Browsing by Author "Kirsch, Ralph E"

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    Clinical and biochemical studies on the gluthathione S-transferases
    (1982) Sherman, Morris; Kirsch, Ralph E
    The glutathione S-transferases (ligandins) are a ubiquitous system of xenobiotic metabolising enzymes. In the rat liver they comprise up to 10% of soluble hepatic protein. Studies in the rat suggested that ligandin was an accurate and sensitive marker of hepatocellular necrosis. and of renal tubular necrosis. The first part of this thesis examines the release of ligandin from liver and kidney in human liver and renal disease in an attempt to determine whether the measurement of ligandin is clinically useful. Ligandin was purified from human liver cytosol using a combination of anion exchange chromatography and gel filtration. The purified protein had similar physicochemical characteristics to ligandin purified by others. The protein was used to raise a monospecific antibody. Ligandin was iodinated by the Chloramine-T method. which yielded a labelled protein of high specific activity. A sensitive and specific radioimmunoassay for human ligandin was developed which had a low intra- and interassay variation. The assay was applied to the study of human liver disease. In acute hepatitis ligandin is released from the liver into serum early in the illness. High serum ligandin levels are seen in the first week of acute hepatitis. The rapid return to normal suggests that ligandin may provide an early indication of recovery. In chronic hepatitis ligandin levels correlated significantly with histological severity of disease. whereas SGOT showed no such correlation. Ligandin may be a better index of severity of disease and for treatment than SGOT. Ligandin was released from the kidney in severe renal ischaemia and in acute tubular necrosis, but was not a reliable predictor or indicator of acute tubular necrosis. Part two examines the distribution of GSH-T activity in organs and in hepatocellular carcinoma. Ligandin was shown to be immunologically similar in all tissues studied. Isoelectric focusing of cytosol separated the three groups of GSH-T activity. Considerable variety in the distribution and activity of GSH-T's was shown in different organs from a single donor, and in the same organs from different donors. Anionic transferase activity was shown to contribute a significant proportion of activity in organs other than the liver. and to be the major source of activity in ovary and lung. In hepatocellular carcinoma cationic GSH-T activity was present in amounts varying from near normal to absent. The anionic and neutral GSH-T's were present in amounts similar to that seen in normal liver. Immunohistochemical studies using a peroxidase-antiperoxidase method showed a rough correlation between tumour differentiation and the amount of ligandin in the tumour.
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    Human glutathione S-transferases : characterization, tissue distribution and kinetic studies
    (1988) Corrigall, Anne Vint; Kirsch, Ralph E
    In this study the purification of human basic and near-neutral liver, and human basic and acidic lung glutathione S-transferases (GSH S-T) was undertaken. Purification of the basic and near-neutral GSH S-T was achieved using a combination of affinity chromatography, chromatofocusing and immunoaffinity chromatography. Affinity and ion exchange chromatography were employed in the purification of the basic and acidic lung forms. The purified proteins had similar physicochemical characteristics to the GSH S-T purified by others. The binding of 1-chloro-2,4-dinitrobenzene (CDNB) to the 3 classes of human GSH S-T, viz. basic, near-neutral and acidic and the effects of such binding, if any, were examined. Human acidic lung GSH S-T is irreversibly inactivated by CDNB in the absence of the co-substrate glutathione (GSH). The time-dependent inactivation is pseudo-first order and demonstrates saturation kinetics, suggesting that inactivation occurs from an EI complex. GSH protects the enzyme against CDNB inactivation. In contrast, the basic and near-neutral GSH S-T are not significantly inactivated by CDNB. Incubation with [¹⁴C]-CDNB indicated covalent binding to all 3 classes of GSH S-T. When the basic and acidic GSH S-T were incubated with [¹⁴C]-CDNB and GSH, cleaved with cyanogen bromide, and chromatographed by HPLC, a single peptide fraction was found to be labelled in both classes. Incubation in the absence of GSH yielded 1 and 2 additional labelled peptide fractions for the basic and acidic transferases, respectively. These results suggest that while CDNB arylates all 3 classes of human GSH S-T, only the acidic GSH S-T possesses a specific GSH-sensitive CDNB binding site, which when occupied leads to time-dependent inactivation of the enzyme. The tissue distribution and localization of the 3 classes of human GSH S-T in normal and tumour tissue was examined. Antibodies to representatives of the 3 classes were raised in rabbits, and radial immunodiffusion employed to quantitate their concentrations in the cytosol of 18 organs from 9 individuals. The data provide the first direct, quantitative evidence for the inter-individual and inter-organ variation suggested by earlier workers. The absence of the near-neutral GSH S-T in 5 of the 9 individuals studied confirms an earlier suggestion of a "null" allele for this transferase. Basic and acidic GSH S-T (apart from in a single liver), were always present. Near-neutral GSH S-T, when present, were found in all tissues examined. The marked inter-organ and inter-individual variation observed in this study may explain individual and organ susceptibility to drugs, toxins and carcinogens. The immunohistochemical localization of the 3 classes of GSH S-T reveals important differences in their localization, and may provide insight into their functions in various organs and tissues.
