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The role of proline rich tyrosine kinase 2 (Pyk2) on cisplatin resistance in HCCGeng, Wei, January 2009 (has links)
Thesis (M. Phil.)--University of Hong Kong, 2009. / Includes bibliographical references (leaves 99-117). Also available in print.
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TAp73α enhances the cellular sensitivity to cisplatin in ovarian cancer cells via the JNK signaling pathwayZhang, Pingde., 张萍德. January 2011 (has links)
Ovarian cancer is the most lethal gynecological malignancy. Most of ovarian
cancer patients relapse and subsequently die due to the development of resistance
to chemotherapy. P73 belongs to the tumor suppressor p53 family. Like p53, the
transcriptionally active TAp73 can bind specifically to p53 responsive elements
and transactivates some of the p53 target genes, and finally leads to cell cycle
arrest and apoptosis. TAp73 can be induced by DNA damage to enhance cellular
sensitivity to anticancer agents in human cancer cells. However, the functions of
TAp73 in ovarian cancer cells and the role in the regulation of cellular response to
commonly used chemotherapeutic agents cisplatin are still poorly understood. The
aims of this study were to examine the functions of TAp73 in ovarian cancer cells
and its role in cellular response to cisplatin, as well as the relationship between
TAp73 and p53 in ovarian cancer cells.
Functional studies showed that over-expression of TAp73alpha (TAp73α)
inhibited cell proliferation, colony formation ability and anchorage-independent
growth of ovarian cancer cells, and this was irrespective of p53 expression status.
In addition, TAp73α inhibited cell growth by arresting cell cycle at G2/M phase
and up-regulating the expressions of G2/M regulators of p21, 14-3-3sigma and
GADD45α.
TAp73α enhanced the cellular sensitivity to cisplatin through the activation of
JNK signaling pathway, at least partially, in ovarian cancer cells. TAp73α
activated the JNK pathway through the up-regulation of its target gene GADD45α
and subsequent activation of MKK4, the JNK up-stream kinase. Inhibition of JNK
activity by a specific inhibitor (SP600125) or small interfering RNAs (siRNAs)
significantly abrogated TAp73-mediated apoptosis induced by cisplatin. Moreover,
the activations of MKK4, JNK and c-Jun were abolished when GADD45α was
knocked down by siRNAs, and the JNK-dependent apoptosis was not observed.
Collectively, these results supported that TAp73α was able to mediate apoptotic
response to cisplatin through the GADD45α/MKK4/JNK signaling pathway,
which was respective of p53 expression status.
Further investigation on the relationship between TAp73α and p53
demonstrated that TAp73α increased p53 protein, but not mRNA expression by
attenuating p53 protein degradation in wild-type p53 ovarian cancer cells.
TAp73α could directly interact with p53 protein, which might interfere with the
binding ability of MDM2 to p53, and consequently block the p53 protein
degradation. In addition, TAp73α inactivated the Akt and ERK pathways and
activated the p38 pathway in response to cisplatin in wild-type p53 OVCA433,
but not in null-p53 SKOV3 cells, suggesting that the effect of TAp73α on these
pathways might be p53-dependent. These results indicated that a functional
cooperation of TAp73α and p53, to some extent, existed in ovarian cancer cells.
In conclusion, this study demonstrated that TAp73α acted as a tumor
suppressor in ovarian carcinogenesis. It promoted the cellular sensitivity to
cisplatin via, at least partially, the activation of JNK signaling pathway. These
TAp73α functions were irrespective of p53 expression. In addition, TAp73α was
able to bind to p53 and increase p53 expression. / published_or_final_version / Obstetrics and Gynaecology / Doctoral / Doctor of Philosophy
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Anti-cancer ytterbium porphyrin and iron polypyridyl complexes: synthesis, cytotoxicity and bioinformaticsstudiesKwong, Wai-lun., 鄺偉倫. January 2012 (has links)
Discovery of anti-cancer cisplatin was a great success in anti-cancer chemotherapy. Numerous analogues of cisplatin such as carboplatin and oxaliplatin, were developed to improve the clinical effectiveness. Nevertheless, the clinical uses of these platinum-based drugs are limited by the occurrence of drug-resistance, narrow range of susceptible cancer types and severe toxicity. These drawbacks have stimulated the development of other metal-based compounds with distinct mechanisms of anti-cancer action. In this study, a series of ytterbium(III) porphyrin and iron(II) polypyridyl complexes were synthesized. Their anti-cancer activities were examined. With the aid of gene expression profiling and bioinformatics analysis, the mechanisms of these anti-cancer active complexes have been examined.
