Pin1 Overexpression in Hepatocellular Carcinoma

Weng, Wei-Teng

05 July 2006

By Western blotting and immunohistochemical analyses, we have demonstrated that Pin1 was overexpressed in 71.4% of hepatocellular carcinoma (HCC) and its levels correlated with the clinical survival rate. This conclusion was supported by the results from examining Pin1 protein in HCC cancer cell lines. RT-PCR was performed to examine the Pin1 transcription level in tumor part and was compared with that in non-tumor part. Our results indicated that pin1 overexpression was due to the upregulation of Pin1 transcription. Interestingly, most of the cases with upregulation of Pin1 have been shown to correlate with £]-catenin and Cyclin D1 accumulation in HCC specimens. These results were consistent with the previous studies that Pin1 caused £]-catenin and Cyclin D1 elevation in breast cancer. The concordance between hepatitis virus chronic infection and Pin1 overexpression of HCC patients was also analysis. Taken together, these data indicated that Pin1 overexpression leading to £]-catenin and Cyclin D1 accumulation might play a critical role in hepatocellular carcinogenesis and tumor progression. Pin1 levels therefore can be used as a prognostic marker for HCC, and our results suggested that Pin1 is a potential target for therapeutic intervention in hepatocellular carcinoma.

Hepatocellular Carcinoma

HCC

Pin1

£]-catenin

beta-catenin

Cyclin D1

The effects of cdk5 inhibitor ¡Ð roscovitine on morphine antinociceptive tolerance, formalin-induced pain behavior and pilocarpine-induced seizure in Sprague¡VDawley rats

Wnag, Cheng-Huang

22 July 2002

Cyclin-dependent kinase-5 (Cdk5) was identified as a serine/threonine kinase that plays an important role in neuronal development. Association with one of the neuronal activators, p35 or p39, is required for Cdk5 to elicit its diverse effects in the nervous system, such as neurite outgrowth. In addition to these, increasing evidence suggests that Cdk5 also plays an important role in cocaine addiction, neurotransmitter release, NMDA receptor phosphorylation. This thesis is divided into three parts which deals with the effects of Cdk5 inhibitor¡Ðroscovitine on the morphine tolerance development, acute inflammatory pain, and pilocarpine-induced seizure respectively. The first part explored the effect of Cdk5 inhibitior¡Ðroscovitine on the morphine antinociceptive tolerance development. Delta FosB activation is involved in morphine tolerance. Cyclin-dependent kinase- 5 (Cdk5) is found to be the downstream target of delta FosB. We examined the effects of the potent selective Cdk5 inhibitor¡Ðroscovitine on the development of antinociceptive tolerance of morphine. Tolerance was induced by continuous infusion of morphine 5 µg/hr intrathecally (i.t.) for 5 days. The effect of co-administration of roscovitine 1 µg/hr i.t. for 5 days was also examined. Roscovitine co-administration enhanced the antinociceptive effect of morphine in morphine tolerant rats. It also shift the morphine antinociceptive dose¡Ðresponse curve to the left during morphine tolerance induction, and reduced the increase in the ED50 of morphine two-fold. Collectively, these findings suggest Cdk5 modulation may be involved in the development of morphine tolerance and its inhibitor will enhance antinociceptive effect. The second part discussed the roscovitine effect on acute inflammatory pain. Formalin injected into the rat hind paw will evoke flinching (consisting of an elevation and shrinking back of the injected paw), a reliable parameter of pain behavior. The nociceptive response to formalin occurs in a biphasic pattern: there isan initial acute period (phase 1), and after a short period of remission, phase 2 begins and consists of a longer period (1 hour) of sustained activity. The initial response was initially attributed to a direct algogenic effect of formalin, whereas phase 2 was associated with the central sensitization. In this study, the Cdk5 inhibitor¡Ðroscovitine was injected intrathecally to elucidate the mechanism of Cdk5 activation during formalin-induced hyperalgesia. The 50 ul of 5% formalin solution was used as the noxious stimulant. The rats were injected with 0, 50, 100, and 200ug roscovitine intrathecally thirty minutes before hind paw formalin injection. Intrathecal 200ug roscovitine injection attenuates the phase I flinch response. And intrathecal 50, 100, and 200ug roscovitine injection suppress phase II flinch response effectively. Roscovitine administration could effectively suppress the formalin-induced flinch behavior. This implies the activation of Cdk5 plays an important role in the sensitization after nociceptive stimulation. The third part focus on the roscovitine effect on the pilocarpine induced seizure. Pilocarpine temporal lobe epilepsy model is widely used. Chronic electroconvulsive therapy could upregulate Cdk5 activity. Cdk5 inhibitor¡Ðroscovitine could suppress NMDA induced long-term potentiation in hippocampal slice. Intracerebroventricular injection of 100£gg roscovitine 30 min before pilocarpine-induced epilepsy could significantly decrease the seizure-induced mortality ( 11% in roscovitine group VS 77% in control group). The escape latency, spatial memory impairment, in the pilocarpine-induced seizure group is significant longer than the roscovitine pretreatment group in the Morris water maze test after one month (p¡Õ0.05). It is concluded Cdk5 may play an important in the pathogenesis of epilepsy. Therefore, Cdk5 inhibition may become another way for the epilepsy treatment.

