Global ETD Search

11	Análise da expressão da proteína pAKT em cultura de células de carcinomas epidermoides de cabeça e pescoço tratadas com curcumina e celecoxib / Expression analysis of pAKT in cultured cells of head and neck squamous cell carcinomas treated with curcumin and celecoxib Stephanie Kenig Viveiros 18 March 2016 (has links) Diversas alterações genéticas estão associadas à patogênese do carcinoma epidermoide (CE), a neoplasia maligna mais comum de cabeça e pescoço. Algumas dessas alterações comprometem proteínas pertencentes à via de sinalização do AKT, envolvida em diferentes fenômenos celulares. Este projeto teve como objetivo estudar a expressão da proteína pAKT em linhagens celulares de carcinomas epidermoides de cabeça e pescoço, de forma a verificar possíveis alterações na expressão dessas moléculas em células de CE tratadas com Curcumina e Celecoxib. Foram utilizadas duas linhagens celulares de CE de cabeça e pescoço e uma linhagem de queratinócitos que foram divididas em quatro grupos: a. grupo controle não tratado; b. células tratadas com Curcumina, c. células tratadas com Celecoxib d. células tratadas com Curcumina e Celecoxib. A proliferação celular foi monitorada através do teste de viabilidade celular. A análise da expressão da proteína foi realizada através da técnica do Western Blot. Desta forma, foi possível entender em maior profundidade a ação do Celecoxib, da Curcumina e sua associação na via do AKT em carcinomas epidermoides de cabeça e pescoço. A associação de Curcumina com Celecoxib foi o tratamento que apresentou melhores resultados na redução da viabilidade celular. A linhagem SCC9 não apresentou expressão de pAKT após o tratamento com Curcumina e com a associação desta com o Celecoxib. A linhagem HaCat apresentou maior estabilidade na expressão de pAKT nos dois tempos de tratamento no grupo tratado com a associação das substâncias. A combinaçãoo da Curcumina com o Celecoxib mostrou resultados satisfatórios e promissores. / Several genetic changes are associated with the squamous cell carcinoma\'s (SCC) pathogenesis, the most common malignant head and neck tumor. Some of these changes compromise proteins that belong to the AKT signaling pathway, involved in different cellular\'s phenomena. The aim of this project was to study the expression of pAKT in head and neck SCC cell lines in order to investigate possible alterations in these molecules\'s expression in cells treated with Curcumin and Celecoxib. Two head and neck SCC cell lines and a line of keratinocytes was divided into four groups: a. control group: untreated; b. cells treated with Curcumin, c. cells treated with Celecoxib d. cells treated with Curcumin and Celecoxib. Cell proliferation was monitored by cell viability test. Analysis of the protein\'s expression was performed using the Western blot technique. Then was possible to understand the action of Curcumin, Celecoxib and its association in the AKT pathway in head and neck SCC. Curcumin\'s association with Celecoxib was the treatment that showed best results in cell viability reduction. The SCC9 cell line not presented pAKT expression after the treatment with Curcumin and its association with Celecoxib. The cell line HaCat showed greater stability in pAkt expression during the treatment period with the association of substances. The association of Curcumin and Celecoxib showed satisfactory and promising results. Carcinoma Epidermoide Celecoxib Curcumina Western blotting Celecoxib Curcumin Squamous cell carcinoma Western blotting
12	Celecoxib enhances sorafenib/sildenafil lethality in cancer cells and reverts platinum chemotherapy resistance Webb, Timothy A 01 January 2016 (has links) The present studies sought to determine whether the lethality of the drug combination [sorafenib + sildenafil] could be enhanced by the anti-inflammatory agent celecoxib, using ovarian cancer and other tumor cell lines as models. Also, in a dose dependent fashion celecoxib enhanced [sorafenib + sildenafil] lethality in multiple ovarian cancer cell lines. In a dose dependent fashion celecoxib enhanced the ability of [sorafenib + sildenafil] to reduce expression of multiple chaperone proteins in parallel with lower levels of the drug efflux pumps ABCB1 and ABCG2. Over-expression of GRP78 and HSP27 maintained pump expression in the presence of