Studies on the metabolism of metallothionein and alkaline phosphatase of adult rat primary hepatocyte cultures: role of fetal calf serum and agonists of the phosphoinositide cascade.

Adult rat primary hepatocytes maintained in DMEM/F12 (Ham) media were used as a model system for studying the role of fetal calf serum (FCS) and agonists of the phosphoinositide cascade in the metabolism of metallothionein (MT) and alkaline phosphatase (ALP). Experiments were performed both after a 24 h preincubation with FCS and with bovine serum albumin (BSA). Hepatocytes were treated with dexamethasone (DEX), zinc (Zn) and with the agonists of the phosphoinositide cascade A23187, 1,2-dioctanoyl-sn-glycerol (DiC8), 12-O-tetradecanoylphorbol-13-acetate (TPA), angiotensin II (AT), platelet activating factor (PAF), Arg8-vasopressin (VP) and were analyzed for MT and ALP activity in cell homogenates. Cell viability was evaluated by lactate dehydrogenase (LDH) liberation into culture medium, induction of tyrosine aminotransferase (TAT) through DEX and by trypan blue exclusion. Overall, cell viability was improved by the FCS pretreatment and by DEX. Exposure of hepatocytes to the established direct inducers Zn and DEX of MT resulted in a manifold increase in MT, independent of whether the cultures were FCS pretreated or not. The FCS preincubation produced a moderate elevation of ALP activity by stimulating cell viability. However, ALP was unaltered in response to Zn and DEX. None of the experiments conducted with agonists of the phosphoinositide cascade led to an elevation of MT and ALP. Only the incubation of hepatocytes with A23187 resulted in a concentration dependent significant decrease of MT and ALP. This observation was due to a cytotoxic effect of A 23187, displayed by LDH leakage and an increase in the number of cells stained with trypan blue. In conclusion, in primary hepatocyte cultures agonists of the phosphoinositide did not have an effect on the metabolism of MT and ALP. Previous in vivo results indicating alterations of Zn metabolism in liver, therefore seem to be caused by indirect systemic responses.

Zinc metabolism in fasted rats.

The effects of short-term starvation on serum and tissue levels of zinc, metallothionein (MT), and the activity of alkaline phosphatase (EC 3.1.3.1, ALP) were investigated with 6-month-old rats. The rats were fed a diet with adequate zinc (92mg/kg of Zn, 1.12% phytic acid) before they were starved for 0h (control), 12h, 24h, and 36h and then killed by decapitation. Fasting was accompanied by typical changes in serum parameters such as reduced glucose and protein concentrations, elevated ketogenesis, and a rapid breakdown of liver glycogen. Fasting did not alter serum zinc levels, but it did lead to a significant elevation in the percent of unsaturated serum-zinc binding capacity. Liver concentrations of zinc and MT, based both on fresh and dry weight, were increased throughout starvation. However, total liver zinc was reduced by up to 23% in response to fasting and total liver MT was slightly elevated. The increased concentrations of liver zinc and MT are, therefore, mainly a consequence of reduced liver weight. A part of the liver zinc, however, was bound to newly synthesized MT to prevent greater zinc loss. Starvation evoked no altered mucosa MT levels. Changes in kidney zinc and kidney medulla MT caused by starvation were small and not significant. In contrast to this observation some variation of kidney cortex MT was apparent. Starvation produced a permanent reduction of the serum and intestinal activity of ALP. In the liver and the medulla of the kidneys no significant differences of ALP activity could be observed. However, kidney cortex ALP was induced after 36h of fasting.(ABSTRACT TRUNCATED AT 250 WORDS)

[Influence of an activator of protein kinase C (TPA) and a calcium-mobilizing agonist (A 23187) on zinc metabolism in the rat]. / Einfluss eines Aktivators der Proteinkinase C (TPA) und eines Ca(2+)-mobilisierenden Agonisten (A 23187) auf den Zinkmetabolismus der Ratte.

The influence of 12-O-Tetradecanoylphorbol-13-acetate, an activator of proteinkinase C and A 23187, a calcium ionophore increasing cytosolic free calcium concentration on zinc metabolism was investigated in a study with 24 eight-week old rats. Twenty-four hours before killing, the rats (235 g body weight, 8 per group) were either injected intraperitoneally with TPA (1.6 x 10(-7) mol/kg body weight) or A 23187 (1.6 x 10(-6) mol/kg body weight). Control rats received the solvent dimethylsulfoxide. The application of TPA and A 23187 provoked a marked decline in feed intake accompanied by a reduction in body weight and liver mass. Serum concentrations of zinc were reduced significantly after A 23187 injections. TPA and A 23187 increased liver zinc levels by 20 and 30% respectively, if based on fresh and dry weight. The injections, however, did not alter total liver zinc. Liver metallothionein (MT) concentration was elevated 2.4-fold after TPA administration. The increase in response to A 23187 was only 1.5-fold and not significant. Mucosa MT levels were not altered. Serum activity of alkaline phosphatase was significantly reduced (TPA: -23%, A 23187: -31%). There was no change in serum glucose after injections. However, serum creatinine and urea were increased in response to A 23187. In conclusion, TPA and A 23187 had an effect on zinc metabolism of the rat, most marked in the case of MT induction in the liver. There is evidence that the reduced feed intake caused by TPA and A 23187 resulted in effects indistinguishable from those caused by fasting. Further experiments are needed to clarify whether proteinkinase C and cytosolic free calcium are directly involved in the regulation of zinc metabolism.

[The effect of a supplement of citric acid on the bioavailability of zinc from corn germ]. / Effekt einer Zulage an Citronensäure auf die Bioverfügbarkeit von Zink aus Maiskeimen.

The purpose of this 2 factorial designed study was to investigate the influence of citric acid on the availability of zinc from diets containing 140 g corn germs as a native phytate source (0.5% phytate in diet). Growing male rats with an average initial weight of 42 g were divided into 8 groups of 8 animals each. After a 7 d depletion period (2.4 micrograms Zn/g diet) the animals were fed ad libitum for 21 d a diet on the basis of egg white solid and corn germs. The diets were supplemented with zinc in order to obtain phytate:zinc molar ratios of 31, 20, 14, and 0 (control without corn germs, 11 micrograms Zn/g diet). Each diet was fed with and without a supplementation of 1% citric acid. A phytate:Zn molar ratio of 31:1 resulted in typical symptoms of zinc-deficiency like anorexia, alopecia and a significant depression of growth. These effects were apparently reduced by citric acid. The zinc concentration in serum and organs followed the graded levels of phytate:zinc molar ratios. Primary significant effects of the phytate:Zn molar ratio but also effects of citric acid and interactions between the 2 factors phytate:Zn and citric acid could be detected. Only total liver zinc but not liver zinc based on fresh matter was affected by the phytate:Zn molar ratio. In serum and tissues the activity of alkaline phosphatase showed a significant response to the phytate:zinc molar ratio. Furthermore the supplementation with citric acid increased the femur alkaline phosphatase and slightly reduced it in the liver. The concentrations of metallothionein in liver duodenum, jejunum and ileum were significantly affected by the phytate:Zn molar ratio.