Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:Q86TM3 (cage)
 29,987 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The serine-threonine kinase gene AURORA-A is commonly amplified in epithelial malignancies. Here we show that elevated Aurora-A expression at levels that reflect cancer-associated gene amplification overrides the checkpoint mechanism that monitors mitotic spindle assembly, inducing resistance to the chemotherapeutic agent paclitaxel (Taxol). Cells overexpressing Aurora-A inappropriately enter anaphase despite defective spindle formation, and the persistence of Mad2 at the kinetochores, marking continued activation of the spindle assembly checkpoint. Mitosis is subsequently arrested by failure to complete cytokinesis, resulting in multinucleation. This abnormality is relieved by an inhibitory mutant of BUB1, linking the mitotic abnormalities provoked by Aurora-A overexpression to spindle checkpoint activity. Consistent with this conclusion, elevated Aurora-A expression causes resistance to apoptosis induced by Taxol in a human cancer cell line.
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PMID:AURORA-A amplification overrides the mitotic spindle assembly checkpoint, inducing resistance to Taxol. 1255 75

Hepatocellular carcinoma (HCC) is a common primary cancer associated frequently with hepatitis C virus (HCV). To gain insight into the molecular mechanisms of hepatocarcinogenesis, and to identify potential HCC markers, we performed cDNA microarray analysis on surgical liver samples from 20 HCV-infected patients. RNA from individual tumors was compared with RNA isolated from adjacent nontumor tissue that was cirrhotic in all of the cases. Gene expression changes related to cirrhosis were filtered out using experiments in which pooled RNA from HCV-infected cirrhotic liver without tumors was compared with pooled RNA from normal liver. Expression of approximately 13,600 genes was analyzed using the advanced analysis tools of the Rosetta Resolver System. This analysis revealed a set of 50 potential HCC marker genes, which were up-regulated in the majority of the tumors analyzed, much more widely than common clinical markers such as cell proliferation-related genes. This HCC marker set contained several cancer-related genes, including serine/threonine kinase 15 (STK15), which has been implicated in chromosome segregation abnormalities but which has not been linked previously with liver cancer. In addition, a set of genes encoding secreted or plasma proteins was identified, including plasma glutamate carboxypeptidase (PGCP) and two secreted phospholipases A2 (PLA2G13 and PLA2G7). These genes may provide potential HCC serological markers because of their strong up-regulation in more than half of the tumors analyzed. Thus, high throughput methods coupled with high-order statistical analyses may result in the development of new diagnostic tools for liver malignancies.
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PMID:Identification of novel tumor markers in hepatitis C virus-associated hepatocellular carcinoma. 1259 38

Oral squamous cell carcinoma (OSCC) is one of the most commonly diagnosed cancers worldwide. Chromosome 20q is a hotspot for gene amplification in OSCC and the serine/threonine kinase STK15 (also named Aurora-A) maps to 20q13. The amplification and over-expression of STK15 is common in neoplasia but the functional and clinical impact of STK15 in OSCC remains poorly understood. STK15 copy number is amplified in 12% of OSCCs and nuclear STK15 protein expression increases with tumour progression. In vivo elevated nuclear STK15 protein expression is significantly associated with the worse prognosis of OSCC patients. The combination of high nuclear STK15 and Ki-67 expression has a 2.55-fold hazard for cancer-associated mortality. In vitro knockdown of STK15 reduced the oncogenic phenotypes of OECM-1 cells. Injection of lentivirus carrying shRNA vectors against STK15 significantly reduced the growth of SAS xenografts on nude mice. Knockdown of STK15 also induced autophagy and apoptosis of OSCC cells. Our data provide evidence that STK15 is oncogenic for OSCC and that its nuclear expression is a predictor of clinical behaviour. Knockdown of STK15 could be a potential therapeutic option in OSCC and other tumours.
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PMID:Nuclear STK15 expression is associated with aggressive behaviour of oral carcinoma cells in vivo and in vitro. 2059 69

Aurora kinase family of serine/threonine kinases are important regulators of mitosis that are frequently over expressed in human cancers and have been implicated in oncogenic transformation including development of chromosomal instability in cancer cells. In humans, among the three members of the kinase family, Aurora-A, -B and -C, only Aurora-A and -B are expressed at detectable levels in all somatic cells undergoing mitotic cell division and have been characterized in greater detail for their involvement in cellular pathways relevant to the development of cancer associated phenotypes. Aurora-A and -B are being investigated as potential targets for anticancer therapy. Development of inhibitors against Aurora kinases as anticancer molecules gained attention because of the facts that aberrant expression of these kinases leads to chromosomal instability and derangement of multiple tumor suppressor and oncoprotein regulated pathways. Preclinical studies and early phase I and II clinical trials of multiple Aurora kinase inhibitors as targeted anticancer drugs have provided encouraging results. This article discusses functional involvement of Aurora kinase-A and -B in the regulation of cancer relevant cellular phenotypes together with findings on some of the better characterized Aurora kinase inhibitors in modulating the functional interactions of Aurora kinases. Future possibilities about developing next generation Aurora kinase inhibitors and their clinical utility as anticancer therapeutic drugs are also discussed.
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PMID:Aurora kinase inhibitors as anticancer molecules. 2086 17

