Kazuaki Kamisaka scite author profile

The initial enzymic step in mercapturic acid formation is catalyzed by glutathione S-transferase.Several species of this enzyme, designated as transferases a, p, y, 6 and E on the basis of increasing isoelectric points, were isolated from human liver. Evidence is presented that each of the purified species is homogeneous with respect to sodium dodecylsulfate -gel electrophoresis. Transferases a, p and E each appear as a single band on gel electrofocusing; transferases y and 6 are present as two and three bands, respectively, with each band catalytically active. Amino acid analysis indicated the five transferases to be either very closely related or identical in this respect.All enzyme species have a molecular weight of about 48 500 and consist of two apparently identical subunits. The spectrum of substrates is the same for each although the enzymes differ slightly in specific activity. As is the case for the rat liver enzymes, each of the human transferases binds bilirubin although this compound is not a substrate.

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Interactions of bilirubin and other ligands with ligandin

Kamisaka¹,

Listowsky²,

Gatmaitan³

et al. 1975

Biochemistry

112

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Circular dichroism methods were used to study the structure of rat ligandin and the binding of organic anions to the protein. Ligandin has a highly ordered secondary structure with about 40%alpha helix, 15% beta structure, and 45% random coil. Bilirubin binding occurred primarily at a single high affinity site on the protein. The binding constant for bilirubin (5 X 10-7 Mminus 1) was the highest among the ligands studied. The bilirubin-ligandin complex exhibited a well-defined circular dichroic spectrum with two major overlapping ellipticity bands of opposite sign in the bilirubin absorption region. This spectrum was virtually a mirror image of that of human or rat serum albumin-bilirubin complexes. Studies on the direct transfer of bilirubin from ligandin to rat serum albumin showed that sasociation constants of bilirubin-ligandin complexes were approximately tenfold less than those of the bilirubin-albumin system. Ligandin exhibited a broad specificity with respect to the typeof ligand bond. A series of organic anions inclucing dyes used clinically for liver function tests, fatty acids, hormones, heme derivatives, bile acids, and other ligands that were considered likely to interact with ligandin, were examined. Most induced ellipticity changes consistent with competitive displacement of bilirubin from ligandin and relative affinities of these compounds for ligandin were determined based on their effectiveness in desplacing the bilirubin. Some substances such as glutathione, conjugated sulfobromophthaleins and lithocholic acid bound to ligandin but induced anomalous spectral shifts, when added to ligandin-bilirubin complexes. Other compounds, including some that act as substrates for the glutathione transferase activity exhibited by ligandin, revealed no apparent competitive effects with respect to the bilitubin binding site.

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Structural and functional studies of ligandin, a major renal organic anion-binding protein.

Kirsch¹,

Fleischner²,

Kamisaka³

et al. 1975

J. Clin. Invest.

129

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Mechanism of the Reflex Depressor Effect by Kidney in Dog

1967

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The binding of indocyanine green and other organic anions to serum proteins in liver diseases

Kamisaka

Yatsuji

Yamada

et al. 1974

Clinica Chimica Acta

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