镉暴露大鼠睾丸支持细胞金属硫蛋白表达的时相研究

啮齿目动物的睾丸较肝脏对镉毒性更为敏感.为阐明不同组织细胞的镉毒性分子机制,对镉暴露大鼠睾丸支持细胞与肝脏金属硫蛋白基因(MT)的表达及镉蓄积进行了时相研究.成年雄性SD大鼠低剂量镉(4.0 μmol/kg)皮下注射后,立即进行睾丸支持细胞和肝脏组织的分离.采用RT-PCR技术分析mRNA,并用光密度扫描作半定量分析,蛋白质定量用ELISA方法,原子分光光度吸收法测定镉浓度.结果显示：镉暴露1 h后肝脏MT mRNA即有明显的诱导表达,3 h达高峰;支持细胞也有明显的诱导表达, 6 h达高峰.镉暴露后肝脏MT有明显的诱导表达,但睾丸支持细胞不但未见MT增加而且还稍有下降.提示：a.镉对MTmRNA的诱导表达具有时间依赖性和组织特异性.b.镉虽然能诱导睾丸MT的转录,但没有促进其MT的合成,这可能是睾丸对镉毒性与致癌作用较肝脏更敏感的重要原因.     

镉致黑斑蛙肝脏氧化损伤与金属硫蛋白含量的变化

为观察镉对黑斑蛙(Rana nigromaculata)肝脏脂质过氧化产物和金属硫蛋白含量的影响,将黑斑蛙暴露于10.0mg·mL-1浓度的镉溶液中30d,分别测定了黑斑蛙在暴露4、10d和30d时肝脏组织中镉(Cd)、还原型谷胱甘肽(GSH)、金属硫蛋白(MT)和过氧化产物丙二醛(MDA)的含量。实验结果表明,黑斑蛙肝脏中镉的积累量、GSH和MT含量均随着镉暴露时间的延长而显著升高,具有明显的时间-效应关系;在镉暴露的第10天,肝MDA含量明显高于对照组。提示镉可对黑斑蛙肝脏造成氧化损伤,而GSH、MT含量的升高则可能是机体抗氧化损伤的机理之一。     

镉负荷大鼠一氧化氮和肿瘤坏死因子-α释放在介导多器官机能活动障碍中的作用

选择健康SD雄性成年大鼠36只,随机分成对照组(C组)、镉负荷中剂量组(M组)、镉负荷高剂量组(H组).将分析纯CdCl2·2.5H2O用生理盐水稀释成含镉0.4 mg/ml浓度的注射溶液,高压灭菌.M组和H组大鼠每天分别按含镉0.5和1.0 mg/kg体重腹腔注射染毒,C组用同样方法注射与H组同等剂量的生理盐水,进行急性镉负荷实验,连续观察7 d.研究急性镉负荷对大鼠血液及几种组织中一氧化氮(NO)自由基、肿瘤坏死因子-α(TNF-a)变化的影响及作用.结果显示在整个实验期内,镉负荷大鼠体重与对照组比较明显下降;睾丸、心脏和肝脏组织中的镉含量极显著上升,并随镉负荷剂量和时间而增加;血浆NO水平M组虽高于对照组,但差异不显著,而H组极显著高于对照组,M和H组血浆TNF-α明显高于对照组;在整个实验期内,镉负荷大鼠睾丸、心脏和肝脏组织匀浆中NO较对照组高或明显高于对照组,睾丸和心脏组织匀浆中TNF-a也均高于或明显高于对照组,但肝脏中的TNF-a三组间没有差异.结果提示,镉负荷诱发NO、TNF-α大量释放在导致大鼠多种器官机能活动障碍发生过程中可能起重要作用.     

快速老化鼠脑MT1和MT3 cDNA克隆及mRNA定量条件的建立

金属硫蛋白 (Metallothionein ,MT)基因家族的三种亚型MT1、MT2和MT3在脑组织中均有表达 ,它们在脑组织中具有重要的神经生理和神经调节功能 ,其中MT3可能是老年性痴呆 (Alzheimer′sdisease ,AD)潜在的病因学因子。本研究以快速老化鼠SAMP10脑组织总RNA为模板 ,通过RT PCR扩增出MT1的编码区序列和MT33′非翻译区序列的cDNA片段。将两个片段克隆到pGEM○R TEasy载体上 ,经测序分析确定两个cDNA片段分别为MT1编码区序列和MT33′非翻译区序列。Northern杂交结果表明 ,MT1和MT3mRNA在 2、4、6、8四个月龄的SAMP10和SAMR1脑组织中均有表达。同时建立了MTmRNA的定量条件 ,为进一步研究MTmRNA增龄性变化规律及与老年性痴呆病因学的关系奠定了基础。     

