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21.
Metallothionein protects bone marrow stromal cells against hydrogen peroxide-induced inhibition of osteoblastic differentiation 总被引:6,自引:0,他引:6
Metallothionein (MT), a cysteine-rich, metal-binding protein, is involved in homeostatic regulation of essential metals and protection of cells against oxidative injury. It has been shown that oxidative stress is associated with pathogenesis of osteoporosis and is capable of inhibiting osteoblastic differentiation of bone cells by nuclear factor-kappaB (NF-kappaB). In this study, the effect of MT on oxidative stress-induced inhibition of osteoblast differentiation was examined. 50-200 microM hydrogen peroxide-induced oxidative stress suppressed the osteoblastic differentiation process of primary mouse bone marrow stromal cells (BMSCs), manifested by a reduction in the differentiation marker alkaline phosphatase (ALP). The presence of exogenous MT (20-500 microM) or induction of endogenous MT by ZnCl2 (50-200 microM) could protect BMSCs against H2O2-induced inhibition of osteoblastic differentiation, manifested by a resumption of H2O2-inhibited ALP activity and ALP positive cells. Furthermore, adding exogenous MT or inducing endogenous MT expression impaired H2O2-stimulated NF-kappaB signaling. These data indicate the ability of MT to protect BMSCs against oxidative stress-induced inhibition of osteoblastic differentiation. 相似文献
22.
Metallothioneins in human tumors and potential roles in carcinogenesis 总被引:19,自引:0,他引:19
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24.
Liu YL Lee HT Chang CC Kan LS 《Biochemical and biophysical research communications》2003,306(1):59-63
A first-order-like state transition is considered to be involved in the restoration of the activities of a few proteins by correctly folding the protein [Phys. Rev. E 66 (2002) 021903]. In order to understand the general applicability of this mechanism, we studied a metallothionein (MT) protein with an unconventional structure, i.e., without any alpha-helix or beta-sheet. MT is a 61 amino-acid peptide. There are 6-7 Zn(2+) ions, which bind avidly to 20 conserved cysteines (Cys) of MT. These properties indicate that the structure of MT is quite different from those of the other proteins. Similar to our previous findings, the denatured MT can be folded without any aggregation via a designated stepwise quasi-static process (an over-critical reaction path). The particle size of folded MT intermediates, determined by dynamic light scattering, shrank right after the first folding stage. It is consistent with a collapse-model. In addition, results from both atomic absorption and circular dichroism (CD) indicate that the stable intermediates may fold to the native conformation but with only partial Zn(2+) binding, which in turn implies that those folding intermediates are in a molten globular state. These reversible unfolding and folding processes indicate that Cys-rich protein, MT, may also be folded by way of a first-order-like state transition mechanism. We suspect that this process may likely be involved in the reaction of the metal substitution process in metal containing enzymes. 相似文献
25.
Ptashynski MD Pedlar RM Evans RE Wautier KG Baron CL Klaverkamp JF 《Comparative biochemistry and physiology. Toxicology & pharmacology : CBP》2001,130(2):145-162
An 18-day experiment was conducted to investigate the uptake and sublethal toxicity of dietary Ni in adult lake whitefish (LWF, Coregonus clupeaformis) and lake trout (LT, Salvelinus namaycush) fed diets containing 0, 1000 and 10000 microg Ni/g, prepared with and without brine shrimp. The results of this experiment were used to design an experiment of longer duration in which one of the fish species was selected and exposed to lower dietary Ni doses. In the present study feed refusal was observed in LT and LWF fed 10000 microg Ni/g, after three and 4-5 feedings, respectively. LT fed Ni-contaminated diets exhibited different patterns of Ni accumulation than LWF. Increased Ni concentrations in all LWF tissues, except the intestine, were associated with increased doses of Ni. Copper and Zn concentrations in kidney and liver of LWF were altered. Metallothionein concentrations in kidneys of LT fed 1000 microg Ni/g and 10000 microg Ni/g and LWF fed 10000 microg Ni/g and in livers of LWF fed 10000 microg Ni/g (diet without shrimp only) increased significantly. Increased lipid peroxide production in the plasma of LT fed 10000 microg Ni/g was observed. Blood glucose and electrolytes were affected by Ni exposure. Histopathological alterations were observed in kidneys of LWF fed low and high dose diets, livers of whitefish fed high dose diets, and intestines of LWF fed high dose diets and LT fed low and high dose diets. LT fed high dose diets exhibited significant decreases in weight. 相似文献
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28.