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    The identification, purification and characterization of the fetal rat liver glutathione S-transferase isoenzyme YcYfetus
    (1988) Scott, Trevor Robert; Kirsch, Ralph E; Folb, Peter I
    This study has examined the expression of the glutathione S-transferases (GSH S-T) in fetal rat livers in order to provide more information about the role played by this important group of enzymes in the fetus. The study commenced with an examination of the subunit composition of adult and fetal rat liver GSH S-T using affinity chromatography followed by polyacrylamide gel electrophoresis in sodium dodecyl sulphate. Adult livers contained four major GSH S-T subunits. An additional and previously unidentified subunit was detected in fetal livers. This subunit, which differed from that found in rat placenta, had a Mᵣ of approximately 25 500. Densitometric measurements suggest that the newly detected subunit accounts for as much as 26% of the GSH S-T in fetal livers. The novel fetal isoenzyme comprising this subunit was purified using a combination of affinity chromatography, carboxymethyl-cellulose column chromatography and chromatofocusing. The six major basic rat liver GSH S-T were purified for reference and comparative purposes. The fetal isoenzyme is composed of two non-identical subunits, namely, subunit Yc (Mᵣ 28 000) and the fetal subunit referred to as 'Yfetus'· The enzyme which I have termed GSH S-transferase Yc Y fetus has an isoelectric point of approximately 8.65 and has GSH S-T activity towards a number of substrates. Significantly, the fetal isoenzyme has one of the highest glutathione peroxidase activities yet described for the purified rat liver GSH S-T towards the model substrate, cumene hydroperoxide. Kinetic studies reveal that the fetal isoenzyme has a catalytic efficiency for the peroxide substrate which is four fold higher than that of the adult rat liver isoenzyme, GSH S-T YcYc. The in vitro effect of the GSH S-T substrate and teratogen, acrolein, on this fetal isoenzyme was investigated and compared with acrolein's effect on some of the adult rat liver GSH S-T isoenzymes in the standard 1-chloro-2,4-dinitrobenzene assay. Surprisingly, acrolein was identified as a non-competitive inhibitor of the GSH S-T. Exposure to acrolein in various guises could therefore result in inhibition of the fetal isoenzyme and its subsequent failure in inhibiting lipid peroxidation. Inhibitor studies were performed to look at the effect of acrolein, as well as other substrate and non-substrate ligands, on the glutathione peroxidase activity of GSH S-T YcY fetus and YcYc. The glutathione peroxidase activity of the fetal isoenzyme was far less susceptible to acrolein inhibition than the YcYc isoenzyme and the fetal isoenzyme was found to retain significant glutathione peroxidase activity despite saturating concentrations of non-substrate ligand. This study suggests that the fetal isoenzyme serves a specific function in protecting fetuses against the possible teratogenic effects of organic peroxides.
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    Rat angiotensin-converting enzyme : tissue specific expression during pharmacological inhibition
    (1995) Brice, Edmund Andrew William; Kirsch, Ralph E; Parker, M Iqbal
    The renin-angiotensin system plays a central role in the maintenance of blood pressure. Angiotensin II, the main effector of this system, results from the action of angiotensin-converting enzyme (ACE) on angiotensin I. Angiotensin II, maintains vasomotor tone via its vasoconstrictor action, and also increases salt and water retention by stimulating the release of aldosterone. ACE inhibitors, such as captopril, enalapril and lisinopril, are highly effective in the treatment of hypertension and congestive cardiac failure. Previous studies have suggested that angiotensin converting enzyme (ACE) production may be enhanced during pharmacological inhibition of the enzyme. Little is known, however about the mechanism of this induction. After demonstrating increases in circulating ACE protein in cardiac failure patients receiving the ACE inhibitor captopril, a rat model was used to study this effect. A sensitive enzyme linked immunosorbent assay for rat ACE was developed and a partial cDNA for rat ACE cloned to enable examination of ACE mRNA and protein expression during enzyme inhibition with enalapril. Rat lung ACE mRNA increased by 156% (p<0.05) and ACE protein doubled within 3 hours of administering a single dose of enalapril. Testicular ACE mRNA also increased by 300% (p<0.05) within 2 hours and returned to pretreatment levels by 6 hours. The angiotensin II antagonist saralasin similarly caused a significant (p<0.0001) 800% enhancement of mRNA expression. Aldosterone pretreatment of rats prior to enalapril administration was found to abolish this mRNA induction. These findings indicate that increased ACE expression during inhibition results from reduced levels of angiotensin II with consequent reduced stimulation of the angiotensin 11 receptor and its effects, such as aldosterone release. This suggests that ACE levels are regulated by a negative feedback loop involving the distal components of the renin-angiotensin system, namely angiotensin II and aldosterone. In situ hybridisation and immunohistochemical techniques were employed to localise the site of this inductive response in rat tissue sections. It was found that lung macrophages were markedly induced to produce ACE, as was ACE in seminiferous tubules. ACE induction was also noted in the expected sites of renal tubular epithelium and glomerular tissue. Interestingly, ACE expression was also enhanced in cardiac valves. In these studies it has been conclusively demonstrated that new ACE expression is induced by enzyme inhibitor therapy. A variety of techniques have been developed that will allow futher study of ACE in rat tissues.
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    The kinetics of albumin metabolism in experimental protein calorie malnutrition
    (1968) Kirsch, Ralph E
    Protein Calorie Malnutrition (PCM) is a term which embraces the broad spectrum of diseases occurring where diets are poor in protein. In most cases the diseases are due to an inadequate intake of utilizable protein. A small percentage of cases are due to excessive protein loss, (e.g. burns, nephrosis·, protein loosing enteropathy) or to defects in protein· absorption (gastro-enteritis, steatorrhoea) or synthesis (liver disease). Where the caloric intake is relatively normal the disease produced, kwashiorkor, is characterised by retardation of growth and development, muscular wasting, oedema and psychic changes, usually peevishness or apathy. In addition, some cases have skin lesions and the colour and texture of the hair is often abnormal. Diarrhoea is almost constant in the recent history and is usually present on admission to hospital. The disease is most common in children who have recently been weaned.