A series of ytterbium(III) porphyrin complexes have been prepared and structurally characterized. An ytterbium(III) octaethylporphyrin complex (1) was found to exhibit potent anti-cancer activities with cytotoxic IC50 values down to sub-micromolar range. Complex (1) was shown to exist as a dimeric hydroxyl-bridged complex [Yb2(OEP)2(μ-OH)2] (where H2OEP = octylethylporphyrin) in CH2Cl2 and in solid state, and as monomeric [Yb(OEP)(DMSO)(OH)(OH2)] in DMSO/aqueous solution. Unlike various anti-cancer lanthanide complexes which are commonly proposed to target cellular DNA, our transcriptomics data, bioinformatics connectivity map analysis and cellular experiments altogether indicate that (1) exerts its anticancer effect through apoptosis which is highly associated with endoplasmic reticulum stress pathway.
Two iron(II) polypyridyl complexes [Fe(qpy)(CH3CN)2](ClO4)2 (Fe-1a) (qpy =2,2’:6’,2”:6”,2’”:6”’,2””-quinquepyridine) and [Fe(Py5-OH)(CH3CN)](ClO4)2 (Fe-2a) (Py5-OH = 2,6-bis[hydroxybis(2-pyridyl)methyl]pyridine) were found to display selective cytotoxicity towards cancer cell lines over a normal lung fibroblast cell line. Affymetrix oligonucleotide microarray and bioinformatics analysis suggested that the anti-cancer mechanisms of Fe-1a and Fe-2a involve apoptosis, cell cycle arrest, activation of p53 and mitogen activated protein kinase (MAPK). Complex Fe-1a induced the formation of reactive oxygen species (ROS) in a concentration-dependent manner. Both iron complexes could cleave supercoiled plasmid DNA. The cellular DNA damage induced by both complexes was confirmed by comet assay and phospho-histone protein ( -H2AX) immunofluorescence assay. Cell cycle progression analysis revealed that Fe-1a induced both S- and G2/M-phase cell cycle arrests, whereas Fe-2a induced a G0/G1-phase arrest. Apoptosis induced by both complexes was confirmed by annexin-V/SYTOX green flow cytometry analysis and western blotting. Moreover, p53 and MAPK activation were found to be associated with the induced apoptosis.
By employing the cationic porphyrin ligand, 5-(p-N-methylpyridyl)triphenylporphyrin [H2(5-MePyTPP)]+, a series of cationic metalloporphyrin complexes formulated as [M(porphyrinato)]n+ (where M = PtII, RuII, CoII or AuIII, n = 1 or 2) were prepared. The cytotoxicities of these complexes were examined. The platinum(II) and ruthenium(II) complexes were relatively non-cytotoxic towards the examined cancer cell lines with IC50 >24 μM. [CoII(5-MePyTPP)]Cl displayed a more pronounced anti-cancer activity with IC50 values between 7.48 – 17.7 μM. However, this Co(II) complex displayed poor selectivity towards the cancer cell lines compared to the normal cell line. The gold(III) porphyrin complex [AuIII(5-MePyTPP)]Cl2 showed a much higher potency (IC50 =3.01 -10.7μM) than the other [M(5-MePyTPP)]n+ prepared. By means of flow cytometry and fluorescence microscopy, [AuIII(5-MePyTPP)]Cl2 was found to induce G2/M-phase cell cycle arrest and necrotic cell death in HeLa cells. / published_or_final_version / Chemistry / Doctoral / Doctor of Philosophy
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The role of interferon-gamma inducible protein 10 (IP10) in early-phase graft injury induced late-phase cisplatin resistance after livertransplantationGeng, Wei, 耿瑋 January 2012 (has links)
Background:
Hepatocellular carcinoma is one of the most fatal diseases worldwide. Liver transplantation dramatically improved the survival rate of HCC patients. However, tumor recurrence remains a huge threat to HCC patients without any promising curative treatment. Chemotherapy, as one of the potential treatments to recurrent HCC, did not show any significant effect either.