drugs. Cell killing by the 3 drug combination was mediated by mitochondrial / caspase 9 -dependent apoptotic signaling and by RIP-1 / caspases 2 and 4 / AIF -dependent necroptotic signaling. Pre-treatment of intrinsically resistant primary ovarian cancer cells with [celecoxib + sorafenib + sildenafil] significantly enhanced tumor cell killing by a subsequent cisplatin exposure. Similar data were obtained in some cancer cell lines, but not all, using the related platinum containing drugs, oxaliplatin and carboplatin. As our prior publications have also validated in vivo the combinations of [celecoxib + sildenafil] and [sorafenib + sildenafil] as cytotoxic to multiple tumor cell types, combined with the present findings, we would argue that the combination of celecoxib/sorafenib/sildenafil should be explored in a new phase I trial in ovarian cancer. sorafenib sildenafil platinum celecoxib ovarian cancer combinational therapy Biochemistry
13	Establishment of an Orthotopic Hepatoma Model in Rats by Sono-guided Implantation for Preclinical Drugs Screening Chan, Hoi-hung 21 December 2010 (has links) Hepatocellular carcinoma (HCC) is one of the most prevalent cancers in the world and Taiwan. The major factors involved in the molecular pathogenesis for the development of HCC had been explored in recent years. An extensive array of growth factors and their receptors had been identified and may act as positive and negative modulators in different stages of hepatocarcinogenesis. Current therapeutic approaches for HCC include surgical resection (include liver transplantation), trans-arterial embolization (TAE), alcohol injection, etc. However, the effect is limited due to most of the HCC patients present with advanced stages of the disease. Therefore, this underscores the need for the development of novel therapeutic strategies. It is pivotal to set up an orthotopic hepatoma model for the development of novel intervention strategies for HCC. Under the guidance of ultrasound, we are able to create hepatoma in the liver lobe of Sprague-Dawley (SD) rats by injection of Novikoff (N1-S1) hepatoma cells. In addition, sonographic technique was employed for the monitoring of tumor growth in this animal model in the following subprojects. The continuous, non-invasive measurement of orthotopic hepatoma development will be a valuable tool for the evaluation of effects of drugs for treatment of HCC. In Chapter 1, the study employed a relatively non-invasive approach to establish an orthotopic HCC model in immune-competent rats. This was done by ultrasound-guided implantation of cancer cells and the model was used to evaluate the therapeutic efficacy of short-term and low-dose epirubicin chemotherapy. Ultrasound-guided implantation of Novikoff hepatoma cells led to the formation of orthotopic HCC in 60.4% of the SD rats. Moreover, tumor sizes measured by ultrasound significantly correlated with those measured by calipers after sacrificing the animals (P < 0.00001). The rate of tumor induction by ultrasound-guided implantation was comparable to that of laparotomy (55/91, 60.4% vs. 39/52, 75%) and no significant difference in sizes of tumor was noted between the two groups. Moreover, there was a significant correlation in tumor size measurement by ultrasound and computerized tomography. In tumor-bearing rats, short-term and low-dose epirubicin chemotherapy caused a significant reduction in tumor growth, and was found to be associated with enhanced apoptosis and attenuated proliferation as well as a decrease in microvessel density in tumors. In chapter 2, we investigated the chemopreventive effects of celecoxib in the growth of orthotopic rat HCC and the possible signal pathways involved. The status of COX-2 expression in rat Novikoff HCC was consistent with that in human HCC. Both Western blot and PCR tests had proved that N1-S1 was a HCC model presenting with low COX-2 enzymes in tumor cells. Then, low doses of celecoxib was shown to effectively inhibited the proliferation and increased the apoptosis of N1-S1 cells in vitro, which were also safe to the normal hepatocytes. Moreover, chemoprevention by celecoxib inhibiting the HCC tumor growth was shown in rat orthotropic HCC model. Tumor incidence was not affected by the celecoxib prevention, but, tumor weight was found significantly suppressed