亚毒性剂量毒死蜱降低新西兰兔ABCA1表达加重高脂诱导的动脉粥样硬化

为了探讨亚毒性剂量有机磷酸酯杀虫剂毒死蜱对高脂饮食诱导的动脉粥样硬化的影响及其机制,32只健康雄性新西兰兔随机分为对照组、毒死蜱组、高脂组、高脂+毒死蜱组.每天以20 mg/kg亚毒性剂量的毒死蜱灌胃处理6个月.动物处死后检测血脂水平和血清胆碱酯酶活性.收集腹腔巨噬细胞,测定其胆固醇流出率.苏丹Ⅳ染色观察胸主动脉粥样硬化斑块,定量分析动脉粥样硬化斑块占血管内表面积的百分比.颈总动脉石蜡切片,观察动脉粥样硬化斑块.采用实时定量PCR和蛋白质印迹检测,分别检测肝脏、血管和腹腔巨噬细胞中三磷酸腺苷结合盒转运体A1(ATP-binding cassette transporter A1,ABCA1)mRNA和蛋白质的表达.结果显示:与对照组相比,高脂饮食升高了血清总胆固醇和脂蛋白水平,主动脉和颈总动脉出现明显的动脉粥样硬化斑块,其肝脏、主动脉和腹腔巨噬细胞ABCA1的表达升高,腹腔巨噬细胞中胆固醇流出增加;与对照组相比,毒死蜱组血清胆碱酯酶活性降低,但没有出现明显的中毒症状和肝肾功能损伤,血清中高密度脂蛋白(HDL)水平降低,ABCA1的表达降低,腹腔巨噬细胞中胆固醇流出减少;高脂+毒死蜱组与高脂组相比,血清胆碱酯酶活性降低,也没有出现明显的中毒症状和肝肾功能损伤,ABCA1的表达降低,腹腔巨噬细胞中胆固醇流出减少,主动脉和颈总动脉粥样硬化斑块更加明显.结果提示长期暴露于亚毒性剂量的毒死蜱可加速高脂饮食的致动脉粥样硬化作用,其机制可能与毒死蜱降低体内ABCA1的表达和胆固醇流出有关.     

镉对蟾蜍的4种器官乳酸脱氢酶同工酶的影响

以腹腔注射法对蟾蜍(Bufo bufo gargarizans)给镉,处理一周后,观察了4种镉中毒浓度(0．1、0．2、0．4、0．8mg／kg)条件下的蟾蜍心、肝、肾和睾丸中乳酸脱氢酶(LDH)同工酶的变化。结果表明：随着镉中毒浓度的升高,心脏LDH同工酶的活性明显升高,睾丸LDH同工酶的活性明显下降,肝中的LDH1、LDH2、LDH3、LDH5在0．4、0．8mg／kg浓度组酶活性明显增加,而LDH4则明显减弱,肾中LDH1的活性随镉浓度的升高而明显升高,其它各酶带活性出现先增强而后又逐渐减弱的现象。结果提示了镉对蟾蜍主要器官LDH同工酶的影响具有组织差异性。     

快速老化鼠脑MT1和MT3cDNA克隆及mRNA定量条件的建立

金属硫蛋白（Metellothionein,MT)基因家族的三种亚型MT1、MT2和MT3在脑组织中均有表达,它们在脑组织中具有重要的神经生理和神经调节功能,其中MT3可能是老年性痴呆（Alzheimer's disease,AD)潜在的病因学因子,本研究以快速老化鼠SAMP10脑组织总RNA为模板,通过RT-PCR扩增出MT1的编码区序列和MT33′非翻译区序列的cDNA片段。将两个片段克隆到pGEM-TEasy载体上,经测序分析确定两个cDNA片段分别为MT1编码区序列和MT33′非翻译区序列,Northern杂交结果表明,MT1和MT3mRNA在2、4、6、8四个月龄的SAMP10和SAMR1脑组织中均有表达。同时建立了MTmRNA的定量条件,为进一步研究MTmRNA增龄性变化规律及与老年性痴呆病因学的关系奠定了基础。     

