1.Zinc Absorption from Representative Diet in a Chinese Elderly Population Using Stable Isotope Technique.
Ya Jie LI ; Min LI ; Xiao Bing LIU ; Tong Xiang REN ; Wei Dong LI ; Chun YANG ; Meng WU ; Lin Li YANG ; Yu Xia MA ; Jun WANG ; Jian Hua PIAO ; Li Chen YANG ; Xiao Guang YANG
Biomedical and Environmental Sciences 2017;30(6):391-397
OBJECTIVETo determine the dietary zinc absorption in a Chinese elderly population and provide the basic data for the setting of zinc (Zn) recommended nutrient intakes (RNI) for Chinese elderly people.
METHODSA total of 24 elderly people were recruited for this study and were administered oral doses of 3 mg 67Zn and 1.2 mg dysprosium on the fourth day. The primary macronutrients, energy, and phytic acid in the representative diet were examined based on the Chinese National Standard Methods. Fecal samples were collected during the experimental period and analyzed for zinc content, 67Zn isotope ratio, and dysprosium content.
RESULTSThe mean (± SD) zinc intake from the representative Chinese diet was 10.6 ± 1.5 mg/d. The phytic acid-to-zinc molar ratio in the diet was 6.4. The absorption rate of 67Zn was 27.9% ± 9.2%. The RNI of zinc, which were calculated by the absorption rate in elderly men and women, were 10.4 and 9.2 mg/d, respectively.
CONCLUSIONThis study got the dietary Zn absorption in a Chinese elderly population. We found that Zn absorption was higher in elderly men than in elderly women. The current RNI in elderly female is lower than our finding, which indicates that more attention is needed regarding elderly females' zinc status and health.
Aged ; Asian Continental Ancestry Group ; Biological Availability ; China ; Diet ; Dysprosium ; Elements ; Feces ; chemistry ; Female ; Humans ; Intestinal Absorption ; Male ; Meals ; Middle Aged ; Nutritional Physiological Phenomena ; Zinc ; chemistry ; pharmacokinetics ; Zinc Isotopes
2.Effect of metal ions on the stability of metallothionein in the degradation by cellular fractions in vitro.
Si Houn HAHN ; Ook Joon YOO ; William A GAHL
Experimental & Molecular Medicine 2001;33(1):32-36
Metallothioneins (MT), small molecular weight metal binding proteins are known to play an important protective role against heavy metal toxicity, either as antioxidants or pre-oxidants. However, the mode of metabolic fate of MTs in various metal complexes is not clearly understood. This study was carried out to better understand the mode of selective turnover rate of various form of MT in complexes with different metals. The degradation of in vitro translated mouse 35S-cysteine-MT was examined in lysosomal or cytosolic fractions from mouse liver by gel electrophoresis and autoradiography. Overnight incubations of MT showed extensive proteolysis in the lysosomal fraction but not in cytosolic fractions. However, Cu2+-MT was found to be stable under the same experimental condition. In contrast, Zn did not interfere with MT degradation. These results suggest that lysosomes are chiefly responsible for MT removal and appears to be selective on the metals involved in the MT complex. In vitro, translated, radiolabeled MT provides a suitable substrate for investigating the characteristics of MT degradation.
Animal
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Copper/*metabolism/pharmacology
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Ions
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Liver/drug effects/*metabolism
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Lysosomes/metabolism
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Metallothionein/drug effects/*metabolism
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Mice
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Sulfur Radioisotopes
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Support, Non-U.S. Gov't
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Zinc/*metabolism/pharmacology