J.C. Murat

Thyroid hormones in cyclostomes and fish and their role in regulation of intermediary metabolism

1. Experimental data obtained in cyclostomes and fish concerning the plasma levels of thyroxine and tri-iodothyronine as well as their influence on intermediary metabolism of lipids, carbohydrates, and proteins are reviewed. 2. The information dealing with the physiological role of thyroid hormones in regulation of metabolic processes seems to be scarce in cyclostomes and controversial in fishes. 3. Nevertheless, the data covered in the review support the generalization that thyroid hormones, probably along with some other hormones, exert a regulatory action on the metabolic processes already on the lower stage of the evolution of poikilothermic vertebrates.

Endocrine control of nutrition in cyclostomes and fish

Abstract 1. 1. The relationship between nutritional patterns and physiological levels of endogenous hormones, in some species of cytosomes and fish, is studied. 2. 2. Most of the observations are related to species showing a marked life cycle, including natural fasting periods and migrations. 3. 3. Insulin seems to play a major role in regulating the nutritional metabolism, which appears to be largely dependent on gluconeogenesis and on amino acids supply.

Implication of free radicals and glutathione in the mechanism of cadmium-induced expression of stress proteins in the A549 human lung cell-line

Cellular mechanisms underlying the expression of stress proteins (HSP) were studied in the human cell-line A549 submitted to a pollutant, cadmium, in the presence of several agents which modulate the glutathione level and, supposedly, the effects of this metal in the cell. It was observed that HSP 90, HSP 72 and HSP 27 are significantly over-expressed after exposure to cadmium chloride for 24 h. Low cadmium concentrations (i.e. from 1 to 10 microM) also triggered a slight accumulation of glutathione, whereas this compound was depleted after exposure to higher cadmium concentrations (25-100 microM). When 50 microM diethyl-maleate, which traps glutathione, was added together with cadmium, the over-expression of HSP 72 and HSP 90 was much stronger. Treatment of cells with 20 or 40 mM N-acetyl-L-cysteine, which traps free radicals, was found to increase by 30% the glutathione level and to suppress the HSP over-expression. From our results, it is suggested that HSP induction by cadmium in A549 cells is due, at least in part, to the oxidative stress consisting in formation of reactive oxygen species and inhibition of peroxides detoxification. Due to this oxidative status within the cell, more proteins would be damaged inducing the HSP over-expression.

Regulation of mitochondrial hexokinase in cultured HT 29 human cancer cells. An ultrastructural and biochemical study

The involvement of the mitochondrial bound hexokinase in aerobic glycolysis was investigated in two subpopulations of the HT 29 human colon cancer cell line: a poorly differentiated one with high aerobic lactate production (referred as undifferentiated or standard cells), and an enterocyte-like differentiated one with lower lactate production (referred as differentiated or Glc- cells). After mild digitonin treatment, 85% of the total cellular hexokinase activity remained in the particulate fraction in both cell types. In both cases mitochondria appeared to be tightly coupled but the Glc- cells exhibited a significantly higher oxidation rate in the presence of glucose. Electron microscopy of freeze-fractured cells revealed the absence of contacts between the two limiting mitochondrial membranes in the highly glycolytic standard cells, whereas the contacts were present in the Glc- cells. Furthermore, we investigated the functional relationship between bound hexokinase (as hexokinase-porin complex) and the inner compartment of mitochondria isolated from standard and Glc- HT 29 cells. In contrast to the differentiated cells the hexokinase in undifferentiated standard cells was not functionally coupled to the oxidative phosphorylation. This suggests that the high rate of lactate formation in neoplastic cells is not caused by an increase of particulate hexokinase activity but rather by a disregulation of the hexokinase-porin complex caused by the absence of contact sites between the two mitochondrial membranes. In agreement with this interpretation, the hexokinase-porin complex could be completely removed by digitonin treatment in standard HT 29 cells, while this was not possible in mitochondria from Glc- cells.

Volatile organic compounds cytotoxicity and expression of HSP72, HSP90 and GRP78 stress proteins in cultured human cells.

The aim of this study was to determine whether overexpression of stress proteins (SPs) could be a sensitive biomarker for cell injury due to exposure to low doses of volatile organic compounds (VOCs) such as benzene, ethylbenzene, toluene, xylene, and chlorinated derivatives (ClB). Sublethal and cytotoxic threshold concentrations of the VOCs were determined by studying the growth rate of normal (fibroblasts) or tumor-derived human cell lines (A549, HepG2) exposed for 4 days to VOCs. Changes in SP expression as a function of concentrations were investigated by Western blotting.VOC toxicity was found to be correlated with their degree of chlorination and their hydrophobicity. Cytotoxic threshold concentrations (no-observed effect concentration, NOEC) were found to be similar for the three cell lines. It was observed that using a mixture of VOCs, each of them at concentration below the NOEC, resulted in an actual toxicity to the cells. This finding reveals a synergistic effect and should be taken into account when assessing threshold risk and exposure limit values in the workers environment when several pollutants may be present. HSP72 and HSP90 expression levels were not affected whereas GRP78 expression was increased by all the VOCs. Taking into account the specific molecular function of GRP78, it suggests that VOC exposure results in misfolded or underglycosylated protein accumulation in the endoplasmic reticulum. GRP78 overexpression was closely related to the magnitude of growth inhibition due to increasing concentrations of each VOC. The overexpression was found to be significant for concentrations 5 to 30 times higher than NOEC, indicating that, under our experimental conditions, GRP78 expression cannot be considered as a sensitive biomarker of exposure to environmental VOCs.

