线粒体膜完整性对细胞命运的调控

线粒体双层膜的完整性是细胞存活的关键因素,其遭到破坏后会使细胞发生凋亡、焦亡或炎症。线粒体膜的破坏包括线粒体外膜通透、线粒体内膜通透、通透性转换,三者可通过调控不同的信号通路导致不同的细胞命运。然而,这些信号通路之间存在交叉关联,使得线粒体膜对细胞命运的调控错综复杂,导致人们对其机制缺乏清晰的认识。本综述首先分析了不同程度线粒体外膜通透在细胞存活、癌变或凋亡中的作用,接着讨论了线粒体内膜通透通过引发线粒体DNA释放促进炎症发生的分子机制,然后阐述了线粒体通透性转换引发焦亡的作用机制,最后总结出线粒体膜完整性影响细胞命运决策的内在关联。深入了解线粒体膜完整性调控细胞命运的分子动力学机制,有助于为癌症和神经退行性疾病的诊疗提供思路。     

广东西樵山细石叶石核的开发策略

长期以来,细石叶技术的发展和传播是更新世末期到全新世初期文化传播、人群迁徙和生态适应研究领域探讨的重要课题。20世纪50年代,发现于广东西樵山石器制造场的大批细石叶技术产品,突破了传统意义上对细石叶技术流行、传播范围的认识。早期研究中不少学者就西樵山细石叶制品的形态特征、分布情况进行了介绍,随后鲜见后续研究,缺乏对技术内涵、石核开发策略的深入解析,亦未开展对其所指示的文化传播与人口迁徙问题的探讨。本文选取收藏于中山大学人类学博物馆的343件细石叶石核,通过对石料、毛坯类型、台面类型和数量、剥片面等多方位观察以及对相关技术数值的测量统计,建构西樵山细石叶石核开发策略的模式。这项工作总结了西樵山细石叶技术的特点,并与其他区域的细石叶技术进行对比,加深了对出现在亚热带地区的细石叶技术的认识,为尝试进一步讨论其可能的技术源流和指示人口迁徙与文化传播提供了基础。     

The structure of AcrIE4-F7 reveals a common strategy for dual CRISPR inhibition by targeting PAM recognition sites

Bacteria and archaea use the CRISPR-Cas system to fend off invasions of bacteriophages and foreign plasmids. In response, bacteriophages encode anti-CRISPR (Acr) proteins that potently inhibit host Cas proteins to suppress CRISPR-mediated immunity. AcrIE4-F7, which was isolated from Pseudomonas citronellolis, is a fused form of AcrIE4 and AcrIF7 that inhibits both type I-E and type I-F CRISPR-Cas systems. Here, we determined the structure of AcrIE4-F7 and identified its Cas target proteins. The N-terminal AcrIE4 domain adopts a novel α-helical fold that targets the PAM interaction site of the type I-E Cas8e subunit. The C-terminal AcrIF7 domain exhibits an αβ fold like native AcrIF7, which disables target DNA recognition by the PAM interaction site in the type I-F Cas8f subunit. The two Acr domains are connected by a flexible linker that allows prompt docking onto their cognate Cas8 targets. Conserved negative charges in each Acr domain are required for interaction with their Cas8 targets. Our results illustrate a common mechanism by which AcrIE4-F7 inhibits divergent CRISPR-Cas types.     

Gas chromatographic-mass spectrometric assay for N-2-chloroethylaziridine, a volatile cytotoxic metabolite of cyclophosphamide, in rat plasma

A sensitive and specific method for the quantitative analysis of N-2-chloroethylaziridine (CEA), a volatile cytotoxic metabolite of cyclophosphamide, has been developed using gas chromatography-mass spectrometry and stable isotope dilution techniques. The high volatility problem of CEA during isolation procedure was overcome by the combined use of a deuterium-labeled analog as the internal standard and a Snyder column-concentrator assembly. The assay was found to be linear from 16.7 to 2667 ng/ml in rat plasma with a routine detection limit of 5 ng/ml. The within-run precision at 33, 333 and 1333 ng/ml (n=6) was found to be 4.8, 4.9, and 6.1%, respectively. The between-run precision was 6.4% (n=6). The dichloromethane extraction recoveries at 33, 333, and 1333 ng/ml were found to be 101, 98, and 91%, respectively (all at n=6). However, the overall recovery through extraction and evaporation was only 18.3, 15.2, and 27.7% at 33, 333, and 1333 ng/ml levels, respectively. The analytical method was used to evaluate the generation of CEA from its precursors in sodium phosphate buffer, in cell culture media, and the degradation of CEA in these media. In pH 7.4, 0.067 M sodium phosphate buffer at 37°C, both phosphoramide mustard (PM) and nornitrogen mustard (NNM) were degraded in an apparent first-order fashion with half-lives of 24.8 and 14.5 min, respectively. The generated CEA was rather stable in this buffer and degraded with a half-life of 20 h. It was found that 32% PM and 91% NNM were converted to CEA in pH 7.4, 0.067 M sodium phosphate buffer at 37°C, respectively, and 41% PM was transformed into CEA in RPMI 1640 tissue culture media containing 10% FBS at 37°C. The generated CEA was very stabble in the culture media with a degradation half-life of 265 h.     