不同营养状态下方斑东风螺的镉生物积累及毒性

采用室内模拟方式,研究了方斑东风螺在饥饿及摄食饵料分别为贻贝和沙蚕3种情况下暴露于水体镉(Cd2+,50 μg·L-1)10周后的存活、生长、螺体Cd蓄积及有关毒性效应参数的变化.结果表明:长期饥饿与同时水体Cd暴露降低了方斑东风螺的成活率,且螺体糖原被最大程度动用,摄食有助于螺体抵抗Cd毒性;方斑东风螺肝胰脏DNA受损伤后在摄食状态下随时间延长均有不同程度的自我修复能力,但长期禁食使螺的DNA完整性降低且不能恢复;饥饿引起方斑东风螺体组织萎缩,并导致Cd蓄积与金属硫蛋白(MT)含量升高,摄食螺因体质量增加的稀释作用而具有较低的Cd蓄积与MT含量;摄食贻贝的方斑东风螺较摄食沙蚕有更快的生长率和更低的Cd浓度.表明饥饿加剧了Cd对方斑东风螺的毒性;不同饵料对方斑东风螺的生长有显著影响,并间接影响螺体Cd蓄积、MT诱导和糖原消耗.应用方斑东风螺等海洋腹足类作为环境监测指示种时应考虑栖息地食物丰度和饵料类型等的影响.方斑东风螺高密度工厂化养殖中应注意合理投饵并定期监测海水Cd浓度.     

全氟辛烷磺酸盐对胚胎期大鼠雄性生殖系统的影响

目的:研究全氟辛烷磺酸盐(PFOS)对胚胎期大鼠雄性生殖系统发育的影响.方法:PFOS分别以5、10、20 mg· kg-1·d-1灌胃染毒孕12-19天的SD母鼠,染毒结束后,测量雄性胎鼠体重、身长、睾丸重量、AGD;酶联免疫吸附法检测雄性胎鼠睾丸内睾酮水平;实时荧光定量PCR法测睾丸组织类固醇激素合成急性调节蛋白(StAR)、胰岛素样因子3(INSL3)mRNA的相对表达量.结果:与对照组相比,高剂量染毒组雄性胎鼠体重、体长、AGD长度显著降低(P＜0.01),睾丸重量减轻(P＜0.05);高剂量染毒组雄性胎鼠睾丸中内睾酮水平下降(P＜0.05);高剂量染毒组雄性胎鼠睾丸组织中StAR mRNA的表达量降低(P＜0.05),而中剂量染毒组StAR mRNA和INSL3 mRNA表达量则明显升高(P＜0.01).结论:孕期染毒PFOS对雄性胚胎生殖系统的发育有毒性作用,其机制可能与PFOS影响睾酮合成和INSL3 mRNA的表达有关.     

MT1F mRNA在结肠癌组织中的表达及其临床病理意义

目的:探讨MT1F mRNA在结肠癌组织中的表达及其临床病理意义。方法:采用Taq Man探针实时荧光定量Real-time PCR检测40例结肠癌及对应正常粘膜组织中MT1F mRNA的表达,并通过免疫组化检测Metallothionein(MT)的蛋白表达。结果:82.5%(33/40例)的结肠癌组织MT1F mRNA表达较对应正常组织明显下调,降低2.4倍至113倍不等。MT1F mRNA水平与结肠癌患者的年龄、性别、肿瘤部位、肉眼形态、直径、分化及Dukes分期无关。在MT1F mRNA低表达的病例中,癌组织MT蛋白表达低于对应正常组织(P0.05)。结论:结肠癌组织MT1F mRNA水平显著下调,但与结肠癌的临床病理特征无关。     

Cadmium-induced elevation of hepatic isometallothionein concentrations in inbred strains of mice

Susceptibility to Cd toxicity differs among inbred strains of mice. For example, C3H/He mice are sensitive to Cd-induced hepatotoxicity while DBA/2 mice are resistant. Metallothionein (MT), which in rodents exists predominantly as two isoproteins (MT-I and MT-II), is an important endogenous protein in the detoxication of Cd. The present investigation examines the possibility that strain-dependent susceptibility to Cd-induced liver injury is mediated by an inherited inability to accumulate a specific isoform of MT in response to Cd exposure. Hepatic concentrations of MT-I and MT-II were measured in C3H/He (Cd-sensitive) and DBA/2 (Cd-resistant) mice at various times after the administration of non-toxic (2.5 mumol Cd/kg) to hepatototoxic (80 mumol Cd/kg) dosages of Cd. The concentration of MT-I and MT-II in these strains was similar 24 h after injection of non-hepatotoxic dosages of Cd (10 mumol Cd/kg or less) as well as 6-12 h after a mildly hepatotoxic dose of Cd (20 mumol Cd/kg). The concentration of total MT in liver of Cd-sensitive mice was greater than that present in resistant mice 24-72 h after 20 mumol Cd/kg injection. The data indicates that susceptibility to Cd-induced hepatotoxicity observed in C3H/He mice is not due to a deficit in the induction of a particular isoform of MT.     