Objective:
We aim to investigate the role of interferon-gamma inducible protein 10 (IP10) in acute-phase liver graft injury induced late-phase cisplatin resistance after liver transplantation and to explore the underlying mechanism. Furthermore, a potential adjuvant therapy was expected to be identified to sensitize cisplatin treatment in HCC.
Materials and methods:
A rat orthotopic liver transplantation model was established with applying whole or small-for-size (50%) graft. Afterwards, a rat hepatoma cell (MH7777) was injected via portal vein to generate recurrent tumor. The expressions of genes linked to multi-drug resistance and graft injury were compared between tumors developed after liver transplantation using small and whole grafts. IP10 expression was further validated in clinical samples from two cohorts of patients including HCC patients with hepatectomy and HCC patients with liver transplantation. The extracellular and intracellular roles of IP10 were examined in vitro by using IP10 recombinant protein and IP10 stable transfectants in HCC cell lines. The correlation between IP10 expression and tumor growth was investigated in three in vivo nude mice models including a subcutaneous model, an orthotopic model and ischemia reperfusion injury model. The underlying mechanism was further explored in vitro, in vivo and in clinical samples. IP10 neutralizing antibody was employed as an adjuvant therapy to identify its effect on sensitizing cisplatin treatment in HCC.
Results:
The expressions of multidrug resistant genes were significantly up-regulated in liver and tumor from small-for-size group in rat liver transplantation model. IP10 was selected as the potential target for its constantly higher expression in liver and tumor tissues in small-for-size group. In clinical studies, IP10 was overexpressed in around 45% HCC patients with hepatectomy. The expression of circulating IP10 well correlated with tumor recurrence and small graft ratio in HCC patients after liver transplantation. In in vitro studies, it was demonstrated that overexpression of IP10 could significantly promote HCC cell proliferation either in short term or in long term cisplatin administration. In in vivo studies, subcutaneous and orthotopic nude mice models showed that the overexpression of IP10 have significant correlations with larger tumor volume and less tumor necrosis after cisplatin treatment. In mechanism studies, IP10 overexpression was found to be well correlated with the activation of endoplasmic reticulum (ER) stress signaling pathways in vitro and further validated in vivo models and in clinical specimens. IP10 neutralizing antibody was identified as a potential therapy which could sensitize cisplatin treatment in vitro and in vivo.
Conclusions:
The high expression of IP10 was identified in two cohorts of clinical samples and showed significant correlations with tumor recurrence. Graft injury induced IP10 overexpression could significantly increase cisplatin resistance after liver transplantation via ER stress signaling pathways. IP10 neutralizing antibody may be applied as an alternative treatment for recurrent HCC after liver transplantation. / published_or_final_version / Surgery / Doctoral / Doctor of Philosophy
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Investigation of the effects and mechanisms of action of a novel vitamin E derivative (alpha-TEA) in combination with Cisplatin, and the resulting reversal of drug resistance in a Cisplatin-resistant human ovarian cancer cell line, Cp70Anderson, Kristen Marie 23 June 2011 (has links)
Not available / text
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CISPLATIN NEPHROTOXICITY: IN VITRO STUDIES (KIDNEY, TOXICOLOGY, PLATINUM)Phelps, Jennifer Suzanne, 1960- January 1986 (has links)
No description available.
