微管蛋白酪氨酸连接酶类似物12通过干扰微管蛋白酪氨酸硝基化促进Hep-2细胞生长

硝基化酪氨酸与酪氨酸在结构上相似,它在病理情况下会出现,并在细胞内与微管蛋白结合,从而阻碍微管的正常功能. 硝基化酪氨酸在肿瘤中的作用,目前研究甚少.本文利用头颈鳞癌Hep-2细胞株,研究微管蛋白酪氨酸连接酶类似物12（tubulin tyrosine ligase like 12,TTLL12）和硝基化酪氨酸对头颈鳞癌Hep-2生长的影响,通过Western 印迹试验和MTT试验发现,随着硝基化酪氨酸的浓度升高,细胞内生成的硝基化酪氨酸微管蛋白含量也增高,同时细胞生长受抑制的程度显著增高; 对建立的TTLL12高表达细胞株加入硝基化酪氨酸培养,结果显示,TTLL12高表达细胞株内的硝基化酪氨酸微管蛋白含量明显低于对照组细胞;对照组细胞的生长明显受到抑制,而高表达细胞株的生长无明显改变,两者的细胞生长有显著性差异（P＜0.05）.本研究结果提示,TTLL12可通过阻碍硝基化酪氨酸与微管蛋白的结合,使头颈鳞癌Hep-2细胞逃避硝基化酪氨酸的打击. 对这一调控机制的进一步研究,必将有助于控制肿瘤细胞的生长,为治疗肿瘤寻找到新的治疗靶点.     

水蕨精子发生过程中中心体蛋白和微管蛋白的免疫荧光定位

采用透射电镜技术和免疫荧光标记技术对水蕨精子发生的超微结构以及中心体蛋白和微管蛋白在精子发生过程中的动态表达进行了观察。研究发现：（1）生毛体分化早期周围有放射状微管分布,这与线粒体向生毛体的聚集有关。（2）免疫荧光观察表明,中心体蛋白仅定位于生毛体、基体和鞭毛带上,自生毛体至基体阶段呈现明亮的荧光标记,在核塑形、鞭毛形成至精子成熟阶段,中心体蛋白荧光标记随着鞭毛的发生而逐渐减弱,至游动精子阶段中心体蛋白荧光标记信号几乎消失。（3）微管蛋白早期荧光标记与中心体蛋白标记形相同,在生毛体、鞭毛带、基体等运动细胞器上呈现明亮荧光标记,但微管蛋白随着鞭毛的发生其荧光标记越来越强。从二者的时空表达特征可以推断,中心体蛋白主要是运动细胞器的组织者,而非这些运动细胞器的结构成分,其功能是参与或负责中心粒、基体和鞭毛的发生。     

Structure of rat gamma-tubulin and its binding to HP33.

Gamma-tubulin is localized at the microtubule organizing center and is thought to participate in the organizing of the microtubule network. In this study, we isolated a cDNA of rat gamma-tubulin. The rat gamma-tubulin cDNA encoded 451 amino acids, the same number as that of its counterpart in other vertebrates, and its structure was found to be highly conserved in vertebrates. In a previous work, we identified HP33 (hepatocarcinogenesis- and hepatocellular proliferation-related 33-kDa protein) that was localized at the centrosome of hepatic cells and that exhibited MAP-like activity. In vitro GST pull-down assay using highly purified recombinant HP33 and bacterially expressed gamma-tubulin demonstrated that HP33 bound to gamma-tubulin directly. These results suggest that HP33 is localized at the centrosome via association with both the microtubule and its minus end-specific component, gamma-tubulin.     

HDAC8 drives spindle organization during meiotic maturation of porcine oocytes

ObjectivesHistone deacetylase 8 (HDAC8) is one of the class I HDAC family proteins, which participates in the neuronal disorders, parasitic/viral infections, tumorigenesis and many other biological processes. However, its potential function during female germ cell development has not yet been fully understood.Materials and methodsHDAC8‐targeting siRNA was microinjected into GV oocytes to deplete HDAC8. PCI‐34051 was used to inhibit the enzyme activity of HDAC8. Immunostaining, immunoblotting and fluorescence intensity quantification were applied to assess the effects of HDAC8 depletion or inhibition on the oocyte meiotic maturation, spindle/chromosome structure, γ‐tubulin dynamics and acetylation level of α‐tubulin.ResultsWe observed that HDAC8 was localized in the nucleus at GV stage and then translocated to the spindle apparatus from GVBD to M II stages in porcine oocytes. Depletion of HDAC8 led to the oocyte meiotic failure by showing the reduced polar body extrusion rate. In addition, depletion of HDAC8 resulted in aberrant spindle morphologies and misaligned chromosomes due to the defective recruitment of γ‐tubulin to the spindle poles. Notably, these meiotic defects were photocopied by inhibition of HDAC8 activity using its specific inhibitor PCI‐34051. However, inhibition of HDAC8 did not affect microtubule stability as assessed by the acetylation level of α‐tubulin.ConclusionsCollectively, our findings demonstrate that HDAC8 acts as a regulator of spindle assembly during porcine oocyte meiotic maturation.     