Effects of Chronic Cadmium Poisoning on Zn, Cu, Fe, Ca, and Metallothionein in Liver and Kidney of Rats

An experiment was conducted to invest effects of chronic cadmium poisoning on Zn, Cu, Fe, Ca, and metallothionein gene expression and protein synthesis in liver and kidney in rats. Forty rats, 6?weeks old, were randomly allocated into two groups. A group was given CdCl(2) (1?mg/KgCd(2+)) by intraperitoneal injection once a day. The other group was treated with normal saline in the same way. Liver and kidney were collected for analysis at the end of the third week. Results showed that Cd exposure increased Cd (P?相似文献   

Induction and characterization of metallothionein in chicken epiphyseal growth plate cartilage chondrocytes

Following exposure to cadmium or zinc, chickens were sacrificed and the liver, kidney, and bone epiphyseal growth plates harvested. When cytosolic extracts of the growth plate cartilage were fractionated by gel filtration chromatography, a protein with high metal-binding capacity and low ultraviolet (UV) absorbance eluted in the same position as liver metallothionein (MT) and a MT standard. Cd or Zn treatment resulted in a 25-fold or 5-fold induction in growth plate MT, respectively. In liver the greatest level of MT induction was seen with short-term Cd exposures. In contrast, MT levels in the growth plate increased as the duration of Cd exposure increased. Induction of MT in growth plate chondrocyte cell cultures was observed for media Cd concentrations of ≥0.1 μM and Zn concentrations of ≥100 μM. Basal and inducible levels of MT declined through the culture period and were lowest in the terminally differentiated mineralized late stages of the culture. Alkaline phosphatase activity was also lowest in the late-stage cultures, while total cellular protein increased throughout the culture period. Treatment of chondrocytes with Zn prior to Cd exposure resulted in a protective induction of MT. Pre-treatment of chondrocytes with dexamethasone resulted in suppressed synthesis of MT upon Cd exposure and greater Cd toxicity. Both Cd and Zn resulted in significantly increased levels of MT mRNA in chondrocyte cell cultures. Dexamethasone treatment resulted in an approximate 2- to 3-fold increase in MT mRNA. This is contrary to the finding that MT protein levels were decreased by dexamethasone. The findings suggest that an increased rate of MT degradation in dexamethasone-treated and late-stage chondrocyte cultures may be associated with the terminally differentiated phenotype. J. Cell. Biochem. 68:110–120, 1998. © 1998 Wiley-Liss, Inc.     

Metallothionein mRNA stability in chicken and mouse cells

Northern blot analysis revealed that metallothionein (MT) mRNAs accumulate after inhibition of protein synthesis with cycloheximide (CHX) in primary cultures of chick embryo hepatocytes and fibroblasts, as well as in an established mouse hepatoma cell line. Inhibition of RNA synthesis with actinomycin D (AMD) led to rapid loss of MT mRNAs in these cells, whereas CHX dramatically retarded the rate of MT mRNA decay (t1/2 greater than 24 h). These results suggest that CHX causes MT mRNA accumulation primarily by increasing stability of MT mRNA. Thus, changes in MT mRNA turn-over rates may play an important role in regulating the accumulation of MT mRNA. The half-lives of MT mRNAs in chicken and mouse cells were determined by oligodeoxyribonucleotide excess solution hybridization with RNA samples extracted after different periods of exposure to AMD. The half-life of chicken MT (cMT) mRNA in uninduced chicken embryo hepatocytes was 3.6 h. Induction of cMT mRNA by pretreatment of these cells with zinc (Zn) prior to exposure to AMD, did not alter the half-life of cMT mRNA significantly. In contrast, cadmium (Cd) induction led to a 2.5-fold increase in the stability of this mRNA. In uninduced chicken embryo fibroblasts, cMT mRNA levels were too low to allow accurate determination of half-life using the methods employed here. However, the half-life of this mRNA in Zn-induced chicken embryo fibroblasts was 6.2 h, whereas it was 9.3 h in Cd-induced cells. Thus, the turn-over rate of cMT mRNA after Cd-induction is very similar in chick embryo fibroblasts and hepatocytes. These data suggest that the accumulation of MT mRNA in chicken cells may reflect, in part, metal-specific effects on MT mRNA stability. The half-lives of mouse MT-I and MT-II (mMT-I and mMT-II) mRNAs in uninduced BNL hepatoma cells were identical (9.2 h), and were not effectively altered after induction by metals (Zn, Cd) or interleukin-1 beta (IL-1 beta). However, mMT mRNAs in pachytene spermatocytes and round spermatids, freshly isolated from the adult testes, were 2.2- to 4.5-fold more stable than in hepatoma cells. These results suggest that cell-type specific accumulation of mMT mRNAs may be regulated, in part, by mRNA stability.     