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Behandling av cisplatinresistent lungcancer : Induktionsstudie av Gb3-uttryck hos lungcancerceller / Treatment of cisplatin resistance in lung cancer.Weinz, Fanny January 2012 (has links)
No description available.
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Enhancing Cisplatin Delivery and Anti-tumor Efficacy Using HyperthermiaLandon, Chelsea Dawn January 2013 (has links)
<p>Mild hyperthermia (39°C-43°C) has numerous therapeutic benefits as an adjuvant therapy in the treatment of a variety of tumor types. Hyperthermia increases tumor blood flow and vascular permeability, promoting drug delivery and tumor oxygenation. Hyperthermia enhances the uptake and efficacy of numerous chemotherapeutic agents, including cisplatin, resulting in increased cytotoxicity. In addition to these biological responses, hyperthermia can be used as a drug-release trigger for temperature-sensitive nanoparticles, resulting in an improved and more targeted drug delivery system. Cisplatin was chosen because 1) it shows broad spectrum activity against a wide range of heatable cancers (i.e., those in sites such as the pancreas, colon and rectum, cervix and bladder, and 2) the same hyperthermic temperatures that enable temperature-sensitive lipsome-drug release also enhance cisplatin-induced cytotoxicity.</p><p>The role of hyperthermia in enhancing cisplatin delivery and cytotoxicity was investigated at both the cellular and tissue levels. While hyperthermia treatment is applicable to a variety of tumor types, the focus of this work was on bladder cancer. The synergistic effects of hyperthermia and cisplatin were investigated, along with the role of copper transport protein 1 (Ctr1) in this process. In addition, cisplatin was encapsulated within temperature-sensitive liposomes, which were used in combination with hyperthermia for targeted drug delivery. These studies demonstrated that the combination of cisplatin and hyperthermia improved drug delivery, and potentially anti-tumor efficacy, and that targeted delivery was enhanced through incorporation of temperature-sensitive liposomes. As many current methods for administering bladder hyperthermia have drawbacks, such as invasiveness and regional heating, the final aim of this study was to develop and test a less-invasive and more focused preclinical bladder heating device in a rat model. </p><p>Hyperthermia sensitizes cells to the cytotoxic effects of the commonly used chemotherapeutic agent cisplatin by increasing drug accumulation and subsequent platinum-DNA adduct formation. However, the molecular mechanisms underlying this enhancement remain unclear. Understanding the fundamental mechanisms involved in the synergistic interaction is necessary to increase the therapeutic benefits of this combination in the clinic. The synergism between the anti-cancer benefits of cisplatin and the drug delivery benefits of hyperthermia may offer a novel and more effective treatment for many cancer patients. We hypothesized that hyperthermia increases cisplatin accumulation and efficacy in part by modulating the function of Ctr1, a major regulator of cellular cisplatin uptake. To test this hypothesis, we examined the significance of Ctr1 during combined hyperthermia and cisplatin therapies and assessed the importance of cisplatin- and hyperthermia-induced Ctr1 multimerization in enhancing cisplatin cytotoxicity. We observed increased Ctr1 multimerization following hyperthermia treatment (41°C) in vitro, compared to normothermic controls (37°C), suggesting that this may be a mechanism for increased cisplatin uptake in heat-treated cells. The impact of increased Ctr1 multimerization was evaluated by measuring platinum accumulation in wild-type (WT) and Ctr1-/- cells. WT cells contained greater levels of platinum compared to Ctr1-/- cells. A further increase in platinum was observed following hyperthermia treatment, but only in the WT cells. Hyperthermia enhanced cisplatin-mediated cytotoxicity in WT cells with a dose-modifying factor (DMF) of 1.8 compared to 1.4 in Ctr1-/- cells. Our data suggest that heat increases Ctr1 activity by increasing multimerization, resulting in enhanced drug accumulation. Although we recognize that the effect of heat on cells is multi-factorial, our results support the hypothesis that Ctr1 is, in part, involved in the synergistic interaction observed with cisplatin and hyperthermia treatment. </p><p>In addition to assessing cisplatin delivery at the