by the drug. Possible mechanisms of chemoprevention by celecoxib seen in the animal model were thought to be related to the anti-angiogenic, anti-proliferative and anti-hCSC characters of the drug. In chapter 3, we tried to test the combined inhibitory effects of low doses of celecoxib and epirubicin on the growth of HCC. Combined low doses of epirubicin and celecoxib was effective in inhibiting the hepatic cancer stem cells, tumor angiogenesis, tumor cell proliferation, as well as promoting cancer apoptosis. These are compatible with the effects of the individual drugs on HCC growth shown in the previous two chapters. In general, combination therapy expressed more effectiveness in tumor suppression and less bone marrow suppression than the individual drugs used alone. Taken together, ultrasound-guided implantation of Novikoff hepatoma cells is an effective means of establishing orthotopic HCC in SD rats, which is suitable and convenient for therapeutic trial of anti-HCC treatment. In the current study, we had proved the efficacies of low doses of two drugs, epirubicin and celecoxib, acting individually, as well as the combined effects of them in treating HCC in this model. Orthotopic hepatocellular carcinoma epirubicin ultrasound celecoxib COX-2
14	Interaction Of The Non Steroidal Anti-inflammatory Drug Celecoxib With Pure And Cholesterol-containing Model Membranes Sade, Asli 01 July 2009 (has links) (PDF) The interactions of the non steroidal anti-inflammatory drug celecoxib with pure and cholesterol containing distearoyl phosphatidylcholine multilamellar vesicles were studied using Fourier transform infrared spectroscopy, differential scanning calorimetry and turbidity technique at 440 nm. The results reveal that celecoxib exerts opposing effects on membrane order in a concentration dependent manner while cholesterol disorders and orders the membrane in the gel and liquid crystalline phase, respectively. Ternary mixtures of DSPC/Cholesterol/celecoxib behave similar to cholesterol with a small effect of celecoxib. While celecoxib decreases fluidity of the DSPC membranes, cholesterol shows an opposite effect, and in ternary mixtures, a dominant effect of cholesterol is observed. Celecoxib induces opposite effects on the hydration status of the carbonyl groups in the binary system whereas / cholesterol induces hydrogen bonding around this group. An evidence of phase separation has also been observed for all three systems (DSPC/celecoxib, DSPC/Chol, and DSPC/Chol/celecoxib). In addition, a possible location of celecoxib in the interfacial region of the membrane has been proposed. Finally, penetration of celecoxib into the hydrophobic core of the ternary system at high cholesterol concentrations and formation of a new phase has also been suggested. Thus, depending on the concentration used, celecoxib induces significant changes in the biophysical properties of membranes that may aid in understanding its mechanism of action. Furthermore, highly complex interactions take place in ternary membrane systems and further investigations are needed to explore them in detail. QH General Biology 301-705 celecoxib, DSC, DSPC, FTIR, MLV
15	Role of p38 and STAT5 Kinase Pathways in the Regulation of Survival of Motor Neuron Gene Expression for Development of Novel Spinal Muscular Atrophy Therapeutics Farooq, Faraz T 17 July 2012 (has links) Spinal muscle atrophy (SMA) is an autosomal recessive neurodegenerative disease which is characterized by the loss of α motor neurons from the anterior horn of the spinal cord, resulting in progressive muscle atrophy. The loss of functional Survival motor neuron (SMN) protein due to mutations or deletion in the SMN1 gene is the cause of SMA. A potential treatment strategy for SMA is to upregulate levels of the SMN protein originating from the copy gene SMN2 which can compensate in part for the absence of the functional SMN1 gene. I have shown a novel therapeutic strategy for SMA treatment through the activation of the p38 pathway by the bacterial antibiotic anisomycin which stabilizes and increases SMN mRNA levels in vitro. Activation of the p38 pathway by anisomycin leads to cytoplasmic accumulation of HuR protein which binds to the 3’UTR of SMN transcript resulting in increased SMN levels. This opens up a novel potential therapeutic strategy for SMA. I