Discoidin domain receptor 1 controls linear invadosome formation via a Cdc42–Tuba pathway

Accumulation of type I collagen fibrils in tumors is associated with an increased risk of metastasis. Invadosomes are F-actin structures able to degrade the extracellular matrix. We previously found that collagen I fibrils induced the formation of peculiar linear invadosomes in an unexpected integrin-independent manner. Here, we show that Discoidin Domain Receptor 1 (DDR1), a collagen receptor overexpressed in cancer, colocalizes with linear invadosomes in tumor cells and is required for their formation and matrix degradation ability. Unexpectedly, DDR1 kinase activity is not required for invadosome formation or activity, nor is Src tyrosine kinase. We show that the RhoGTPase Cdc42 is activated on collagen in a DDR1-dependent manner. Cdc42 and its specific guanine nucleotide-exchange factor (GEF), Tuba, localize to linear invadosomes, and both are required for linear invadosome formation. Finally, DDR1 depletion blocked cell invasion in a collagen gel. Altogether, our data uncover an important role for DDR1, acting through Tuba and Cdc42, in proteolysis-based cell invasion in a collagen-rich environment.     

Deregulated Cdc6 inhibits DNA replication and suppresses Cdc7-mediated phosphorylation of Mcm2–7 complex

Mcm2–7 is recruited to eukaryotic origins of DNA replication by origin recognition complex, Cdc6 and Cdt1 thereby licensing the origins. Cdc6 is essential for origin licensing during DNA replication and is readily destabilized from chromatin after Mcm2–7 loading. Here, we show that after origin licensing, deregulation of Cdc6 suppresses DNA replication in Xenopus egg extracts without the involvement of ATM/ATR-dependent checkpoint pathways. DNA replication is arrested specifically after chromatin binding of Cdc7, but before Cdk2-dependent pathways and deregulating Cdc6 after this step does not impair activation of origin firing or elongation. Detailed analyses revealed that Cdc6 deregulation leads to strong suppression of Cdc7-mediated hyperphosphorylation of Mcm4 and subsequent chromatin loading of Cdc45, Sld5 and DNA polymerase α. Mcm2 phosphorylation is also repressed although to a lesser extent. Remarkably, Cdc6 itself does not directly inhibit Cdc7 kinase activity towards Mcm2–4–6–7 in purified systems, rather modulates Mcm2–7 phosphorylation on chromatin context. Taken together, we propose that Cdc6 on chromatin acts as a modulator of Cdc7-mediated phosphorylation of Mcm2–7, and thus destabilization of Cdc6 from chromatin after licensing is a key event ensuring proper transition to the initiation of DNA replication.     

Rac1和Cdc42在乳腺癌中的表达和临床意义

目的:研究Rac1和Cdc42在人乳腺癌中的表达及临床意义。方法:收集339例人乳腺癌组织样本,通过免疫组化的方法检测Rac1和Cdc42的表达情况,并分析其与乳腺癌临床病理学特征间的相关性。结果:Rac1和Cdc42在正常乳腺组织中几乎不表达,而在肿瘤组织的阳性表达率分别为35.9%和38.5%,均较正常乳腺组织显著升高,差异均具有统计学意义(P0.001和P0.05)。卡方检验分析表明,二者的表达与患者的年龄、肿瘤大小、组织分化程度、HER2状态无关(P0.05),而与TNM分期、淋巴结转移、肿瘤侵袭、ER状态和Ki-67表达有相(P0.05)。相关性分析表明,Rac1和Cdc42的表达与高TNM分期(r分别为0.443和0.295;P均0.001)、淋巴结转移阳性(r均为0.480和0.562;P均0.001)、肿瘤侵袭(r分别为0.412和0.440;P均0.001)、ER阴性表达(r分别为-0.517和-0.342;P均0.001)以及Ki-67高表达(r分别为0.338和0.454;P均0.001)呈正相关。结论:在乳腺癌组织中,Rac1和Cdc42作为癌基因表达增加,可能在乳腺癌恶性进程中发挥重要作用。     

Cdc48 (p97): a ‘molecular gearbox’ in the ubiquitin pathway?

Cdc48 (p97), a conserved chaperone-like ATPase of eukaryotic cells, has attracted attention recently because of its wide range of cellular functions. Cdc48 is intimately linked to the ubiquitin pathway because its primary action is to segregate ubiquitinated substrates from unmodified partners. This 'segregase' activity is crucial for certain proteasomal degradation pathways and for some nonproteolytic functions of ubiquitin. Cdc48 associates not only with different 'substrate-recruiting cofactors' but also with distinct 'substrate-processing cofactors'. The latter proteins control the degree of ubiquitination of bound substrates by shifting the polyubiquitination reaction into 'forward', 'neutral' or 'reverse'. We discuss how Cdc48 might use this 'gearbox activity' to control protein fate and propose a similar mode of action for the 19S cap of the proteasome.     

