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1.
The effects of histidine on the zinc status are controversial. In mice, we studied the effects of a moderate histidine supplement on the regulation of the zinc status using subcutaneously administered65Zn. In animals fed a zinc-adequate diet, histidine supplement did not cause changes in the zinc status (zinc concentrations,65Zn tissue distribution, and tissue specific activities). Neither effects on the regulation of the zinc status (65Zn retention, excretion and biological half-life) could be demonstrated. However, the combination of a low zinc diet and moderate histidine supplementation caused changes in the regulation of the zinc status (lower65Zn retention, associated with increased fecal excretion and a shorter biological half-life), aggravating the dietary deficiency (lower bone zinc, a shift in the65Zn tissue distribution). Reviewing the literature, it seems that only a molar histidine/zinc ration of 2,000 or higher will cause zinc deficiency.  相似文献   

2.
The aim of this study was to examine enhancing effect of l-histidine into cultured rat lung microvascular endothelial cells (LMECs), which constitute the gas–blood barrier. Uptake of l-histidine into LMECs markedly increased with the addition of ZnSO4 (0.1 mmol/L), and this enhanced uptake of l-histidine was drastically reduced in the presence of the Na+-independent system L substrate, 2-amino-2-norbornanecarboxylic acid (BCH). However, the uptake of l-histidine together with ZnSO4 was not reduced by the addition of metabolic inhibitor, 2,4-dinitrophenol, or sodium ion replacement. Moreover, the addition of the system N-substrate, l-glutamic acid γ-monohydroxamate did not significantly decrease the uptake of l-histidine with 143 mmol/L Na + + 1 mmol/L BCH. These results indicated that system-N transporter does not play a role in the uptake of l-histidine in the presence of ZnSO4, suggesting that only system-L transporter is involved in the uptake of l-histidine, although l-histidine in the absence of ZnSO4 was taken up by at least two pathways of Na+-dependent system-N and Na+-independent system-L processes into rat LMECs. The uptake of l-histidine into rat LMECs in the presence of ZnSO4 was also found to be unaffected by pH (5.0–7.4), indicating that uptake of l-histidine into LMECs by the addition of zinc may not be involved in the H+-coupled transporters.  相似文献   

3.
The effect of the chronic administration of histidine on the brain zinc level was examined in growing, male Wistar rats. Using a purified diet, the minimum zinc requirement for normal growth and normal plasma and tissue zinc levels was found to be around 10 ppm. Given this zinc content; the diet was supplemented with 5% and 8% histidine, respectively, or with 10% glycine (as control). Brain zinc was analyzed by measuring the rate of turnover of65Zn from 2–4 weeks after a single injection of the tracer. Feeding the diet supplemented with 5% histidine caused a small decrease in the plasma zinc concentration and a slight increase in the rate of turnover of65Zn in the cerebrum and the cerebellum as compared to the control group. The animals fed the diet supplemented with 8% histidine became severely zinc deficient (as evidenced by a 50% reduction in the plasma zinc content), however, the rate of turnover of65Zn in all brain regions examined was significantly decreased as compared to the control group. The results indicate that histidine has no specific complexing action on the brain zinc.  相似文献   

4.
Zinc (Zn) is recognized as an essential nutrient, and is added as a supplement to animal and human diets. There are claims that zinc methionine (ZnMet) forms a stable complex that is preferentially transported into tissues, and this has contributed to uncertainty about conflicting reports on the bioavailability of various Zn compounds. This study evaluated the cellular and intestinal uptake of inorganic and organic forms of Zn. Steady-state uptake of65Zn by human intestine epithelial cells, and monkey kidney fibroblasts was not significantly different with zinc chloride (ZnCl2), ZnMet, or zinc propionate (ZnProp) (P > 0.05). Uptake of65Zn from zinc chelated with EDTA was significantly lower (P < 0.01). In live mice,65Zn uptake by perfused intestine and deposition in intestine and liver showed no significant difference between ZnCl2 and ZnMet. Equimolar [65Zn]methionine and zinc[35S]methionine were prepared according to a patented method that yields “ complexed” Zn. Cellular uptake of the radiolabeled methionine was <0.1% of the radiolabeled Zn from these complexes, indicating separate uptake of the Zn and methionine. Gel filtration did not distinguish between65Zn in ZnCl2, ZnProp, or reagent ZnMet, though feed-grade ZnMet containing >10% protein did give a higher-mol-wt form of65Zn. Results of this study show equivalent uptake of Zn from inorganic and organic compounds, and support recent feed trials on Zn bioavailability.  相似文献   