Respiration of mitochondria isolated from differentiated and undifferentiated HT29 colon cancer cells in the presence of various substrates and ADP generating systems

1. Oxygen consumption was investigated in two cultured subpopulations of either undifferentiated (Glc+ cells) or differentiated (Glc- cells) HT29 colon cancer cells and in the corresponding isolated mitochondria. In Glc+ cells, a decrease of the respiration is induced by the presence of glucose (Crabtree effect), whereas it is not the case in Glc- cells. 2. The oxidative phosphorylation rate of Glc- mitochondria is found to be much higher than that of Glc+ mitochondria, due to a higher efficiency to oxidize glutamine, glutamate, 2-oxoglutarate, succinate or malate. 3. In both types of mitochondria, respiration can be supported by the ADP formed by adenylate kinase or nucleotide diphosphate kinase, and, although to a lesser extent in Glc- mitochondria, by hexokinase. 4. Glc+ cells are characterized by a low respiration capacity and a high glycolytic flux leading to the Crabtree effect. Glc- cells are characterized by a better correlation between a moderate glycolytic flux and a high respiratory capacity.

Effect of glutamine deprivation and glutamate or ammonium chloride addition on growth rate, metabolism and differentiation of human colon cancer cell-line HT29.

Effect of glutamine deprivation (GLN- medium) and of its replacement by 4mM ammonium chloride (GLN-/NH4+ medium) or by 4mM glutamate (GLN-/Gt+ medium) was studied on growth rate, morphology and metabolism of HT29 human colon cancer cells. Growth rates were modified as follows: at the first passage, growth of GLN- cells was strongly decreased (doubling time: 192 hr vs 32 hr in control cells grown in GLN+ medium); GLN-/NH4+ cells and GLN-/Gt+ cells were found to have doubling times of 72 and 70 hr, respectively. At the 8th passage, doubling times were decreased in all cases, being: 144 hr for GLN- cells, 60 hr for GLN-/NH4+ cells and 24 hr for GLN-/Gt+ cells, which indicates a capacity of adaptation of the cell-line to new culture conditions. GLN- cells and GLN-/NH4+ cells were found to exhibit an enterocytic type of differentiation (polarization of the cell layer with apical and cystic brush border and tight junctions); GLN-/Gt+ cells remained undifferentiated and comparable to control GLN+ cells. Glycogen level varied according to the phases of the culture, with a trend to lower level in glutamine deprived cells; glucose uptake and lactate production varied as a function of the medium composition and of the phases of the culture. At the 8th passage, all the glutamine deprived cells produced less lactate than control; GLN-/Gt+ cells were found to utilize less glucose than others.

Studies on glycogenolysis in carp liver: evidence for an amylase pathway for glycogen breakdown.

Abstract 1. 1. Glycogen-phosphorylase seems to be lacking in the carp liver. This enzymatic defect bears a resemblance to glycogen storage disease type VI, described in humans. 2. 2. Carp liver homogenates exhibit an important γ-amylase (α-glucosidase, EC 3213) activity. By its pH curve and distribution in subcellular fractions of liver, this enzyme could be, to a large extent, of lysosomal origin. 3. 3. During the strong hepatic glycogenolysis, which is induced in carp by insulin injections, the γ-amylase pathway could offer an explanation for glycogen breakdown in a tissue where glycogen phosphorylase is supposed to be absent.

Distribution pattern of digestive enzyme activities in the intestine of the catfish (Ameiurus nebulosus L.) and of the carp (Cyprinus carpio L.)

Abstract 1. 1. The distribution patterns of amyloglucosidase, alkaline-phosphatase, leucine-aminopeptidase, and γ-glutamyl-transferase, along the intestinal canal were investigated in two species of teleosts, the catfish, which possesses a stomach, and the stomachless carp. 2. 2. Carp amyloglucosidase and carp and catfish leucine-aminopeptidase activities were found to be widespread among enterocytes from all parts of the gut. 3. 3. Catfish amyloglucosidase, carp and catfish alkaline-phosphatase were predominant in the anterior part of the gut. 4. 4. In both species, γ-glutamyl-transferase activity was rather found in the distal part of the intestine.

The protective effect of Malva sylvestris on rat kidney damaged by vanadium

BackgroundThe protective effect of the common mallow (Malva sylvestris) decoction on renal damages in rats induced by ammonium metavanadate poisoning was evaluated. On the one hand, vanadium toxicity is associated to the production of reactive oxygen species, causing a lipid peroxidation and an alteration in the enzymatic antioxidant defence. On the other hand, many medicinal plants are known to possess antioxidant and radical scavenging properties, thanks to the presence of flavonoids. These properties were confirmed in Malva sylvestris by two separate methods; namely, the Diphenyl-2-picrylhydrazyl assay and the Nitroblue Tetrazolium reduction assay.ResultsIn 80 rats exposed to ammonium metavanadate (0.24 mmol/kg body weight in drinking water) for 90 days, lipid peroxidation levels and superoxide dismutase, catalase and glutathione peroxidase activities were measured in kidney. A significant increase in the formation of free radicals and antioxidant enzyme activities was noticed. In addition, a histological examination of kidney revealed a structural deterioration of the renal cortical capsules and a shrinking of the Bowman space. In animals intoxicated by metavanadate but also given a Malva sylvestris decoction (0.2 g dry mallow/kg body weight), no such pathologic features were observed: lipid peroxidation levels, antioxidant enzyme activities and histological features appeared normal as compared to control rats.ConclusionMalva sylvestris is proved to have a high antioxidative potential thanks to its richness in phenolic compounds.