酿酒酵母Afr1p调控septin蛋白Cdc12p的定位

AFR1最初被鉴定为在过量表达的情况下,可以使细胞产生α因子抗性,同时对融合过程中融合突起的形成起重要作用。Afr1p还具有调节细胞壁完整性途径中的MAPK Mpk1p的定位及活性的功能。该文通过对蛋白定位的观察发现,半乳糖诱导GAL-AFR1过量表达破坏了在出芽过程中Cdc12p的定位;缺失AFR1也会导致Cdc12p定位异常。Western blot结果显示,在营养生长过程中Afr1p稳定表达。这说明,稳定表达的AFR1有调节septin Cdc12p定位的功能,从而对维持septin的结构起到一定的作用。     

Widdrol activates DNA damage checkpoint through the signaling Chk2–p53–Cdc25A–p21–MCM4 pathway in HT29 cells

Widdrol is an odorant compound isolated from Juniperus chinensis. We previously reported that widdrol induces Gap 1 (G1) phase cell cycle arrest and leads to apoptosis in human colon adenocarcinoma HT29 cells. It was also reported that this cell cycle arrest is associated with the induction of checkpoint kinase 2 (Chk2), p53 phosphorylation and cyclin dependent kinase (Cdk) inhibitor p21 expression. In this paper, we investigated the molecular mechanisms of widdrol on the activation of G1 DNA damage checkpoint at early phase when DNA damages occurred in HT29 cells. First of all, we examined that widdrol breaks DNA directly or not. As the results of DNA electrophoresis and formation of phosphorylated histone H2AX (γH2AX) foci in HT29 cells, widdrol generates DNA double-strand breaks directly within 0.5?h both in vitro and in vivo. Based on this result, the change of proteins related in checkpoint pathway was examined over a time course of 0.5-24?h. Treatment of HT29 cells with widdrol elicits the following: (1) phosphorylation of Chk2 and p53, (2) reduction of cell division cycle 25A (Cdc25A) expression, (3) increase of Cdk inhibitor p21 expression, and (4) decrease of the levels of Cdk2 and cyclin E expression in a time-dependent manner. Moreover, only the expression level of mini-chromosome maintenance 4 (MCM4) protein, a subunit of the eukaryotic DNA replicative helicase, is rapidly down-regulated in HT29 cells treated with widdrol over the same time course, but those of the other MCM proteins are unchanged. Overall, our results indicated that widdrol breaks DNA directly in HT29 cells, and this DNA damage results in checkpoint activation via Chk2-p53-Cdc25A-p21-MCM4 pathway and finally cells go to G1-phase cell cycle arrest and apoptosis.     

Cdc42在乳腺癌中的作用

乳腺癌是女性最好发的恶性肿瘤之一,常规治疗方法虽取得了一定的疗效,但仍存在局限性。细胞分裂周期蛋白42(cell division cycle 42,Cdc42)是一种Rho家族蛋白的小GTP酶,可与GTP结合而被激活,进一步调控细胞骨架变化、极性建立、运动和迁移等各种生理进程。越来越多的研究表明,Cdc42在乳腺癌发生、发展过程中具有重要的调控作用,提示Cdc42有望作为一个新的治疗靶点应用到乳腺癌临床治疗中。该文总结最新的研究成果,探讨Cdc42在乳腺癌细胞极性建立、伪足形成中的作用,同时阐述Cdc42调控乳腺癌细胞侵袭、迁移和远处转移的具体分子机制以及相关的信号通路与乳腺癌演进的密切联系,并提出针对Cdc42的靶向治疗方法,为乳腺癌的治疗提供了新思路。     

Nudel在细胞迁移中通过Cdc42GAP参与调节Cdc42的活性

2008年3月11日出版的《发育细胞》（Developmental Cell）杂志报道了中国科学院上海生命科学研究院生物化学与细胞生物学研究所朱学良研究组的最新研究发现：Nudd蛋白在细胞迁移过程中通过Cdc42GAP调节Cdc42的活性,从而揭示了一条新的调节Cdc42的信号通路,对于深入了解细胞迁移的调节机制有重要意义。     

