The aim of our study was to localize phenolsulphotransferase (PST) in the developing mesonephric and metanephric kidneys of the human embryo and fetus using immunohistochemical methods with an antibody preparation recognizing members of the human phenolsulphotransferase enzyme family. In embryonic and early fetal development of the metanephric kidney, PST is located primarily in derivatives of the ureteric bud such as the ureter, pelvis, calyces and collecting ducts. This predominance declines by mid-fetal life: first, as nephrons evolve and develop they become increasingly PST-immunoreactive such that in mature metanephric kidney, the proximal tubules are highly PST-reactive, with other elements of the nephron also immunopositive (albeit at lower reactivities) and secondly, with the formation of an immunonegative transitional epithelium in ureter, pelvis and calyces, the reactivity retained in collecting ducts is only a small proportion of the total. The distribution of PST immunoreactivity is relatively uniform in proximal tubular cells throughout development, in contrast to collecting ducts, where, in fetal life, this reactivity is displaced to apices and bases by intracellular glycogen deposits. Mesonephric kidney tubules and the mesonephric duct are PST-immunoreactive and although mesonephric immunopositivity overlaps with that in the developing metanephric kidney the renal contribution to sulphation is absent or low at a time when the developing conceptus is most vulnerable to the potential toxic effects of teratogens.