have also identified and demonstrated a significant induction of SMN protein levels in vitro and in vivo upon treatment with FDA approved drug celecoxib, which also activates the p38 pathway. Celecoxib mitigates disease severity along with increasing the lifespan of SMA mice. Sodium valproate, trichostatin A and aclarubicin, all agents which effectively enhance SMN2 expression, have been recently shown to activate STAT5 in SMA-like mouse embryonic fibroblasts and human SMN2-transfected NSC34 cells. Given that prolactin is also known to activate the STAT5 signalling pathway, can cross blood brain barrier and is FDA approved, we elected to assess its impact on SMN levels. In this manner, I have demonstrated a significant induction in SMN mRNA and protein levels in neuronal NT2 and MN-1 cells upon treatment with prolactin. I have also demonstrated that activation of the STAT5 pathway by prolactin is necessary for this transcriptional upregulation of the SMN gene. I have found that prolactin treatment induces SMN expression in brain and spinal cord samples and that it ameliorates the disease phenotype, improving motor neuron function and increasing survival in the SMA mouse model. Presently there is no cure for SMA. This study will help in the identification and characterization of potential therapeutic compounds for the treatment of SMA. Anisomycin Celecoxib Novel therapeutics p38 MAPK Prolactin SMA SMN
16	UVB-induced inflammation and carcinogenesis in immunosuppressed mice Hatton, Jennifer Leigh, January 2005 (has links) Thesis (Ph. D.)--Ohio State University, 2005. / Title from first page of PDF file. Document formatted into pages; contains xix, 189 p. ; also includes graphics. Includes bibliographical references (p. 175-189). Available online via OhioLINK's ETD Center.
17	Celecoxib its non-COX-2 targets and its anti-cancer effects / Lin, Ho-Pi. January 2005 (has links) Thesis (Ph. D.)--Ohio State University, 2005. / Title from first page of PDF file. Document formatted into pages; contains xix, 94 p.; also includes graphics (some col.). Includes bibliographical references (p. 87-94). Available online via OhioLINK's ETD Center
18	Role of p38 and STAT5 Kinase Pathways in the Regulation of Survival of Motor Neuron Gene Expression for Development of Novel Spinal Muscular Atrophy Therapeutics Farooq, Faraz T January 2012 (has links) Spinal muscle atrophy (SMA) is an autosomal recessive neurodegenerative disease which is characterized by the loss of α motor neurons from the anterior horn of the spinal cord, resulting in progressive muscle atrophy. The loss of functional Survival motor neuron (SMN) protein due to mutations or deletion in the SMN1 gene is the cause of SMA. A potential treatment strategy for SMA is to upregulate levels of the SMN protein originating from the copy gene SMN2 which can compensate in part for the absence of the functional SMN1 gene. I have shown a novel therapeutic strategy for SMA treatment through the activation of the p38 pathway by the bacterial antibiotic anisomycin which stabilizes and increases SMN mRNA levels in vitro. Activation of the p38 pathway by anisomycin leads to cytoplasmic accumulation of HuR protein which binds to the 3’UTR of SMN transcript resulting in increased SMN levels. This opens up a novel potential therapeutic strategy for SMA. I have also identified and demonstrated a significant induction of SMN protein levels in vitro and in vivo upon treatment with FDA approved drug celecoxib, which also activates the p38 pathway. Celecoxib mitigates disease severity along with increasing the lifespan of SMA mice. Sodium valproate, trichostatin A and aclarubicin, all agents which effectively enhance SMN2 expression, have been recently shown to activate STAT5 in SMA-like mouse embryonic fibroblasts and human SMN2-transfected NSC34 cells. Given that prolactin is also known to activate the STAT5 signalling pathway, can cross blood brain barrier and is FDA approved, we elected to assess its impact on SMN levels. In this manner, I have demonstrated a significant induction in SMN mRNA and protein levels in neuronal NT2 and MN-1 cells upon treatment with prolactin. I have also demonstrated that activation of the STAT5 pathway by prolactin is necessary for this transcriptional upregulation of the SMN gene. I have found that prolactin treatment induces SMN expression in brain and spinal cord samples and that it ameliorates the disease phenotype, improving motor neuron function and increasing survival in the SMA mouse model. Presently there is no cure for SMA. This study will help in the identification and characterization of potential therapeutic compounds for the treatment of SMA. Anisomycin Celecoxib Novel therapeutics p38 MAPK Prolactin SMA SMN
