5 resultados para ANEMIA
em Chinese Academy of Sciences Institutional Repositories Grid Portal
Resumo:
Alterations in hematological indices such as decreases in blood cell counts (RBC), hematocrit (Ht) and hemoglobin (Hb) concentrations are key symptoms of anemia. However, few experiments were conducted to examine changes in hematological indices of fish exposed to microcystins that are believed to be fatal to circulatory systems of vertebrates. An acute toxicological experiment was designed to study hematological changes of crucian carp injected intraperitoneally (i.p.) with extracted microcystins at two doses, 50 and 200 mu g MC-LReqkg(-1) body weight. After being i.p. injected with microcystins, the fish exhibited behavioral abnormity. There were significant decreases in RBC in the high-dose group, and in Ht and Hb concentrations in both dose groups, while erythrocte sedimentation rate (ESR) significantly increased, indicating the appearance of normocytic anemia. There were no prominent changes in the three red cell indices, mean corpuscular volume (MCV), mean corpuscular hemoglobin (MCH,), and mean corpuscular hemoglobin concentration (MCHC). Increases in blood urea nitrogen (BUN) and creatinine (CR) in both dose groups suggest the occurrence of kidney impairment. Alteration in blood indices was reversible at the low dose group. Conclusively, anemia induced by kidney impairment was a key factor to cause abnormity of swimming behaviors and high mortality of crucian carp. (c) 2007 Elsevier Ltd. All rights reserved.
Resumo:
Pathogenic conformational conversion is a general causation of many disease, such as transmissible spon- giform encephalopathy (TSE) caused by misfolding of prion, sickle cell anemia, and etc. In such structural changes, misfolding occurs in regions important for the stability of native structure firstly. This destabi- lizes the normal conformation and leads to subsequent errors in folding pathway. Sites involved in the first stage can be deemed switch regions of the protein, and are vital for conformational conversion. Namely it could be a switch of disease at residue level. Here we report an algorithm that can identify such sites computationally with an accuracy of 93%, by calculating the probability of the native structure of a short segment jumping to a mistake one. Knowledge of such switch sites could be used to target clinical therapy, study physiological and pathologic mechanism of protein, and etc.
Resumo:
TRIM5α(tripartite motif protein 5-alpha)蛋白是恒河猴体内一种非常重要的限制因子,能抑制人免疫缺陷病毒(HIV-1,human immunodeficiency virus type 1)、马感染性贫血病毒(EIAV, equine infectious anemia virus)和猫免疫缺陷病毒(FIV, feline immunodeficiencyvirus)等逆转录病毒的复制.恒河猴TRIM5α的组织分布以及在受到外界刺激时TRIM5α mRNA表达量的变化研究还未见报道.本研究从中国恒河猴的各组织中提取总RNA,以β-actin基因作为内参照,通过半定量RT-PCR检测各组织中TRIMSα mRNA的表达.选择HIV-GFP-VSVG假病毒感染外周血单核细胞(peripheral blood mononuclear cell,PBMC),非特异性刺激剂--佛波脂(Phorbol myfismte acetate,PMA)+离子霉素(ionomycin,Ion)及CD28抗体+CD49d抗体分别共刺激恒河猴PBMC,研究不同刺激对恒河猴TRIM5α mRNA表达水平的影响.结果表明:TRIM5α mRNA表达于所研究的恒河猴21种组织中,免疫系统和泌尿生殖系统组织中表达量最高,而神经系统组织,如大脑、脊髓中表达较少,其他组织中未见明显的表达差异;HIV-GFP-VSVG感染和用PMA+Ion、CD28抗体+CD49d抗体分别共刺激PBMC能促进PBMC中TRIM5α mRNA的转录水平的上调.
Resumo:
由于各种内源和外在的因素,DNA会受到各种损伤,不过生物体已经进化出了一套保守的DNA修复系统,对损伤的DNA进行修复,确保基因组的稳定性及完整性。交联损伤是一种常见的DNA损伤,其修复过程相对复杂,主要是通过范可尼贫血症(Fanconi anemia,FA)通路来实现。FA是一种呈现基因组不稳定性的遗传综合征,其内在的病因就是FA通路的失活,因此不能有效修复交联损伤,导致DNA复制异常。
Resumo:
本文旨在分别研究重离子束及MMC在诱导细胞的DNA损伤效应中一些具体的分子机制,为治疗的进行以及相关辅助药物的开发提供理论依据。本文探索的重点有两个,第一个是重离子束辐射诱导的DNA损伤效应及p53在其中的激活,第二个是MMC诱导的DNA损伤效应及p53和BRCA1、H2AX等分子在其中的角色。 1. 12C6+离子束诱导HeLa细胞DNA损伤效应为了研究HeLa细胞经过12C6+ 束辐照之后的DNA损伤效应,及这个过程中p53激活的分子机制。我们运用中性单细胞电泳技术,检测了HeLa细胞经过4Gy 12C6+ 束辐照0h、3h、6h和12h之后DNA的损伤情况,以及0.5Gy、1Gy、2Gy和4Gy 12C6+ 束辐照0h后的DNA损伤情况。同时运用细胞生长实时监测仪监测了HeLa细胞在经过0Gy、0.5Gy和1Gy 12C6+ 束辐照之后的生长变化,并运用AO/EB双染检测了辐照24小时后的凋亡情况。另外,利用8mmol/L的caffeine(抑制ATM和ATR)和20μmol/L的wortmannin(抑制ATM和DNA-PK)处理HeLa细胞后再进行1Gy 12C6+ 束辐照,通过western blot检测p53的表达。结果显示,12C6+ 束辐照可造成HeLa细胞的DNA损伤,损伤随剂量升高而升高但随时间降低;并诱导HeLa细胞发生凋亡;而且辐照后p53表达升高,但经过caffeine或者wortmannin预先处理的细胞p53均没有显著升高。我们的结论是:12C6+ 束辐照可造成HeLa细胞的DNA损伤并诱导损伤修复及凋亡等效应,损伤效应相关的分子p53被激活,并且激活依赖于ATM。 2. MMC诱导的DNA损伤效应在这一部分研究中,首先,我们利用与上面相同的研究方法,探讨了p53在MMC诱导的DNA损伤效应中的激活情况,结果显示,MMC诱导的DNA损伤效应并不依赖于p53。另外,我们还探讨了, BRCA1在FANCD2的γ-H2AX依赖性转移中的作用。MMC可造成DNA的ICL(interstrand cross-link)损伤,ICL可通过FA(Fanconi Anemia)通路进行修复。FANCD2是FA通路的核心分子,在DNA产生ICL时被各种分子修饰然后转移到损伤部分,这个过程的涉及到ATR、γ-H2AX及BRCA1等,本文试图探讨BRCA1在其中的作用方式。研究中,我们监测了不同处理(包括对照、caffeine(可抑制ATR)、MMC及MMC +caffeine)的HCC1937(BRCA1缺陷型)和MCF7(BRCA1野生型)细胞的生长;并用Western blot检测MMC处理之后HCC1937细胞γ-H2AX的表达情况。结果表明,MMC和caffeine均可以抑制HCC1937的生长,但caffeine和MMC+caffeine的抑制效果是一样的;MMC和caffeine均可以抑制MCF7的生长,且MMC+caffeine处理比仅进行caffeine处理的抑制作用强;MMC处理之后,HCC1937的γ-H2AX表达显著升高。我们的结论是,在FANCD2的γ-H2AX依赖性转移中,H2AX的磷酸化并不依赖于BRCA1,不过,BRCA1和ATR应该参与一个相同的分子事件,可能是FANCD2的磷酸化。这个有待进一步的实验验证