Metallothionein mRNA and protein induction by cadmium in peripheral-blood leucocytes.

To help to evaluate the role of metallothionein (MT) in peripheral-blood leucocytes, we examined MT protein and mRNA levels in these cells before and after exposure to CdCl2 in culture. Protein was assayed by 109Cd2+ binding, and RNA by dot-blot hybridization. MT was induced in both lymphocytes and adherent monocytes about 10-fold with a 12 h exposure to 10 microM-CdCl2, but absolute levels were 3-fold higher in monocytes: 57 x 10(5) (+Cd2+) versus 6 x 10(5) (-Cd2+) molecules/cell for monocytes; 18 x 10(5) (+Cd2+) versus 2 x 10(5) (-Cd2+) for lymphocytes. Polymorphonuclear cells expressed relatively little MT (0.6 x 10(5) molecules/cell), and this did not change with phorbol ester stimulation or exposure to Cd2+, arguing against a direct protective role for MT in activated neutrophils. MT mRNA levels corresponded qualitatively to expression of protein in these cells. Our data provide quantitative comparisons of leucocyte MT expression and regulation in the human population. Variation in both basal and induced MT mRNA levels reflects environmental or experimental (intra-individual) and possibly genetic (inter-individual) differences.     

Antioxidative stress proteins and their gene expression in brown trout (Salmo trutta) from three rivers with different heavy metal levels

Three populations of brown trout (Salmo trutta) exposed to different metal levels in their natural environments, were studied with respect to antioxidants metallothionein (MT), superoxide dismutase (SOD) and catalase (CAT) as well as for corresponding mRNA levels. In addition, mRNA levels were studied for glutathione peroxidase (GPx) and glutathione reductase (GR). The Cd/Zn-exposed trout (Naustebekken River) had higher accumulated levels of Cd, Cu and Zn in gills, and higher levels of MT (both protein and mRNA) in liver and kidney as well as in gills compared to the Cu-exposed trout (Rugla River) and trout from an uncontaminated reference river (Stribekken River). Less MT found in the Cu-exposed trout may increase susceptibility to oxidative stress, but no higher levels of antioxidant mRNAs were found in gills of these trouts. The data indicated that chronic exposures of brown trout to Cd, Zn and/or Cu did not involve maintenance of high activities of SOD and CAT enzymes in gills, although SOD mRNA levels were higher in the Cd/Zn-exposed trout. In livers, mRNA levels of SOD, CAT and GPx were higher in the metal-exposed trout, but in the case of GR this was only seen in kidneys of Cd/Zn-exposed trout. However, both metal-exposed groups had higher activities of SOD enzyme in liver compared to the unexposed reference trout, and CAT activity was found to be higher in kidneys of Cu-exposed trout. The Cu-exposed trout did not seem to rely on MT production to avoid Cu toxicity in gills, but rather by keeping the Cu uptake at a low level. A coordinated expression of different stress genes may also be important in chronic metal exposure. It may be concluded that the observed metal effects relies on acclimation rather than on genetic adaptation in the metal exposed populations.     

Combined Effect of Dietary Cadmium and Benzo(a)pyrene on Metallothionein Induction and Apoptosis in the Liver and Kidneys of Bank Voles

Bank voles free living in a contaminated environment have been shown to be more sensitive to cadmium (Cd) toxicity than the rodents exposed to Cd under laboratory conditions. The objective of this study was to find out whether benzo(a)pyrene (BaP), a common environmental co-contaminant, increases Cd toxicity through inhibition of metallothionein (MT) synthesis-a low molecular weight protein that is considered to be primary intracellular component of the protective mechanism. For 6 weeks, the female bank voles were provided with diet containing Cd [less than 0.1 μg/g (control) and 60 μg/g dry wt.] and BaP (0, 5, and 10 μg/g dry wt.) alone or in combination. At the end of exposure period, apoptosis and analyses of MT, Cd, and zinc (Zn) in the liver and kidneys were carried out. Dietary BaP 5 μg/g did not affect but BaP 10 μg/g potentiated rather than inhibited induction of hepatic and renal MT by Cd, and diminished Cd-induced apoptosis in both organs. The hepatic and renal Zn followed a pattern similar to that of MT, attaining the highest level in the Cd + BaP 10-μg/g group. These data indicate that dietary BaP attenuates rather than exacerbates Cd toxicity in bank voles, probably by potentiating MT synthesis and increasing Zn concentration in the liver and kidneys.