Regional blood-brain barrier transport of cationized bovine serum albumin in awake rats.

Regional blood-brain barrier permeability-surface area products (PAs) of cationized bovine serum albumin (cBSA) with isoelectric point (pI) approximately 8 or greater than or equal to 11 and of native bovine serum albumin (nBSA;pI approximately 4) were determined in awake male Sprague-Dawley rats after bolus intravenous injection. The albumins were labeled with 125I. Brain uptakes were assessed by autoradiography and by direct assay of radioactivity in brain regions. nBSA uptake into brain was statistically insignificant over 3 h, whereas cBSA uptake was significantly even at 6 min. Mean PA values of cBSA with pI approximately 11 (1.69-2.65 x 10(-5) ml.s-1.g-1) in most brain regions were twofold higher than PAs of cBSA with pI approximately 8 (0.98-1.37 x 10(-5) ml.s-1.g-1), whereas mean PA for nBSA did not differ significantly from zero. Autoradiographs of brain slices and net distributions in brain compartments at 6 and 30 min after injection suggested that cBSA entered the brain parenchyma via blood vessels and cerebrospinal fluid but that the former was the main route. The results quantitate for the first time regional brain PA values for cationized proteins and suggest specific mechanisms at cerebral blood vessels that distinguish transport of cationized from noncationized macromolecules.