A novel microtubule depolymerizing colchicine analogue triggers apoptosis and autophagy in HCT‐116 colon cancer cells

Colchicine is a tubulin‐binding natural product isolated from Colchicum autumnale. Here we report the in vitro anticancer activity of C‐ring modified semi‐synthetic derivative of colchicine; N‐[(7S)‐1,2,3‐trimethoxy‐9‐oxo‐10‐(4‐phenyl‐piperidin‐1‐yl)‐5,6,7,9 tetrahydrobenzo[a]heptalen‐7‐yl]acetamide ( 4h ) on colon cancer HCT‐116 cell line. The compound 4h was screened for anti‐proliferative activity against different human cancer cell lines and was found to exhibit higher cytotoxicity against colon cancer cell lines HCT‐116 and Colo‐205 with IC₅₀ of 1 and 0.8 μM respectively. Cytotoxicity of the compound to the normal fR2 breast epithelial cells and normal HEK293 human embryonic kidney cells was evaluated in concentration and time‐dependent manner to estimate its selectivity for cancer cells which showed much better selectivity than that of colchicine. Compound 4h induced cell death in HCT‐116 cells by activating apoptosis and autophagy pathways. Autophagy inhibitor 3‐MA blocked the production of LC3‐II and reduced the cytotoxicity in response to 4h , but did not affect apoptosis, suggesting thereby that these two were independent events. Reactive oxygen species scavenger ascorbic acid pretreatment not only decreased the reactive oxygen species level but also reversed 4h induced cytotoxicity. Treatment with compound 4h depolymerized microtubules and the majority of cells arrested at the G2/M transition. Together, these data suggest that 4h has better selectivity and is a microtubule depolymerizer, which activates dual cell‐death machineries, and thus, it could be a potential novel therapeutic agent in cancer therapy. Copyright © 2016 John Wiley & Sons, Ltd.     

组蛋白去乙酰化酶抑制剂(HDAIs)对异染色质的作用

组蛋白乙酰化和去乙酰化可调节染色体的多种功能,例如基因表达和染色体分离等。研究发现,组蛋白去乙酰化酶抑制剂(histone deacetylase inhibitors,HDACIs)可诱导分化、生长阻断和肿瘤细胞凋亡,目前HDACIs正作为抗肿瘤药物进行临床试验,在肿瘤治疗中显示出具有较好的应用前景。然而,人们对于HDACIs在生物体内是如何发挥作用以及不同类型细胞为何会有不同的应答途径却关注甚少。本综述通过讨论HDACIs对周期和非周期细胞中组蛋白去乙酰化酶的抑制结果,来阐明组蛋白乙酰化模式的动力学特征,特别是对基因组异染色质的作用。     

Oryzalin,a dinitroaniline herbicide,binds to plant tubulin and inhibits microtubule polymerization in vitro

The effects of oryzalin, a dinitroaniline herbicide, on chromosome behavior and on cellular microtubules (MTs) were examined by light microscopy and immunogold staining, respectively, in endosperm cells from Haemanthus katherinae Bak. Brief treatments with 1.0·10^-8 M oryzalin reduced markedly the migration rate of anaphase chromosomes and 1.0·10^-7 M oryzalin stopped migration abruptly. Oryzalin (1.0·10^-7 M) depolymerized MTs and prevented the polymerization of new MTs at all stages of the mitotic cycle. The chromosome condensation cycle was unaffected by oryzalin. Endothelial cells from the heart of Xenopus leavis showed no chromosomal or microtubular rearrangements after oryzalin treatment. The inhibition by oryzalin of the polymerization of tubulin isolated from cultured cells of Rosa sp. cv. Paul's scarlet was examined in vitro by turbidimetry, electron microscopy and polymer sedimentation analysis. Oryzalin inhibited the rapid phase of taxol-induced polymerization of rose MTs at 24°C with an apparent inhibition constant (K _i ) of 2.59·10⁶ M. Shorter and fewer MTs were formed with increasing oryzalin concentrations, and maximum inhibition of taxol-induced polymerization occurred at approx. 1:1 molar ratios of oryzalin and tubulin. Oryzalin partially depolymerized taxol-stabilized rose MTs. Ligand-binding experiments with [¹⁴C]oryzalin demonstrated the formation of a tubulin-oryzalin complex that was time- and pH-dependent. The tubulin-oryzalin interaction (24°C, pH 7.1) had an apparent affinity constant (K _app) of 1.19·10⁵ M^-1. Oryzalin did not inhibit taxol-induced polymerization of bovinebrain MTs and no appreciable binding of oryzalin to brain tubulin or other proteins was detected. The results demonstrate pharmacological differences between plant and animal tubulins and indicate that the most sensitive mode of action of the dinitroaniline herbicides is the direct poisoning of MT dynamics in cells of higher plants.Abbreviations MT microtubule - SIB sucrose isolation buffer - TO tubulin-oryzalin complex     

Human Cytidine Triphosphate Synthetase 1 Interacting Proteins

We investigated the interacting proteins and intracellular localization of CTP synthetase 1 (CTPS1) in mammalian cells. CTPS1 interacted with a GST- peptidyl prolyl isomerase, Pin1 fusion (GST-Pin1) in a Ser 575 (S575) phosphorylation-dependent manner. Immunoprecipitation experiments demonstrated that CTPS1 also bound tubulin, and thirteen additional coimmunoprecipitating proteins were identified by mass spectrometry. Immunolocalization experiments showed that tubulin and CTPS1 colocalized subcellularly. Taxol treatment enhanced this but cotreatment of cells with the CTPS inhibitor, cyclopentenyl cytosine (CPEC), and taxol failed to disrupt the colocalization. Thus, these studies provide novel information on the potential interacting proteins that may regulate CTPS1 function or intracellular localization.