cellular level, we evaluated cisplatin delivery at the tissue level, using novel cisplatin-loaded temperature-sensitive liposomes. We hypothesized that delivering cisplatin encapsulated in liposomes under hyperthermic conditions would improve the pharmacokinetic profiles of cisplatin, increase drug delivery to the tumor, decrease normal tissue toxicity, and enhance the anti-tumor activity of cisplatin. We successfully prepared temperature-sensitive liposomes loaded with cisplatin and demonstrated that heat (42°C) sensitizes cisplatin-resistant cells to the cytotoxic effects of cisplatin in vitro. </p><p>Decreased toxicity was observed in animals treated with the cisplatin liposome (± heat) compared to the free drug treatments. A pharmacokinetic study of cisplatin-loaded temperature-sensitive liposomes and free drug was performed in tumor-bearing mice under normothermic and hyperthermic conditions. Cisplatin half-life in plasma was increased following liposome treatment compared to free cisplatin, and cisplatin delivery to the tumors was greatest in mice that received liposomal cisplatin under hyperthermia. These initial in vivo data demonstrate the potential effectiveness of this cisplatin-loaded liposome formulation in the treatment of certain types of cancer. To assess the anti-cancer efficacy of the liposome treatment, a tumor growth delay study was conducted and demonstrated equivalent efficacy for the cisplatin-loaded temperature-sensitive liposome compared to free drug. </p><p>In addition to the liposome work, we developed and evaluated a novel heating device for the bladder. Despite the evidence that hyperthermia is an effective adjuvant treatment strategy, current clinical heating devices are inadequate, warranting the development of a new and improved system. We induced hyperthermia using ferromagnetic nanoparticles and an alternating magnetic field device developed by Actium Biosystems. Initial preclinical studies in a rat model demonstrated preferential bladder heating. However, our preliminary studies show severe toxicity with the direct instillation of the nanoparticles in the bladder, and further studies are needed to potentially modify the nanoparticle coating, the catheterization procedure, as well as to develop a different animal model.</p> / Dissertation
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Ototoxicity in patients receiving concurrent cisplatin and cranial irradiation therapy for the treatment of head and neck cancers: an audiometric follow-upAlchin, Katrine Felice January 2010 (has links)
Cisplatin is a potent chemotherapeutic agent that is commonly used to treat a wide variety of tumours. Although highly effective, its administration is complicated by its ototoxic effect, a well known side effect that occurs in a significant number of patients. The hearing loss observed is typically irreversible, progressive, bilateral, high-frequency sensorineural hearing loss associated with tinnitus. At present there is no approved method for protecting or remedying against deterioration of hearing status, therefore, the detection and appropriate management of cisplatin-induced ototoxicity is reliant on effective audiological monitoring. The present study aimed to investigate the prevalence of ototoxicity in head and neck oncology patients who received cisplatin in combination with cranial irradiation. In addition, the study also aimed to examine the current state of audiological monitoring for this population at Christchurch Hospital.
Post-treatment diagnostic audiological assessments were performed for 23 participants. The post-treatment assessment battery included case history, standard pure-tone audiometry (0.25 – 8 kHz), extended high-frequency audiometry (9 – 16 kHz), speech audiometry, tympanometry, acoustic reflexes and distortion product otoacoustic emissions. Prior to the assessments, a search of the Christchurch Audiology and Ear, Nose and Throat (ENT) Department oncology audiogram files was undertaken to match any previous audiograms to participating individuals.
The results showed that pre-treatment assessment had been performed for 16 of the 23 participants. Of those 16, 15 participants experienced a significant cochleotoxic change in their hearing thresholds according to the ASHA criteria. One participant only received one dose of cisplatin due to deteriorating hearing, while one other participant elected to stop cisplatin treatment after the first dose due to a significant increase in tinnitus severity.