5.
Radioactive zinc was used to study the effect of a binary parenteral nutrient solution, composed of amino acids and glucose, on zinc uptake by fibroblasts. The influence of addition of taurine, l-glutamine and of the increase in l-histidine content of the admixture was assessed. The pure mixture was highly toxic for cells and so it was diluted 1/5 in tyrode buffer with 2% albumin. As compared with cells incubated in the buffer containing albumin, zinc absorption was significantly higher (P < 0.05) in the presence of the amino acids of the mixture. Amino acids thus increased bioavailability by displacing zinc bound to albumin. When the histidine concentration in the nutrient medium (4.2 mm) was doubled, inhibition was noted after 30 min of incubation and zinc uptake thereafter remained comparable to that in histidine-free medium. The addition of glutamine (4.2 mm), usually not present in binary mixtures, resulted in significant differences as compared with glutamine-free control medium. Taurine (0.8 mm), led to a constant increase in zinc uptake by fibroblasts as compared with that obtained with taurine-free mixture. However, ultrafiltration showed that taurine was not able to displace zinc from albumin.  相似文献   

6.
The effects of histidine on the zinc status are controversial. In mice, we studied the effects of a moderate histidine supplement on the regulation of the zinc status using subcutaneously administered 65Zn. In animals fed a zinc-adequate diet, histidine supplement did not cause changes in the zinc status (zinc concentrations, 65Zn tissue distribution, and tissue specific activities). Neither effects on the regulation of the zinc status (65Zn retention, excretion and biological half-life) could be demonstrated. However, the combination of a low zinc diet and moderate histidine supplementation caused changes in the regulation of the zinc status (lower 65Zn retention, associated with increased fecal excretion and a shorter biological half-life), aggravating the dietary deficiency (lower bone zinc, a shift in the 65Zn tissue distribution). Reviewing the literature, it seems that only a molar histidine/zinc ration of 2,000 or higher will cause zinc deficiency.  相似文献   

7.
Bioavailability is integral in mediating the delicate balance between nutritive and potentially toxic levels of copper in fish diets. Brush-border membrane vesicles isolated from freshwater rainbow trout intestine were used to characterise apical copper absorption, and to examine the influence of the amino acid histidine on this process. In the absence of histidine, a low affinity, high capacity copper uptake mechanism was described. However, when expressed as a function of ionic copper (Cu2+), absorption was linear, rather than saturable, suggesting that the saturable curve was an artifact of copper speciation. Conversely, in the presence of l-histidine (780 μM) saturable uptake was characterised. The uptake capacity discerned (J max of 354 ± 81 nmol mg protein−1 min−1) in the presence of histidine indicated a significantly reduced capacity for copper transport than that in the absence of histidine. To determine if copper uptake was achievable through putative histidine uptake pathways, copper and histidine were incubated in the presence of tenfold greater concentrations of amino acids proposed to block histidine transporters. Accounting for changes in copper speciation, significant inhibition of uptake by glycine and lysine were noted at copper levels of 699 and 1,028 μM. These results suggest that copper–histidine complexes may be transportable via specific amino acid-transporters in the brush-border membrane.  相似文献   

8.
Uptake of amino acids by cultured neuroblastoma and astrocytoma cells was studied in the presence and absence ofl-histidine. Intracellularly accumulated histidine was assumed to induce accumulation of radioactively labeled amino acids from medium by means of exchange transport. Neuroblastoma cells accumulated more histidine than astrocytoma cells and were more sensitive to the enhancement of the uptake of other large neutral amino acids by histidine. Histidine also increased glutamic acid uptake in astrocytoma cells, but reduced it in neuroblastoma cells. The greatest differences between the cell lines in amino acid uptake without histidine were found with acidic amino acids (astrocytoma cells accumulated them more than neuroblastoma cells) and with taurine (the reverse was found). The uptake and exchange mechanisms for some neutral and acidic amino acids may thus be dissimilar in the plasma membranes of cultured cells of neuronal and glial origin.  相似文献   