formalin

morphine tolerance

cyclin-dependent kinase-5

temporal lobe epilepsy

Functions of Cdk1-cyclin B in regulating the early embryonic mitoses in Drosophila /

Ji, Jun-Yuan,

January 2003

Thesis (Ph. D.)--University of Washington, 2003. / Vita. Includes bibliographical references (leaves 136-153).

Defining the Ubiquitin and E2-Enzyme Requirements for APC/C-Mediated Degradation of Cyclin B1

Dimova, Nevena Varbinova

12 September 2012

Post-translational modification of proteins with ubiquitin regulates many aspects of cell physiology, including protein degradation. A uniform polyubiquitin chain that is linked through Lys48 has been widely accepted as central for recognition and destruction by the 26S proteasome. Work in more recent years has demonstrated that the repertoire of proteolytic signals may encompass chains of other linkage types, including Lys11-linked ubiquitin chains and short assemblies of mixed linkage. In this dissertation I examine whether catalysis mediated by the Anaphase-Promoting Complex/Cyclosome (APC/C) is dependent on polyubiquitination and whether the proteolytic machinery exerts a requirement for specific ubiquitin linkages to efficiently degrade cyclin B1. In chapter II, I describe a novel method in which Xenopus cell-cycle extracts are made largely dependent on exogenous ubiquitin by inhibiting ubiquitin recycling, allowing us to evaluate the relative contribution of distinct ubiquitin linkages in APC/C-mediated ubiquitination and degradation. Utilizing this approach, in chapter III, I found that the conjugation of single ubiquitin moieties to multiple lysine residues in cyclin promotes efficient degradation of cyclin B1 in mitotic Xenopus extracts. Lysine11-ubiquitin chain-formation becomes essential to proteasomal targeting only when the number of available lysine residues in cyclin B1 is restricted. Analysis in a reconstituted system revealed that APC/C catalyzes multiple monoubiquitination with rapid kinetics and species bearing four or more monoubiquitins on distinct lysines are recognized by ubiquitin receptors. These multiply monoubiquitinated species are rapidly degraded by purified proteasomes. In chapter IV, I examine the role of distinct E2 enzymes in APC/C-dependent proteolysis. I demonstrate that the chain-extending E2 UBE2S and long Lys11-linked ubiquitin assemblies are dispensable for cyclin B1 degradation, but become increasingly important with restriction of the number of ubiquitination sites. Our findings support a model where through attachment of monoubiquitin to multiple lysine residues, and possibly elaboration of some short chains, UBCH10, or possibly members of the UBC4/5 family, cooperate with the APC/C to generate a robust proteolytic signal on cyclin B1.

APC

APC/C

cyclin B1

ubiquitin

cellular biology

biochemistry

The effect of cyclin G associated kinase on androgen receptor function and prostate cancer progression

Emsley-Leik, Kimberley Louise

05 1900

The mechanism by which prostate cancer progresses from androgen dependence (AD) to androgen independence/castration resistance (AI/CR) is currently a major focus of prostate cancer-related research. Prostate cancers that progress to a state of AI/CR are typically resistant to most standard types of treatments. Due to its primary role in driving normal prostate cell growth and proliferation, the androgen receptor (AR) is believed to play a key role in progression. Coregulators, or any proteins which may either enhance or abrogate AR activity, are considered to be one of the potential mechanisms by which AR function may become impaired. Cyclin G-associated kinase (GAK) was initially identified as a potential coregulator of AR in a Tup 1 repressed transactivation system. A LNCaP cDNA library was screened for proteins which interacted with the NH2-terminus of AR. GAK was isolated from three independent library clones using two different AR baits (AR 1-549 and AR 1-646). This interaction was confirmed via GST pulldown and coimmunoprecipitation experiments, and preliminary luciferase assays suggested that GAK activates AR in a hormone dependent manner. In this study, my objectives were to validate GAK’s role as a coregulator of AR and to determine if overexpressing GAK affects progression to AI. In vitro luciferase assays whereby GAK was either overexpressed or knocked down in both LNCaP and PC3 cells did not significantly affect AR activity. Xenograft experiments utilizing a doxycycline (DOX) inducible lentiviral LNCaP-GAK overexpressing stable cell line demonstrated that while GAK may not play a significant role in modulating AR activity, it may adopt a more subtle role enhancing tumour take and tumour volume growth rate in vivo. While these results could not confirm GAK to be a direct coregulator of AR, it is entirely possible that GAK may influence prostate cancer progression, albeit indirectly. Recent publications report a growing amount of evidence suggesting GAK’s involvement in the critical cellular process of clathrin coated vesicle endocytosis, the dysregulation of which could potentially indirectly affect AR regulated genes.