细胞周期蛋白Cdc25C的研究

细胞分裂周期蛋白25同源蛋白C(cell division cyclin 25 homolog C,Cdc25C)是一种细胞分裂周期蛋白质,在真核生物的细胞有丝分裂中起重要调节作用,是控制细胞周期进入M期的关键因子之一。在对Cdc25C的研究过程中,人们逐渐认识到细胞周期调节物可能对于癌症治疗是一个潜在的靶物质。Cdc25CC表达量的变化与肿瘤的发生机制有关。更重要的是,Cdc25C被发现是一种新的肿瘤相关抗原。     

小鼠Cdc25B核输出序列

为探讨小鼠卵母细胞中Cdc25B(cell division cycle 25 homolog B)核输出序列在卵母细胞G2/M转换过程中的调控机制,应用显微注射方法将Cdc25B的野生型、N末端缺失1～51位氨基酸片段(Cdc25B-Δ51)、1～65位氨基酸片段(Cdc25B-Δ65)突变体的mRNA和pEGFP-Cdc25B-WT、pEGFP-Cdc25B-Δ51、pEGFP-Cdc25B-Δ65的融合质粒显微注射到含有完整生发泡的小鼠卵母细胞中,观察不同注射组小鼠卵母细胞发生生发泡破裂的情况及蛋白质亚细胞定位。结果显示Cdc25B-Δ51及Cdc25B-Δ65都丧失了诱导小鼠卵母细胞减数分裂的能力;同时亚细胞定位研究表明在G2期野生型Cdc25B主要分布在细胞浆中,Cdc25B-Δ51在核浆均有分布,Cdc25B-Δ65则主要分布于细胞核中。研究结果表明Cdc25B在52～65位氨基酸之间存在核输出序列(nuclear export sequence,NES),NES参与的核转运机制作为一种重要的调控机制控制着细胞的生理进程;N末端的氨基酸对减数分裂的重启动起促进作用。     

Cdc42作为功能性因子调控纤维化

细胞分裂周期蛋白42(cell division control protein 42 homolog,Cdc42)是一种Rho蛋白家族的小GTPase,可与GTP或GDP结合并在其活性型或失活型之间的转换充当"分子开关",参与了细胞黏附、迁移与极化的过程。纤维化是引起器官功能丧失的重要原因之一,有许多不同的机制可以导致纤维化。以往的研究表明,Cdc42与癌症、心血管疾病、神经退行性病变等有密切的联系,却未提及Cdc42与纤维化之间存在的直接联系。该文总结最新的研究成果,讨论了Cdc42与肝、肾、肺以及心血管纤维化的关系。除此之外,该文也阐述了Cdc42通过细胞黏附迁移、上皮–间质转化等途径导致纤维化的具体机制,以及Cdc42介导的信号通路在纤维化过程中发挥的作用,同时还致力于研究各类关键因子之间的联系及与Rho蛋白质家族的"交谈(crosstalk)",更进一步完善了纤维化发生机制,并提出针对Cdc42的靶向治疗方式,以拓宽纤维化的治疗方案。     

Mutators in SACCHAROMYCES CEREVISIAE: MUT1–1, MUT1–2 and MUT2–1

The purpose of this study was to characterize two mutator stocks of yeast which were induced and selected on the basis of high spontaneous reversion rates of the suppressible "ochre" nonsense allele lys1-1. In the mutator stock VA-3, a single mutation, designated mut1-1, is responsible for the increase in the reversion rate of the ochre alleles lys1-1 and arg4-17. In stock VA-105, there are two separate mutator mutations. Tetrad analysis data showed these two loci are loosely linked. Based on complementation data, one of these mutations is at the same locus as mut1-1 and designated mut1-2. The second mutator of stock VA-105 was designated mut2-1. All three mutators are recessive. Both mut1-1 and mut1-2 give a high mutation rate for ochre nonsense suppressor (SUP) loci, but not for the ochre nonsense alleles. On the contrary, the mutation rates of the ochre alleles are greatly reduced. With the mutant mut2-1 there were mutations at both the lys1-1 site and its suppressors; mut2-1 is as effective as mut1-2 but not as effective as mut1-1 in inducing reversions of a missense mutant, his1-7. Neither mut1-1, mut1-2 nor mut2-1 were effective in inducing reversions of a putative frameshift mutation, hom3-10, or in inducing forward mutations to canavanine resistance.     