Riggio M Filosa S Parisi E Scudiero R 《Comparative biochemistry and physiology. Toxicology & pharmacology : CBP》2003,135(2):191-196
In the present report, we investigated zinc, copper and metallothionein (MT) contents in zebrafish oocytes and embryos. Our results demonstrate that the metal content increases during oocytes maturation. Zinc increases from 30 ng/oocyte (stage-1 oocytes) to 100 ng/oocyte (stage-3 oocytes); copper varied from 1 ng/oocyte (stage-1 oocytes) to 3.5 ng/oocyte (stage-3 oocytes). During embryogenesis, zinc and copper contents dramatically increase after fertilisation around the 512-cells stage, then slowly decrease until the mid-gastrula stage. During oocyte growth, the changes in the MT level are proportional to metal content, whereas during embryogenesis the pattern of MT accumulation does not parallel that of the two metals. Indeed, the maternal pool of MT decreases steadily during the early stages of the development until the gastrula stage. We have examined the effect of cadmium on the expression of MT during zebrafish development. After cadmium exposure, MT content increases in embryos at the blastula stage, whereas no induction occurs in embryos at the gastrula stage. However, pre-treatment of embryos at the gastrula stage with 5-aza-2'-deoxycytidine induces MT synthesis following exposure to cadmium. These observations show that changes in metal levels are not correlated to MT content in the embryo, whereas DNA methylation is one of the factors regulating MT expression. 相似文献
29.
Rabbit liver Pt7MT, Zn7MT, Bi7MT were reconstituted and the kinetic studies of the reactions with electrophilic disulphide 5, 5-dithiobis-(2-nitrobenzoic acid) (DTNB) were investigated to explore the possible mechanism of metals release from metallothioneins. It is revealed that the Pt7MT, Zn7MT react with DTNB biphasically, yielding a four-term rate law: Rate = k
1f [MT]+k
2f [DTNB][MT]+k
1s [MT]+k
2s [DTNB][MT]. Zn7MT reacts with disulphide DTNB more rapidly and has significantly greater observed rate constants k
s, k
f than Pt7MT. The kinetic data for Bi7MT indicate that the reaction is monophasic and the rate law is proved to be: Rate = k
1 [MT]+k
2 [DTNB][MT]. The observed pseudo-first order rate constants for above MTs are insensitive to pH value. Based on the available experimental data, the different kinetic behaviors of MTs reactions with electrophilic disulphide DTNB and a possible mechanism to release the coordinated metal ions are discussed. 相似文献
30.
The developmental alterations in metallothionein (MT) proteins and zinc (Zn) were investigated in brains of two transgenic
strains of mice. MT protein was measured by a cadmium binding assay and Zn by atomic absorption spectrophotometry. MT proteins
were expressed at birth (day 1) both in MT-I overexpressing transgenic mouse (MT-I*) and MT-null (expressing only brain specific
isoform, MT-III) transgenic mouse. MT proteins level (mainly MT-I) in MT-I* was 16.1 Μ-g/g at birth, and thereafter increased
with age to a maximal adult level of 55.3 Μg/g (day 60). Zn level in MT-I* also increased from 8.43 Μg/g (day 1) to 20.7 Μg/g
(day 60) with age. MT protein (MT-III) in MT-null mouse was 9.71 Μg/g at birth and remained relatively unchanged during development.
Zn level in MT-null mouse at birth was 9.46 Μg/g and also remained unchanged during development. The similar alterations in
MT isoforms and Zn in brain during development suggest that MT isoforms may act as a Zn binding protein. 相似文献