Porphyrin–antibody conjugates have been examined for use in radiopharmaceuticals for both diagnostic and therapeutic applications. Here, all such conjugates wherein the porphyrin serves to chelate a radiometal are reviewed with emphasis on the molecular design, method of synthesis, and means of conjugation of the porphyrins. In each case, the porphyrins are equipped with four meso-aryl substituents (A 4 - or A 3 B-type) and no Formula: see text-pyrrole substituents. The number of porphyrins per antibody (i.e., conjugation ratio) is reported to range from 0.8 to 10. The radionuclides that have been chelated by the porphyrins include Formula: see textCu(II), Formula: see textCu(II), and Formula: see textIn(III). While a handful of conjugation methods have been employed, most have relied on reaction between a porphyrin acyl motif and the Formula: see text-amino group of lysine. The respective binomial and Poissonian statistics of porphyrin formation and antibody derivatization are discussed. All reports concerning porphyrin–antibody conjugates wherein the porphyrin chelates a radiometal appeared in the period 1987–1997 from two research teams. The subsequent quiescence of this ostensibly promising research avenue is contrasted with the tremendous growth of other antibody-targeted therapies and the theranostic applications of radionuclides.
Lawing et al. (Mon,) studied this question.
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