Tadayoshi Miyazaki

Demonstration of antibody for glutamic pyruvic transaminase (GPT) in chronic hepatic disorders.

The present paper describes the detection of an autoantibody for glutamic pyruvic transaminase (GPT) in sera of patients with chronic hepatic disorders. In 16 out of 500 patients, the existence of an antibody for pig GPT was demonstrated by the double antibody method, gel filtration and radioimmunoelectrophoresis. The antibody was demonstrated as an immunoglobulin G (IgG) with either polyclonal or monoclonal type (kappa or lambda). The binding portion of IgG with GPT was determined as the fragment Fab, but not Fc of IgG. Because the binding of 125I-pig GPT with the patients antibody was displaced by human GPT, this antibody may have the characteristic of cross reacting with both pig and human GPT. Although the mechanism of production of the antibody for GPT and the pathological significance of the antibody in chronic hepatic disorders remained obscure, possible inhibition of GPT activity in serum is suggested in the presence of this antibody.

Production of antibody for α1-acid glycoprotein using carcinoembryonic antigen and normal fecal antigen

The structural characteristics of carcinoembryonic antigen (CEA) and CEA-like antigen in feces and meconium were examined using antibody raised against 2 antigens. When antibody to CEA was made, anti-alpha 1-acid glycoprotein (AG) (nonprecipitating antibody) besides the precipitating antibody for CEA was made. When antibodies against each CEA-like antigen (mol. wt. 180,000) purified from feces and meconium were tested, each antibody showed a fused precipitin line for 2 antigens. Some antibodies showed the non-precipitating antibody for AG. CEA and CEA-like antigen in feces and meconium may be composed of 2 portions (AG portion and non-AG portion). Antibody specific to these antigens may be the antibody directed to the non-AG portion.

Studies of Calmodulin-Like Portion in the TSH Receptor

Calmodulin (CaM) antagonists, such as W–7, W–5 chlorpromazine, and haloperidol, inhibited dose-dependently 125I–bTSH binding to its receptor. This inhibitory effect by CaM antagonist was diminished by the addition of EDTA. Not only anti–CaM antibody but also CaM inhibited dose–dependently 1251–bTSH binding to its receptor. These results may indicate the presence of a CaM–like structure in the membrane receptor for TSH.

A Receptor Assay of Long-Acting Thyroid Stimulator (LATS)

Several abnormal thyroid stimulators have been found in serum of patients with Graves’ disease. These are known as LATS (long-acting thyroid stimulator) [1], LATS-protector [2], TSI (thyroid-stimulating immunoglobulin) [3], HTS (human thyroid stimulator) [4], or HTACS (human thyroid adenyl cyclase stimulator) [5]. These thyroid-stimulating immunoglobulins are believed to bind to a receptor site in the thyroid gland.

Methods for separation of long-acting thyroid stimulator (LATS) from sera containing LATS and TSH.

Methods were devised for separation of long-acting thyroid-stimulator (LATS) from TSH in serum containing both thyroid stimulators by using Rivanol, concanavalin A (con A), or staphylococcal protein A. When 3-5 volumes of 0.5% Rivanol solution were mixed to serum containing TSH or LATS activity, LATS activity remained mainly with IgG in the supernatant fraction. On the contrary, TSH activity was precipitated. When 10 mg con A was added to 1 ml test serum, almost all TSH activity was precipitated, but LATS activity remained in the supernatant fraction, which consisted mainly of IgG and albumin. Almost all LATS activity and part of the TSH activity were precipitated by addition of more than 7.5% polyethylene glycol (PEG), which was therefore not useful for separation of the stimulators in serum. Affinity chromatography on staphylococcal protein A-Sepharose was also found to separate the two thyroid stimulators in serum. By this method LATS-immunoglobulin bound to the protein A column, but no binding of the biologic and immunologic activity of TSH was observed. The protein A method seems the most useful of these four methods for complete separation of both stimulators.