Polo-like kinase 1 (Plk1), a serine-threonine kinase, plays a key role in the regulation of the cell cycle. Elevated Plk1 expression in various cancers is correlated with poor prognosis and poor patient survival rates. Several Plk1 inhibitors are currently being developed as potential treatments for cancer. In the present study, we investigated whether dendritic cells (DC) electroporated with mouse Plk1RNA (mPlk1RNA/DC) can induce Plk1-specific immune responses and exert antitumor effects in various murine tumor models. Overexpression of Plk1 protein was confirmed in several mouse and human tumor cell lines and various cancer tissues. Furthermore, Plk1-specific CD4(+) and CD8(+) T cells were induced by vaccination with mPlk1RNA/DC and the cytotoxic activity of the T cells was demonstrated against several Plk1-expressing tumor cell lines. Vaccination with mPlk1RNA/DC inhibited the growth of MC-38 and B16F10 tumors in C57BL/6 mice and the growth of CT26 tumors in BALB/c mice. Depletion of CD8(+) T cells reversed the inhibition of tumor growth by mPlk1RNA/DC vaccination. Homologous human Plk1RNA-electroporated DC also inhibited tumor growth in MC-38 tumor-bearing mice. In addition, Plk1-specific cytotoxic T lymphocytes from PBMC of healthy donors could be induced using autologous monocyte-derived DC electroporated with RNA encoding the whole gene of human Plk1. Taken together, the results of the present study suggest that Plk1 could be a universal tumor antigen recognized by cytotoxic T lymphocytes for cancer immunotherapy.
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PMID:Induction of antitumor immunity using dendritic cells electroporated with Polo-like kinase 1 (Plk1) mRNA in murine tumor models. 2154 75

The cancer-associated, centrosomal adaptor protein TACC3 (transforming acidic coiled-coil 3) and its direct effector, the microtubule polymerase chTOG (colonic and hepatic tumor overexpressed gene), play a crucial function in centrosome-driven mitotic spindle assembly. It is unclear how TACC3 interacts with chTOG. Here, we show that the C-terminal TACC domain of TACC3 and a C-terminal fragment adjacent to the TOG domains of chTOG mediate the interaction between these two proteins. Interestingly, the TACC domain consists of two functionally distinct subdomains, CC1 (amino acids (aa) 414-530) and CC2 (aa 530-630). Whereas CC1 is responsible for the interaction with chTOG, CC2 performs an intradomain interaction with the central repeat region of TACC3, thereby masking the TACC domain before effector binding. Contrary to previous findings, our data clearly demonstrate that Aurora-A kinase does not regulate TACC3-chTOG complex formation, indicating that Aurora-A solely functions as a recruitment factor for the TACC3-chTOG complex to centrosomes and proximal mitotic spindles. We identified with CC1 and CC2, two functionally diverse modules within the TACC domain of TACC3 that modulate and mediate, respectively, TACC3 interaction with chTOG required for spindle assembly and microtubule dynamics during mitotic cell division.
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PMID:The centrosomal adaptor TACC3 and the microtubule polymerase chTOG interact via defined C-terminal subdomains in an Aurora-A kinase-independent manner. 2427 64

Computational prediction of cancer associated SNPs from the large pool of SNP dataset is now being used as a tool for detecting the probable oncogenes, which are further examined in the wet lab experiments. The lack in prediction accuracy has been a major hurdle in relying on the computational results obtained by implementing multiple tools, platforms and algorithms for cancer associated SNP prediction. Our result obtained from the initial computational compilations suggests the strong chance of Aurora-A G325W mutation (rs11539196) to cause hepatocellular carcinoma. The implementation of molecular dynamics simulation (MDS) approaches has significantly aided in raising the prediction accuracy of these results, but measuring the difference in the convergence time of mutant protein structures has been a challenging task while setting the simulation timescale. The convergence time of most of the protein structures may vary from 10 ns to 100 ns or more, depending upon its size. Thus, in this work we have implemented 200 ns of MDS to aid the final results obtained from computational SNP prediction technique. The MDS results have significantly explained the atomic alteration related with the mutant protein and are useful in elaborating the change in structural conformations coupled with the computationally predicted cancer associated mutation. With further advancements in the computational techniques, it will become much easier to predict such mutations with higher accuracy level.
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PMID:Use of long term molecular dynamics simulation in predicting cancer associated SNPs. 2472 14

Activation of the serine-threonine kinase Akt promotes the survival and proliferation of various cancers. Hypoxia promotes the resistance of tumor cells to specific therapies. We therefore explored a possible link between hypoxia and Akt activity. We found that Akt was prolyl-hydroxylated by the oxygen-dependent hydroxylase EglN1. The von Hippel-Lindau protein (pVHL) bound directly to hydroxylated Akt and inhibited Akt activity. In cells lacking oxygen or functional pVHL, Akt was activated to promote cell survival and tumorigenesis. We also identified cancer-associated Akt mutations that impair Akt hydroxylation and subsequent recognition by pVHL, thus leading to Akt hyperactivation. Our results show that microenvironmental changes, such as hypoxia, can affect tumor behaviors by altering Akt activation, which has a critical role in tumor growth and therapeutic resistance.
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PMID:pVHL suppresses kinase activity of Akt in a proline-hydroxylation-dependent manner. 2756 86