19	Celecoxib or Diclofenac Hepatic Status in the Presence or Absence of Rebamipide Murrell, D. E., Rahmasari, Y., Denham, J. W., Panus, P. C., Harirforoosh, S. 01 January 2015 (has links) OBJECTIVE: Utilization of nonsteroidal anti-inflammatory drugs (NSAIDs), such as diclofenac, can produce gastrointestinal ulceration. Thus, cyclooxygenase-2-selective inhibitors, such as celecoxib, and protective agents (e.g. rebamipide) have been employed to alleviate harmful NSAID effects. This study sought to explore the influence of rebamipide on the hepatic outcomes following administration of two commonly prescribed NSAIDs. MATERIALS AND METHODS: Rats were given either vehicle or rebamipide (30 mg/kg) orally twice daily for two days, then on the third day respective groups were dosed with either vehicle, celecoxib (40 mg/kg), or diclofenac (10 mg/kg) in addition to a respective dose of vehicle or rebamipide. Livers were collected on day 4 following euthanasia. Hepatic tissue was examined via histopathology and assayed for oxidative stress and specific NSAID concentration. RESULTS: The liver sections were found to be free from structural changes. Oxidative stress biomarkers, reduced glutathione and malondialdehyde, were discovered to be unaltered among the groups tested. The hepatic NSAID concentrations were not significantly affected by the presence of rebamipide. CONCLUSIONS: The concomitant administration of rebamipide does not influence the hepatic condition of rats administered either celecoxib or diclofenac at the dosages and over the time course examined. celecoxib yclooxygenase diclofenac liver NSAIDs rebamipide. Pharmaceutical Sciences
20	Assessment of Celecoxib Poly(Lactic-co-Glycolic) Acid Nanoformulation on Drug Pharmacodynamics and Pharmacokinetics in Rats Harirforoosh, S., West, K. O., Murrell, D. E., Denham, James W., Panus, Peter C., Hanley, G. A. 01 November 2016 (has links) Objective: Celecoxib (CEL) is a nonsteroidal anti-inflammatory drug (NSAID) showing selective cycloxygenase-2 inhibition. While effective as a pain reducer, CEL exerts some negative influence on renal and gastrointestinal parameters. This study examined CEL pharmacodynamics and pharmacokinetics following drug reformulation as a poly(lactic-co-glycolic) acid nanoparticle (NP). Materials and Methods: Rats were administered either vehicle (VEH) (methylcellulose solution), blank NP, 40 mg/kg CEL in methylcellulose, or an equivalent NP dose (CEL-NP). Plasma and urine (over 12 hrs) samples were collected prior to and post-treatment. The mean percent change from baseline of urine flow rate along with electrolyte concentrations in plasma and urine were assessed based on 100 g body weight. Using tissues collected 24 hrs post-treatment, gastrointestinal inflammation was estimated through duodenal and gastric prostaglandin E2 (PGE2) and duodenal myeloperoxidase (MPO) levels; while kidney tissue was examined for dilatation and necrosis. CEL concentration was assayed in renal tissue and plasma utilizing high-performance liquid chromatography. Results: Although there were significant changes when comparing CEL and CEL-NP to VEH in plasma sodium concentration and potassium excretion rate, there was no significant variation between CEL and CEL-NP. There was a significant reduction of protective duodenal PGE2 in CEL compared to VEH (p = 0.0088) and CEL-NP (p = 0 .02). In the C EL-NP formulation, t1/2, Cmax, AUC0-∞, and Vd/F increased significantly when compared to CEL. Conclusions: At the observed dosage and duration, CEL-NP may not affect CEL-associated electrolyte parameters in either plasma or urine; however, it does provide increased systemic exposure while potentially alleviating some gastrointestinal outcomes related to inflammation. celecoxib histopathology kidney nanoparticles NSAIDs pharmacokinetics Pharmaceutical Sciences Biomedical Sciences

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