Macrophage colony-stimulating factor is produced by human T lymphoblastoid cell line, CEM-ON: identification by amino-terminal amino acid sequence analysis

A subclone, designated CEM-ON, derived from an azaguanine-resistant human leukemic T cell line, CEM-AG(R), constitutively secretes a colony-stimulating factor (CSF) which stimulates the production of macrophages from murine bone marrow progenitor cells. This CSF has been purified from serum-free conditioned medium. Highly purified CEM-ON CSF with a specific activity of 4.7 X 10(7) units/mg protein was obtained. Amino-terminal sequence analysis showed that the first 27 amino acids were identical to the amino-terminal sequence of the M-CSF (CSF-1) based on the cDNAs for human M-CSF. On SDS-PAGE analysis, CEM-ON CSF had an apparent molecular weight of 33,000-43,000; following reduction with 2-mercaptoethanol, this migrated as a 20,000-24,000 subunit, suggesting a homodimer structure. These results show that a human T cell line, CEM-ON, secretes M-CSF into its medium.     

Fluorescence spectroscopic analysis of calpain II interactions with calcium and calmodulin antagonists

1. The intrinsic fluorescence of epoxysuccinyl-inhibited calpain II undergoes a Ca2(+)-dependent decrease which contrasts with the increase observed for calmodulin. 2. Calpain II was inhibited by the calmodulin antagonist toluidinylnaphthalenesulfonate (TNS), and a Ca2(+)-dependent increase in TNS fluorescence intensity was observed for epoxysuccinyl-inhibited calpain II. 3. The calmodulin antagonists calmidazolium CDZ and felodipine both caused decreases in the intrinsic fluorescence of epoxysuccinyl-inhibited calpain II. 4. Increasing concentrations of Ca2+ caused an increase in the fluorescence intensity of the inhibited enzyme in the presence of (CDZ), and a decrease in the presence of felodipine. 5. It is concluded from these studies that Ca2+ and calmodulin antagonists induce conformational changes in calpain II, and that changes occur in regions other than the Ca2(+)-binding domains.     

Deubiquitylase OTUD3 prevents Parkinson’s disease through stabilizing iron regulatory protein 2

Iron deposits are neuropathological hallmark of Parkinson’s disease (PD). Iron regulatory protein 2 (IRP2) is a key factor in regulating brain iron homeostasis. Although two ubiquitin ligases that promote IRP2 degradation have been identified, the deubiquitylase for stabilization of IRP2 in PD remains undefined. Here, we report OTUD3 (OTU domain-containing protein 3) functions as a deubiquitylase for IRP2, interacts with IRP2 in the cytoplasm, de-polyubiquitylates, and stabilizes IRP2 protein in an iron-independent manner. Depletion of OTUD3 results in a disorder of iron metabolism. OTUD3 knockout mice display nigral iron accumulation, motor deficits, and nigrostriatal dopaminergic neurodegeneration, which resembles the pathology of PD. Consistently, decreased levels of OTUD3 are detected in transgenic PD mice expressing A53T mutant of human α-synuclein. Five single nucleotide polymorphism mutations of OTUD3 are present in cases of sporadic PD or controls, although no significant associations of OTUD3 SNPs with sporadic PD are detected. Taken together, these findings demonstrate that OTUD3 is a bona fide deubiquitylase for IRP2 and plays a critical role in the nigral iron deposits in PD.Subject terms: Ubiquitylation, Parkinson''s disease     

MYOZ2通过负调控TCAP的表达促进C3H10T1/2细胞成脂分化

本研究旨在明确钙调磷酸酶肌小节结合蛋白2(myozenin2,MYOZ2)的组织表达特性,阐明其对C3H10T1/2细胞成脂分化的影响及可能的作用机制.采集180日龄马身猪、60日龄ICR小鼠、35日龄罗斯肉鸡和12月龄小尾寒羊背最长肌、皮下脂肪和肝组织,检测MYOZ2基因mRNA表达.结果 显示,MYOZ2基因在所检...     

贵州晴隆老万场红土型金矿三种藓类植物及其土壤基质的重金属元素测定及相关性分析

利用原子吸收光谱仪对晴隆老万场红土型金矿三种苔藓植物体及其土壤中Au、Ca、Mg、Cu、Pb、Tl、Zn、Hg八种金属元素进行测定,并对植物体与元素之间的相关性及植物对金属的富集能力进行分析。结果表明:在该金矿区生长的苔藓体内金属元素普遍比较高,其体内金属元素含量的顺序与土壤中的金属元素的顺序基本一致。不同物种植物体对金属元素的吸收、富集却有较大的差异。Mg-Hg在0.01水平上达到极显著正相关,Au-Zn、Tl-Cu在0.05水平上达到显著正相关。皱叶毛口藓和芽孢银藓对Au具有较强的富集能力,因此,它们在该地区对红土型金矿具有一定的指示作用。