Ototoxicity resulting from cisplatin chemotherapy constitutes a significant clinical problem that may have serious vocational, educational, and social consequences. Findings from this study highlight the importance of effective audiological monitoring for the timely detection and appropriate management of cisplatin-induced ototoxicity.
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The Role of Activating Transcription Factor 3 (ATF3) in Chemotherapeutic Induced CytotoxicitySt. Germain, Carly 17 May 2011 (has links)
Understanding the specific mechanisms regulating chemotherapeutic drug anti-cancer activities will uncover novel strategies to enhance the efficacy of these drugs in clinical settings.
Activating Transcription Factor 3 (ATF3) is a stress inducible gene whose expression has been associated with survival outcomes in cancer models. This study characterizes the chemotherapeutic drugs, cisplatin and Histone Deacetylase Inhibitor (HDACi), M344 as novel inducers of ATF3 expression. Cisplatin is a DNA damaging agent widely used in various tumour types including lung, head and neck, and ovarian carcinomas. The HDAC inhibitor, SAHA, has recently been approved as a single agent in the treatment of subcutaneous T-cell lymphoma and HDACis themselves show potential for synergistic anti-cancer effects when used in combination with established chemotherapeutic drugs, including cisplatin. This study evaluates the mechanisms by which cisplatin and HDACi induce ATF3, as well as the role ATF3 plays as a mediator of cisplatin-induced cytotoxicity and the enhanced cytotoxicity between HDACi and cisplatin in combination.
In this study, we demonstrate that cytotoxic doses of cisplatin and carboplatin consistently induced ATF3 expression in a panel of human tumour derived cell lines. Characterization of this induction revealed a p53, BRCA1, and integrated stress response (ISR) independent mechanism, all previously implicated in stress mediated ATF3 induction. Analysis of MAPKinase pathway involvement in ATF3 induction by cisplatin revealed a MAPKinase dependent mechanism. Cisplatin treatment, in combination with specific inhibitors to each MAPKinase pathway (JNK, ERK and p38) resulted in decreased ATF3 induction at the protein level. MAPKinase pathway inhibition led to decreased ATF3 mRNA expression and a reduction in the cytotoxic effects of cisplatin as measured by MTT cell viability assay. In A549 lung carcinoma cells, targeting ATF3 with specific shRNAs also attenuated the cytotoxic effects of cisplatin. Similarly, ATF3 -/- MEFs were shown to be less sensitive to cisplatin induced cytotoxicity as compared with ATF3+/+ MEFs. Taken together, we identified cisplatin as a MAPKinase pathway dependent inducer of ATF3 whose expression regulates in part cisplatin’s cytotoxic effects.
Furthermore, we demonstrated that the HDAC inhibitor M344 was also an inducer of ATF3 expression at the protein and mRNA level in the same human derived cancer cell lines. Combination treatment with M344 and cisplatin lead to increased induction of ATF3 compared with cisplatin alone. Utilizing the MTT cell viability assay, M344 treatment was also shown to enhance the cytotoxic effects of cisplatin in these cancer cell lines. Unlike cisplatin, the mechanism of ATF3 induction by M344 was found to be independent of MAPKinase pathways. Utilizing ATF4 heterozygote (+/-) and knock out (-/-) mouse embryonic fibroblast (MEF) M334 induction of ATF3 was shown to depend on the presence of ATF4, a known regulator of ATF3 expression as part of the ISR pathway. HDACi treatment did not affect the level of histone acetylation associated with the ATF3 promoter as determined through Chromatin immunoprecipitation (ChIP) analysis, suggesting that ATF3 induction was not a direct effect of HDACi mediated histone acetylation. We also demonstrated that ATF3 regulates the enhanced cytotoxicity of M344 in combination with cisplatin as evidenced by attenuation of cytotoxicity in shRNAs targeting ATF3 expressing cells. This study identifies the pro-apoptotic factor, ATF3 as a novel target of M344, as well as a mediator of the co-operative effects of cisplatin and M344 induced tumour cell cytotoxicity.
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