Bichromatophilia of rat liver proteins during azo dye carcinogenesis

Summary In the livers of rats fed the azo dye 4-dimethylamino-azobenzene, nucleic acids in connective tissue trabeculae, preneoplastic foci and hepatomas were found to stain intensely with toluidine blue. With the indicator dye bromphenol blue, proteins were observed to stain similarly in these hyperbasophilic tissues but differently from those in surrounding parenchyma.These observations indicate that preneoplastic regions and tumors do not differ from surrounding tissue only by the increased basophilia due to cytoplasmic ribonucleic acid, but also in protein staining. Thus, the change in RNA responsible for hyperbasophila is paralleled by alterations in protein histochemistry. It is suspected that the differential staining of proteins might correspond either to variations in the acidic-basic protein ratios or to the presence of unusual proteins synthesized by such an altered RNA.The tissue similarities in nucleic acid as well as in protein staining observed in the proliferating connective tissue elements and cells undergoing the neoplastic transformation remain an obscure phenomenon.This work was supported by a grant from The Quebec Medical Research Council.     

Differential staining of preneoplastic foci in rat liver parenchyma during azo dye carcinogenesis

Summary In preneoplastic liver of rats fed the azo dye 4-dimethylaminoazobenzene, certain cellular populations are characterized by cytologic changes typical of tumor cells and appear as the sites of neoplastic transformation. With a basic dye such as toluidine blue, cytoplasmic RNA in preneoplastic foci and hepatomas stains more intensely than in surrounding tissue. In the present study, it was found that when a basic dye (hematoxylin) was combined with an acid dye (tartrazine), these areas stained differentially from the surrounding liver parenchyma. RNAse hydrolysis has shown that such staining properties might be due to the increased proportion of cytoplasmic RNA to components stainable with tartrazine in hyperbasophilic cells, while the surrounding parenchymal cells are probably distinguished by the opposite ratio.It is suggested that the increased basophilia in preneoplastic areas and hepatomas results from the presence of excess RNA and a corresponding decrease in cellular components stained with tartrazine. However, the present method does not permit us to determine whether hyperbasophilia is due to a normal type or an altered form of RNA present in excess.This work was supported by grants from The Quebec Medical Research Council and The René Hébert Foundation.     

New tetrazolium method for the histochemical demonstration of gamma-glutamyl transpeptidase.

A new tetrazolium method for the histochemical demonstration of gamma-glutamyl transpeptidase is proposed. The method is based on a newly synthesized substrate-gamma-L-glutamic acid-1-hydroxy-4-naphthylamide, which upon the enzyme hydrolysis liberates 1,4-aminonaphthol--a powerful reducing agent that reduces tetrazolium salts quickly and quantitatively to deeply colored, water-insoluble formazans, precipitating on the sites of the enzyme activity and marking them accurately. The redox reaction is quick enough and does not need any auxiliary electron-acceptor. The method is very fast and convenient for the histochemical visualization of the enzyme.     

The histochemical demonstration of aniline hydroxylase activity in rat liver

Synopsis A procedure is described for the histochemical demonstration of aniline hydroxylase activity in cryostat sections of rat liver. Tissue sections are incubated in a medium containing aniline; thep-aminophenol formed as a result of enzymatic action is coupledin situ with Fast Blue RR. The staining reaction is found to be confined to the cytoplasm of the hepatocytes. Confirmatory tests for true enzymatic staining reaction include the incubation of sections in medium from which aniline is omitted, and under conditions of enzyme inhibibition. A method for the quantitation of the histochemical staining reaction is also described.The histochemical reactions have been investigated on rat livers subjected to conditions eliciting microsomal enzyme stimulation and inhibition, bothin vitro andin vivo. A close correlation was found between the staining reactions observed and the results of the quantitative histochemical method and the biochemical estimations of aniline hydroxylase activity in liver microsomal fractions obtained by differential centrifugation.     

gamma-glutamyl transpeptidase activity in human colostrum

gamma-Glutamyl transpeptidase (GGT) was determined in the colostrum and milk of 38 patients, 14 days postpartum. The results obtained were compared with the enzymatic activity in colostra of some animals. The human colostrum has been found to contain the highest enzymatic activity which decreases during the first 8 days and then remains stationary. The high GGT activity in the colostrum and milk and histochemical localization of the enzyme in the secretory epithelium of the milk gland indicate its participation in resorption processes of amino acids and peptides.     

Expression and activity of gamma-glutamyl transpeptidase in the rat epididymis.

