| abstract |
The invention provides a method for making a selenium-carrier conjugate by covalently attaching (i) an organic selenium compound selected from the group consisting of RSeH, RSeR, RSeR', RSeSeR and RSeSeR', wherein R and R' are each an aliphatic residue containing at least one reactive group selected from the group consisting of aldehyde, amino, alcoholic, carboxylic, phosphate, sulfate, halogen or phenolic reactive groups and combinations thereof, to (ii) a carrier having a constituent capable of forming a covalent bond with said reactive groups of said selenium compound to produce a selenium-carrier conjugate which is capable of specific attachment to a target site. The carrier may be a protein, such as an antibody specific to a bacteria, virus, protozoa, or cell antigen, including without limitation, cell surface antigens, a peptide, carbohydrate, lipid, vitamin, drug, lectin, plasmid, liposome, nucleic acid or a non-metallic implantable device, such as an intraocular implant or a vascular shunt. The attachment of selenium compounds of the configurations described above to carriers when presented to either endogenous thiols, such as glutathione which occurs in all aerobic living cells, or exogenous thiols, such as glutathione or cysteine, produces superoxide (O2.-), hydrogen peroxide, the hydroxyl radical (.OH) and other cytotoxic reactive oxygen species so as to collectively form a localized free radical pharmacology based upon the catalytic selenium anion, RSe-. |