SKA1通过Cdc42介导高尔基体堆叠调控胰腺癌细胞侵袭与转移

目的：探讨SKA1调控胰腺导管腺癌（PDAC）侵袭与转移的分子机制。方法：利用免疫组化染色法检测胰腺导管腺癌组织样本及癌旁组织中SKA1与下游分子Cdc42的表达水平、用免疫印迹方法在不同胰腺癌细胞系及正常胰腺导管上皮细胞中进行验证;利用慢病毒转染技术构建SKA1稳定敲减和过表达的胰腺癌细胞株;利用免疫荧光方法检测PDAC细胞内SKA1敲低或过表达对高尔基体结构的影响,及Cdc42抑制剂ZCL278对高尔基体结构变化的调控;并利用Transwell实验及细胞划痕实验检测ZCL278对SKA1促癌作用的影响;应用免疫印迹方法检测SKA1及Cdc42表达对自噬标志物的影响。结果：在胰腺导管腺癌组织与细胞中SKA1与Cdc42表达均显著高于正常组织或细胞,且二者表达呈显著正相关;并且发现SKA1低表达的患者具有更长的总体生存期,而Cdc42表达高低与总体生存期无关。接着我们发现SKA1可促进PDAC细胞内高尔基体堆叠,并且在SKA1过表达的细胞中Cdc42抑制剂ZCL278可以抑制这种堆叠现象。进一步我们发现抑制Cdc42可逆转SKA1过表达对胰腺癌侵袭与转移的促进效应,具有统计学差异,而在...     

dbcAMP通过Cdc25B蛋白调控小鼠1-细胞期受精卵发育

为了研究PKA激活剂dbcAMP通过调控小鼠Cdc25B蛋白S149和S321位点磷酸化状态影响 小鼠1-细胞期受精卵的发育,将质粒pBSK-Cdc25B-WT、pBSK-Cdc25B-S149A、pBSK- Cdc25B-S321A和pBSK-Cdc25B-S149A/S321A体外转录成mRNA;显微注射入S期受精卵中 ,在2 mmol/L dbcAMP的M16培养基中培养,观察其对受精卵发育、MPF活性及CDC2- pTyr15磷酸化状态的影响. 结果显示,在有dbcAMP存在时,各组受精卵卵裂时间延迟 ,但Cdc25B-S/A mRNAs注射组受精卵卵裂率明显高于Cdc25B-WT mRNA注射组,MPF 活性提前达到高峰;CDC2-pTyr15磷酸化状态和MPF活性变化相一致. 因此,在小鼠1- 细胞期受精卵有丝分裂过程中,PKA对小鼠Cdc25B蛋白S149位点与S321位点的磷酸化 修饰是控制受精卵G2/M转换的重要方式.     

辅助伴侣分子Cdc37蛋白的研究进展

细胞分裂周期蛋白Cdc37最初是在芽殖酵母中发现的细胞周期相关蛋白。随后的研究表明Cdc37具有伴侣分子活性,可以特异地募集一系列的蛋白激酶结合到热激蛋白90（Hsp90）上,形成特定的分子伴侣复合体,参与维持蛋白的稳定性和激酶活性。Cdc37参与了细胞内的多项生命活动,在细胞周期、信号转导和基因表达中都起着重要的作用。由于Cdc37在肿瘤组织中特异性地高表达,使其成为肿瘤治疗中一个重要的分子靶点。     

黄牛、牦牛和犏牛睾丸组织中Cdc2、Cdc25A基因mRNA表达水平

黄牛和牦牛远缘杂交后代犏牛雄性不育是牦牛杂交改良中的一大难题。Cdc2和Cdc25A是减数分裂的两个关键基因, 其表达水平的下降将使精子发生不能正常进行, 导致雄性不育。为了探讨Cdc2、Cdc25A基因mRNA表达水平与犏牛雄性不育的关系, 文章采用荧光定量PCR技术对Cdc2和Cdc25A基因的组织表达特征以及在黄牛、牦牛和犏牛睾丸组织中的表达水平进行了分析。结果表明: Cdc2和Cdc25A基因在牦牛各种组织中广泛表达, 说明Cdc2和Cdc25A基因在各种组织细胞分裂和细胞周期运行中均发挥作用; 黄牛和牦牛睾丸组织中Cdc2、Cdc25A基因表达水平均显著高于犏牛(P<0.05), 说明睾丸组织中Cdc2和Cdc25A基因的低表达可能与犏牛雄性不育相关。     

Cdc37: a protein kinase chaperone?

The activity of most protein kinases is highly regulated, typically via phosphorylation and/or subunit association. However, the folding of protein kinases into an active state or a form capable of activation is now emerging as another important step through which they can be regulated. The 50-kDa protein Cdc37 and the associated heat-shock protein Hsp90 have been found to bind to, and be required for the activity of, diverse protein kinases, including Cdk4, v-Src, Raf and SEVENLESS. Together, Cdc37 and Hsp90 may act as a general chaperone for protein kinases, in particular those involved in signal-transduction pathways and cell-cycle control.