Following Northern analysis, GGT mRNA was found predominantly within the caput epididymides and kidney. The size of mRNAs for kidney, caput, corpus, and ductus deferens were 2.2, 2.3, 2.2, and 2.3 kb, respectively, whereas cauda showed a doublet of 2.2 and 2.3 kb. GGT transpeptidation and hydrolytic activity within epididymal luminal fluids collected by micropuncture showed caput = corpus greater than cauda and corpus greater than caput greater than cauda, respectively. Caput luminal GGT transpeptidation activity was significantly inhibited by serine-borate and was optimal at pH 8.0. The calculated Km and Vmax values for hydrolysis of GSH by caput luminal GGT were 0.06 microM and 2.19 nmoles/min/microliters luminal fluid at pH 8.5 compared to 0.49 microM and 0.49 nmoles/min/microliters luminal fluid, respectively, at the physiological pH 6.5 of caput fluid. These studies would suggest that the epididymis can control the activity of luminal GGT by pH. Lower Km (0.12 microM) and higher Vmax (1.13 nmoles/min/microliters luminal fluid) values were also calculated when GSSG was used compared to GSH. Results from Triton X-114 partitioning experiments suggest that luminal GGT probably exists in both membrane bound and nonmembrane bound forms. Western blot analysis of proteins within epididymal luminal fluids revealed both subunits of GGT in all epididymal regions studied. However, two lower molecular bands, approximately 22 kDa and 21 kDa, were also observed in cauda fluid. It is suggested that as GGT is transported along the epididymal duct it undergoes degradation, which accounts for its loss of activity in the distal epididymal regions.(ABSTRACT TRUNCATED AT 250 WORDS)     

Induction by butylated hydroxytoluene of rat liver gamma-glutamyl transpeptidase activity in comparison to expression in carcinogen-induced altered lesions

Butylated hydroxytoluene (BHT) at concentrations of 300-6000 ppm in the diet caused a dose-dependent increase in gamma-glutamyl transpeptidase (GGT) activity in normal F344 male rat liver at 18 weeks. However, the activities of glutathione S-transferases (GSTs) of rat liver cytosol were enhanced only at concentrations of 3000 or 6000 ppm BHT. Histochemically, the enhanced GGT activity was localized to hepatocytes surrounding the portal areas. Autoradiographic measurements of DNA synthesis showed that dietary BHT did not increase the level of cell proliferation and the GGT-positive hepatocytes did not exhibit different rates of DNA synthesis from those of GGT-negative cells. Feeding of the liver carcinogen N-2-fluorenylacetamide (FAA) induced foci and nodules of GGT-positive altered cells which exhibited higher rates of DNA synthesis than those of surrounding GGT-negative hepatocytes. Following iron loading, the periportal GGT-positive hepatocytes produced by BHT accumulated cellular iron, whereas the cells in FAA-induced lesions excluded iron. These results suggest that dietary BHT induces GGT activity in periportal hepatocytes without proliferation of the cells and that induction does not represent fetal expression or a preneoplastic alteration.     

gamma-Glutamyl transpeptidase in rat liver during 3'-Me-DAB hepatocarcinogenesis: immunohistochemical and enzyme histochemical study

Immunohistochemical localization of gamma-glutamyl transpeptidase (gamma-GTP) in rat liver during 3'-methyl-4-dimethylaminoazobenzene (3'-Me-DAB) hepatocarcinogenesis was investigated and compared with sites of gamma-GTP activity. Immunohistochemically, gamma-GTP was stained in the apical border of proliferating oval cells during the early stages of azo-dye carcinogen feeding. After 7 weeks, multiple hyperplastic nodules appeared in which gamma-GTP was localized in the bile canaliculi. In hepatoma tissues, positive staining for gamma-GTP was observed in the bile canaliculi-like spaces, on the cell membrane, and sometimes in the cytoplasm of malignant cells. Enzyme histochemical staining showed gamma-GTP activity to be present in almost the same areas as the immunoreactive gamma-GTP. However, some areas adjacent to hepatoma tissue showed immunohistochemically reactive protein but no enzyme activity. Immunoreactive gamma-GTP was present in all locations at which enzyme activity was seen. The present data suggest that an altered form of gamma-GTP might be present in tissues during 3'-Me-DAB hepatocarcinogenesis.     

Mitochondrial functional changes during hepatic hyperplasia and azo dye carcinogenesis.

Resting and active-state respiratory velocities, respiratory control, high amplitude volume changes, and latent ATPase activities were examined in hepatic mitochondria from rats fed 3'-methyl-4-dimethylaminoazobenzene (3'MeDAB) for production of liver tumors and from rats in three phases of liver regeneration subsequent to subtotal hepatectomies. Tetrabutylammonium bromide, a lipophilic probe capable of selectively inhibiting phosphorylating oxidation or uncoupling oxidation from phosphorylation, was used to detect subtle alterations in lipophilicity characteristics of the organelles and it was concluded that mitochondria from pre-hyperplastic, hyperplastic, and neoplastic tissues had a higher than normal degree of membrane lipophilicity at specific functional sites. Control of respiration by ADP was markedly augmented in all experimental groups; this behavior, plus depressed sensitivity to swelling agents and energized contraction, were similar in mitochondria from hepatomas and from 3-day regenerating livers. These mitochondrial functions were even more pronounced, however, in cells in pre-hyperplastic states (6 and 16 h subsequent to partial hepatectomy). Many forms of liver damage result in mitochondrial alterations which elevate the capacity for oxidative phosphorylation. Such changes associated with induction of azo dye oncogenesis are mimicked by the degree of hyperplasia in the tissue following the first mitotic wave of regeneration; implications relevant to hepatocarcinogenesis are discussed.