Rapid Brain Uptake of Manganese(II) Across the Blood‐Brain Barrier

Abstract

⁵⁴Mn²⁺ uptake into brain and choroid plexus from the circulation was studied using the in situ rat brain perfusion technique. Initial uptake from blood was linear with time (30 s to 6 min) and extrapolated to zero with an average transfer coefficient of ∼6 × 10^-5 ml/s/g for brain and ∼7 × 10^-3 ml/s/g for choroid plexus. Influx from physiologic saline was three- to fourfold more rapid and exceeded that predicted for passive diffusion by more than one order of magnitude. The lower uptake rate from blood could be explained by plasma protein binding as the free fraction of ⁵⁴Mn²⁺ in rat plasma was ≤30%. Purified albumin, transferrin, and α₂-macroglobulin were each found to bind ⁵⁴Mn²⁺ significantly and to restrict brain ⁵⁴Mn²⁺ influx. The results demonstrate that ⁵⁴Mn²⁺ is readily taken up into the CNS, most likely as the free ion, and that transport is critically affected by plasma protein binding. The results support the hypothesis that Mn²⁺ transport across the blood-brain barrier is facilitated by either an active or a passive mechanism.