Chromatofocusing in the purification and separation of apo- and holo-(vitamin D-binding protein)

The uptake and metabolism of 25-hydroxyvitamin D3 and vitamin D binding protein by cultured porcine kidney cells (LLC-PK1)

1. Uptake of 3H-25OHD3, 3H-25OHD3-DBP, 125I-holo-DBP and 125I-apo-DBP by LLC-PK1 cells was linearly related to the concentration of each in the culture media. The presence of DBP in the medium significantly reduced the amount of 3H-25OHD3 taken up by cells. 2. Free 25OHD3 and 25OHD3 bound to DBP were both metabolized by the cells to 24,25(OH)2D3 and an unidentified product of apparent lower polarity than 25OHD3. 3. A significant amount of DBP taken up by the LLC-PK1 cells was metabolized to a TCA-soluble form. 4. Uptake of DBP was similar to horseradish peroxidase, but higher than inulin, indicative of a non-specific endocytic mechanism with an adsorptive component. 5. It is suggested that both free circulating 25OHD3 and that derived from lysosomal degradation of 25OHD3-DBP are available for hydroxylation by the kidney.

Chimeric peptides as a vehicle for peptide pharmaceutical delivery through the blood-brain barrier

A new strategy for peptide delivery through the brain capillary wall, i.e., the blood-brain barrier (BBB), is the synthesis of chimeric peptides which are formed by the covalent coupling of a non-transportable peptide (e.g., beta-endorphin) to a transportable peptide that undergoes receptor- or absorptive-mediated transcytosis at the BBB. beta-endorphin was covalently coupled via disulfide linkage to cationized albumin (pI greater than or equal to 9) which, owing to it's highly basic charge, undergoes rapid absorptive-mediated transport into brain from blood. The [3H]labeled beta-endorphin-cationized albumin chimera was rapidly taken up by isolated brain capillaries in vitro and by rat brain in vivo; conversely, the BBB uptake of native [3H]beta-endorphin was negligible. The synthesis of chimeric peptides is a new strategy for solving the problem of peptide delivery through the BBB.