9.
Summary The transport ofl-histidine has been characterized in skin derived diploid human fibroblasts, cultured under strictly controlled conditions. The transport measurements were made on cells grown to subconfluency after 60 to 90 min timed preincubation. The data, at substrate concentrations ranging from 0.050 to 10 mmol/l, were analyzed by a computer program. A saturable transport system (K m =0.25 mmol/l, V max =17 nmol/mg protein per min) and a nonsaturable component of influx (K d =1.6±0.4 nmol/mg protein/min per mmol) were found.l-Histidine displayed no Na+ requirement at either low or high concentrations. Inhibition analysis demonstrated thatl-histidine uptake at low concentration was poorly inhibited by amino acids known to be effective inhibitors of system A. The largest fraction ofl-histidine uptake was inhibited by 2-amino-bicyclo (2,2,1)-heptane-2-carboxylic acid (BCH), leucine, and tryptophan. These results indicated thatl-histidine is transported in human fibroblasts, mainly by the Na+ independent system L. The differences between this cell type and others studied previously are discussed. This work was supported in part by Grant 773 from UER de Médecine, Université Paris XI (France).  相似文献   

10.
The essential amino acid histidine performs critical roles in health and disease. These functions are generally attributed to the amino acid itself, but could also be mediated by a positive effect on trace element bioavailability. Mechanistic information regarding the absorption of histidine across the gastrointestinal tract is essential for understanding the interplay between amino acid and mineral nutrients and the implications of these interactions for nutrition and toxicology. Using intestinal brush-border membrane vesicles obtained from freshwater rainbow trout, absorption of histidine over the range 0.78–780 μm was found to be saturable, with a maximal transport rate (J max) of 9.1 ± 0.8 nmol mg protein−1 min−1 and a K m (histidine concentration required to reach 50% of this level) of 339 ± 68 μm. Histidine uptake was highly specific as 10-fold elevated levels of a variety of amino acids with putative shared transporters failed to significantly inhibit uptake. Elevated levels of d-histidine, however, impaired uptake of the natural l-isomer. The presence of “luminal” copper (8.3 μm) significantly increased both the J max and K m of histidine transport. This suggests that chelated copper–histidine species cross the brush-border epithelium through transport pathways distinct from those used by histidine alone.  相似文献   

11.
The intestine of the American lobster, Homarus americanus, was isolated and perfused in vitro with a physiological saline, based on the ion composition of the blood, to characterize the mechanisms responsible for transmural transport of zinc and how the amino acid, l-histidine, affects the net movement of the metal across the tissue. Previous studies with this preparation, focusing on the characteristics of unidirectional mucosa to serosa (M to S) fluxes of 65Zn2+ and 3H-l-histidine, indicated the presence of a brush border co-transport process responsible for simultaneously transferring the metal and amino acid across this tissue as an apparent bis-complex (Zn-[His]2) using a PEPT-1-like dipeptide carrier mechanism. In addition, both zinc and l-histidine were also transferred toward the blood by separate transporters that were independent of the other substrate. The focus of the present study was to characterize the serosa to mucosa (S to M) flux of 65Zn2+ under a variety of conditions, and use these values in conjunction with those from the previous study, to assess the direction and magnitude of net metal movement across the tissue. Transmural S to M transport of 65Zn2+ was markedly reduced with the addition of the serosal inhibitors ouabain (32%), excess K+ (25%), excess Ca2+ (30%), Cu2+ (38%), nifedipine (21%), and vanadate (53%). In contrast, this flux was markedly stimulated with the serosal addition of ATP (24%) and excess Na+ (28%). These results suggest that S to M fluxes of zinc occurred by the combination of the basolateral Na/Ca exchanger (NCX), where zinc replaced calcium, and a basolateral nifedipine-sensitive calcium channel. Transmural M to S 65Zn2+ fluxes (5–100 μM) were threefold greater than S to M metal transport, and the addition of luminal l-histidine doubled the net M to S zinc flux over its rate in the absence of the amino acid. The results of this paper and those in its predecessor indicate that zinc transport by the lobster intestine is absorptive and significantly enhanced by luminal amino acids.  相似文献   

12.
Zinc gets into the brain parenchyma across the blood-brain and the blood-cerebrospinal fluid barriers, while cadmium hardly gets into the brain parenchyma. Because histidine may be involved in zinc transport across the brain barrier systems, the binding to histidine was compared between zinc and cadmium to understand the difference in brain permeability to both metals. Sephadex G-10 gel filtration indicated that 109Cd, unlike 65Zn, does not bind to histidine. When the plasma incubated with 65Zn or 109Cd was dialyzed in physiological saline containing histidine (0-10 mM), 65Zn concentration in the dialysate was increased with the increase of the histidine concentration, suggesting the transfer of zinc from plasma proteins to histidine. The low affinity of zinc to plasma proteins may be important for brain permeability to this metal. On the other hand, 109Cd was not detected in the dialysate in the presence of 0.1 mM histidine, which is equal to the concentration in the plasma, suggesting no transfer of cadmium from plasma proteins to histidine. These results suggest that the avid binding of cadmium to plasma proteins is related to brain impermeability to this metal.  相似文献   