Androgen receptor

Cyclin G associated kinase

Prostate cancer

Genetic analysis of the initiation of postembryonic development in Caenorhabditis elegans

Li, Shaolin, 1973-

January 2001

Initiation of postembryonic development is an important event for normal C. elegans development. Extrinsic factors affect development as well as intrinsic developmental cues. In order to investigate the molecular basis of initiation of postembryonic development, a genetic screen was performed to identify temperature-sensitive mutants that cannot initiate the cell divisions associated with postembryonic development at the restrictive temperature. Hydroxyurea (HU), a DNA replication inhibitor, was used as a tool to select against worms that initiate postembryonic cell divisions and/or the developmental program. 1,600,000 haploid genomes were screened, and 20 mutants have been isolated. 6 of them have been mapped to a relatively small genetic interval, and one inx-6 has been cloned and encodes an innexin family protein. Mutation of inx-6 caused abnormalities in pharyngeal pumping, resulting in worms that could not feed. The functions of a cyclin B homologue (ZC168.4) in postembryonic development have also been studied since cyclin B mutants also have postembryonic developmental arrest phenotype. Results indicate that zygotic expression of cyclin B is absolutely required for normal postembryonic development. Moreover, we found a novel function of this cyclin B homologue, which demonstrates an uncommon paternal effect required for spermatogenesis and/or fertilization.

Caenorhabditis elegans -- Genetics.

Caenorhabditis elegans -- Development.

Cyclin B.

Immunological characterization and histone kinase activity of cyclin B1 and Cdk1 at G1 and G2/M phase of the cell division cycle in one-cell mouse embryos

Dann, Jeremiah J.

January 2004

Cyclin B1 is a cell cycle protein typically associated with the regulation of cellular division (mitosis). Previous studies in this laboratory involving preimplantation mouse embryos found that cyclin B1, or a cyclin B 1-related protein, were present at both G1 and G2/M phase of the cell cycle. Not only was cyclin Bi detected during G1 phase in this study, it was found to be present in higher concentrations at G1 phase through the first three cell cycles. These findings were unexpected, because most of the literature suggests that cyclin B1 is normally degraded during G1 phase. Using immunoprecipitation and immunoblot techniques, a more detailed study of cyclin B1 expression was inititated. Using two different primary antibodies direct against cyclin B1, a 48.97 kDa protein band, which is believed to be cyclin B1, was detected at both G1 and G2/M phases in 1-cell mouse embryos. Using another antibody directed against Cdk1, the kinase that forms a complex with cyclin B1 in order to direct the G2/M transition, a 37 kDa protein band was also detected at both G1 and G2/M phases in 1-cell mouse embryos. In order to determine whether cyclin B1 was present as a complex with Cdk1, immunoblotting with the anti-Cdk1 antibody. Again, a 37kDa protein band was detected at both G1 and G2/M phases. Finally, in order to determine whether the cyclin B1/Cdk1 complex exists in its active form, histone kinase assays were performed using anti-cyclin B1 immunoprecipitates. Kinase activity was detected in immunoprecipitates collected from G2/M phase 1-cell embryos, but no kinase activity was detected from immunoprecipitates collected from G1 phase 1-cell embryos. These data indicate that cyclin B1 and Cdk1 are present and exist as a complex in both G1 and G2/M phases of 1-cell mouse embryos, although the complex only appears to be active at the G2/M phase. / Department of Biology

Cyclins.

Cyclin-dependent kinases.

Cell division.

Mice -- Embryology.

Potential oncogenic role of FOXGI in ovarian cancer

To, Man-yan.

January 2007

Thesis (M. Phil.)--University of Hong Kong, 2007. / Also available in print.

Single cell analysis of checkpoints in G₁ /

Martinsson, Hanna-Stina,

January 2005

Diss. (sammanfattning) Stockholm : Karol. inst., 2005. / Härtill 4 uppsatser.

Regulation of cyclin dependent kinase inhibitors during the vertebrate cell cycle : a dissertation /

Zhu, Xi-Ning.

January 2007

Dissertation (Ph.D.).--University of Texas Graduate School of Biomedical Sciences at San Antonio, 2007. / Vita. Includes bibliographical references.