mass spectrometry; aluminum; brain; chelation therapy; desferrioxamine; half-life; rat.

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