13.
The hypothesis that in tumor-bearing animals an increase of host hepatic zinc metallothionein (Zn-MT) causes a restriction of zinc in the tumor tissue was studied. Three types of tumors were induced in laboratory mice by cell transplant. Tumor growth appears to be inhibited under zinc-deficient conditions, even in cases where zinc deficiency was started after tumor cell transplant. The survival times of tumor-bearing mice were prolonged by administration of cadmium chloride, which induces the synthesis of a combined zinc-cadmium metallothionein derivative in the host liver, but not in the tumor tissue, leading to an increase of hepatic zinc in the treated animals. The uptake of65Zn by the liver of Cd-treated, tumor bearing mice was significantly higher than that of controls whereas uptake of65Zn by tumor cells was significantly higher in controls than in the treated animals. These results suggest that restriction of zinc intake suppresses tumor growth.  相似文献   

14.
The radioactive isotope65Zn was used to study the incorporation of zinc by cultured human skin fibroblasts. The development of the method for studying cell uptake of65Zn in a minimal synthetic medium is presented. Kinetics carried out on control cultures up to 240 min indicated that zinc uptake occurred in three phases, the first being the most rapid. Temperature and pH affect zinc uptake, in favor of an active transport process. In addition, the rate of incorporation is considerably decreased during the first phases after adding potassium cyanide, during the last phases after adding sodium iodoacetate, and during all the phases if dithioerythritol is used. A hypothesis is therefore proposed according to which several types of mechanisms would be involved in zinc uptake by fibroblasts. At least a part of these mechanisms is energy-dependent.  相似文献   

15.
Retention, dynamics of75Se and65Zn distribution, and elimination were studied in rats after separate or joint single doses of these metals. White female Wistar rats were divided into four groups (fifteen rats each). Group I received Na2 75SeO3 (0.1 mg Se/kg i.g.), group II received Na2 75SeO3+ZnCl2 (5 mg Zn/kg s.c.), group III received65ZnCl2, and group IV received65ZnCl2+Na2SeO3. The zinc and selenium contents in the tissues were estimated during 120 h after administration; excretion in urine and feces of animals was determined throughout the experiment. Combined administration of zinc and selenium resulted in an enhanced selenium retention in the brain, spleen, kidneys, blood, lungs, and heart. A selenium-induced increase in the concentration of zinc was noted in the bowels, blood, liver, kidneys, spleen, brain, and lungs. The effects of the zinc/selenium interaction were visible especially in the lowered level of excretion of these elements. Zinc induced a decrease in the excretion of selenium in urine, with no concomitant changes in the excretion in feces. However, a visible decrease in the excretion of zinc in the feces was observed in the presence of selenium. The present results indicate an occurrence of clear-cut interaction effects between zinc and selenium administered simultaneously in the rat.  相似文献   

16.
After a single injection,65Zn is slowly taken up by the brain of the rat to a maximum after 7 d, followed by a turnover phase, with a half-time of about 3 wk. In the brain of rats on a zinc-deficient diet, the65Zn content in the brain continued to increase up to 30 d after the injection. The uptake and turnover phases in six different subcellular fractions of the brain showed a pattern similar to that of the whole brain in both the control and zinc-deficient rats. There was no internal redistribution of65Zn in the brain under conditions of progressive zinc deficiency. The results are discussed in a model for zinc homeostasis in the brain.  相似文献   

17.
Zinc is both a vital nutrient and an important toxicant to aquatic biota. In order to understand the interplay between nutrition and toxicity, it will be important to determine the mechanisms and the factors that regulate zinc uptake. The mechanism of apical intestinal Zn(II) uptake in freshwater rainbow trout and its potential modification by the complexing amino acid histidine was investigated using brush-border membrane vesicles (BBMVs). Following characterisation of the BBMV preparation, zinc uptake in the absence of histidine was both time- and concentration-dependent and consisted of two components. A saturable phase of uptake was described by an affinity constant of 57±17 μM and a transport capacity of 1867±296 nmol mg membrane protein−1 min−1. At higher zinc levels (>500 μM) a linear, diffusive component of uptake was evident. Zinc transport was also temperature-dependent, with Q10 values suggesting zinc uptake was a carrier-mediated process. Zinc uptake by vesicles in the presence of histidine was correlated to a mono-histidine species (Zn(His)+) at all Zn(II) concentrations examined.  相似文献   

18.
In zinc deficiency, the function of leukocytes is impaired. However, the results of studies on the zinc concentration of blood cells in zinc deficiency are conflicting, probably in part because of technical and analytical problems. The aim of this study was to investigate, under standard conditions, the uptake of65Zn-labeled zinc by blood cells, taken from zinc-deficient rats and from rats in which an inflammation is induced. In both conditions, the serum zinc concentration is reduced. In clinical practice, this makes it difficult to determine whether the decrease in serum zinc is the result of a real or an apparent zinc deficiency. In stress, like an inflammatory disease, the decrease of zinc reflects an apparent zinc deficiency because of redistribution of serum zinc into the liver and because of decrease in serum albumin concentration. Over 70% of the serum zinc is bound to albumin. Blood cells from zinc-deficient and control rats were isolated using a discontinuous Percoll gradient and incubated under nearly physiological conditions in a65Zn-containing medium. A significant increase in the in vitro uptake of65Zn-labeled zinc by the blood cells of zinc-deficient rats was seen: erythrocytes 1.3, mononuclear cells 2.0, and polymorphonuclear cells 2.6 times the control values. During inflammation, no change in65Zn-labeled zinc uptake by erythrocytes and mononuclear cells was demonstrated after 2 d, although the serum zinc and albumin concentrations were decreased, but a small but significant increase in zinc uptake by polymorphonuclear cells was observed. This study of65Zn uptake in vitro under standard conditions may prove of value for distinguishing in patients real zinc deficiency from apparent zinc deficiency owing to, e.g., stress, although additional experiments should be performed. A part of this study has been presented at the Meeting of The American Gastroenterological Association on May 12–18, 1990, San Antonio, TX, and has been published in abstract inGastroenterology 98 suppl., A423.  相似文献   

19.
Previous studies in our laboratory have demonstrated that reducing the availability of zinc with the extracellular metal chelator DTPA (diethylenetriaminepentaacetate) enhances, rather than inhibits, the thyroid hormone induction of growth hormone mRNA in GH3 rat anterior pituitary tumor cells. To understand the actions of the chelator on cellular zinc status, we observed the effects of DTPA on 65Zn uptake and retention. DTPA reduced the uptake of 65Zn by GH3 cells from the medium, but when GH3 cells were prelabeled with 65Zn, it resulted in greater retention of the isotope. In primary hepatocytes, DTPA both reduced the uptake of 65Zn from the medium and increased efflux from prelabeled cells. To investigate this difference, we studied the effects of DTPA on radioactive zinc flux in the H4IIE (rat hepatoma), MCF-7 (human breast cancer) and Hs578Bst (nontransformed human mammary) cell lines and in rat primary anterior pituitary cells. DTPA reduced the uptake of 65Zn in all cell lines examined. DTPA increased the retention of 65Zn in prelabeled H4IIE, MCF-7 and Hs578Bst cells but reduced it in primary pituitary cells. Time course experiments showed that 65Zn efflux is shut down rapidly by DTPA in transformed cells, whereas the chelator causes greater efflux from primary hepatocytes over the first 6 h. Experiments with 14C-labeled DTPA confirmed that this chelator does not cross cell membranes, showing that it operates entirely within the medium. Expression of ZnT-1, the efflux transporter, was not affected by DTPA in H4IIE cells. Thus, zinc deprivation enhanced zinc retention in established cell lines but increased efflux from primary cells, perhaps reflecting differing requirements for this mineral.  相似文献   

20.
Summary As part of an effort to identify the natural precursor(s) of HCN in the alga Chlorella vulgaris Beijerinck, and in leaves of New Zealand spinach (Tetragonia expansa, Murr.), HCN release was measured after addition of various amino acids to illuminated algal extracts and grana preparations. Histidine is particularly effective as an HCN precursor, both with Chlorella extracts and leaf grana. With the algal extracts, d-histidine is about ten times more effective than l-histidine and histamine, whereas the two isomers (and histamine) are about equally effective with leaf grana. In the presence of leaf grana plus added Mn2+ and peroxidase, l-tyrosine and l-cysteine like-wise cause HCN formation; but these amino acids cause little or no HCN formation in the presence of Chlorella extracts. A stimulation of HCN production by l-histidine was observed with intact Chlorella cells. Because of the limitations of the assay method, the possibility can not be excluded that other substances than histidine may also lead to HCN generation in Chlorella vulgaris, but the results show that histidine has an important role in HCN generation by this species.Abbreviation POD peroxidase  相似文献   

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