Estudios de factores que condicionan la sensibilidad del tratamiento con TK/GCV. Diseño de estrategias combinadas para potenciar la citotoxicidad de TK/GCV: Silenciamiento de genes antiapópticos y virus oncolíticos armados con TK

Abate-Daga, Daniel

17 April 2009

El sistema TK/GCV es, problamente, la estrategia suicida mejor caracterizada hasta el momento. No obstante, se desconocen muchos aspectos relacionados con su mecanismo de acción. Con el objetivo de indentificar condicionantes de la respuesta TK/GCV, realizamos un estudio comparativo de la expresión de genes y de las vías de señalización que se activan en células sensibles y en células resistentes al tratamiento. Así, pudimos asociar la actividad de la quinasa Chk1, y la expresión de genes involucrados en el control del ciclo celular, con una mayor respuesta al sistema suicida. Así mismo, determinamos que la combinación de TK/GCV con el inhibidor de Chk1 UCN-01 produce un efecto antagónico en las células sensibles a TK/GCV. Por otro lado, la terapia combinada capaz de lisar las células e inducir muerte celular por fosforilación de GCV, en un único agente (ICOVIR11), resultó en una potenciación de sus efectos citotóxicos, permitiendo la compensación de la pérdida de potencia secundaria al uso de un promotor selectivo de tumor. Más aún, la expresión de TK como gen tardío de ICOVIR11,permitió la monitorización in vivo y de manera no invasiva, de la actividad TK y la replicación viral. / Although extensively characterized, the paradigmatic suicide system TK/GCV conceals the details of its ultimate mechanism of action. In order to shed some light on this issue, we conducted a series of experiments with resistant and sensitive cell lines, allowing us to identify cell cyclerelated genes that are deregulated in cells with induced resistance to TK/GCV. In addition, the association of Chk1 activation with a greater sensitivity to TK/GCV, pointed out the relevance of the cell cycle status at the moment of receiving the treatment, and its control in response to genotoxic insults. Treatment with a Chk1 inhibitor induced, in sensitive cells, an antagonistic effect on TK/GCV cytotoxicity. On the other hand, single-agent combination therapy of TK/GCV with adenoviral lysis resulted in enhanced cytotoxicity. In this setting the expression of TK as a late gene in an oncolytic adenovirus minimized the loss of potency associated to the conditioning of viral replication. On top of that, TK expression allowed for in vivo, real time, non-invasive monitoring of viral replication in mice, and was used to analyze the effects of treatment schedule on treatment outcome.

Chk1 kinase

DNA damage response

cell cycle

chemoresistance

suicide gene therapy

TK/GCV system

viral replication

armed oncolytic virus

virotherapy

pancreatic cancer

gene therapy

quinasa Chk1

respuesta de daño a ADN

ciclo celular

resistencia a quimioterapia

terapia génica suicida

sistema TK/GCV

replicación viral

virus oncolíticos armados

viroterapia

cáncer de páncreas

terapia génica

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Preclinical evaluation of immunostimulatory gene therapy for pancreatic cancer

Eriksson, Emma

January 2017

Pancreatic cancer is characterized by its desmoplastic tumor microenvironment and the infiltration of immunosuppressive cells. It is a devastating disease where most patients are diagnosed at a late stage and the treatment options are few. The development of new treatments is surly needed. One treatment option explored is the use of immunotherapy with the intent to activate the immune system and change the balance from pro-tumor to anti-tumor. This thesis presents the idea of using oncolytic adenoviruses called LOAd-viruses that are armed with immunostimulatory- and microenvironment-modulating transgenes. For effective treatment of pancreatic cancer, the virus needs to be able to be given in addition to standard therapy, the chemotherapy gemcitabine. In paper I, the immunomodulatory effect of gemcitabine was evaluated in blood from pancreatic cancer patients receiving their first 28-day cycle of treatment with infusions day 1, 8 and 15 followed by a resting period. Gemcitabine reduced the level of immunosup-pressive cells and molecules but the effect did not last throughout the resting period. On the other hand, gemcitabine did not affect the level or proliferative function of effector T cells indicating that gemcitabine could be combined with immunotherapy. The LOAd700 virus expresses a novel membrane-bound trimerized form of CD40L (TMZ-CD40L). In paper II, LOAd700 showed to be oncolytic in pancreatic cancer cell lines as well as being immunostimulatory as shown by its capacity to activate dendritic cells (DCs), myeloid cells, endothelium, and to promote expansion of antigen-specific T cells. In paper III, LOAd703 armed with both 4-1BBL and TMZ-CD40L was evaluated. LOAd703 gave a more profound effect than LOAd700 on activation of DCs and the virus was also capable of reducing factors in stellate cells connected to the desmo-plastic and immunosuppressive microenvironment. In paper IV, LOAd713 armed with TMZ-CD40L in combination with a single-chain variable fragment against IL-6R was evaluated. The virus could kill pancreatic cancer cells lines through oncolysis and could also reduce factors involved in desmoplasia in stellate cells. Most interestingly, LOAd713 could reduce the up-regulation of PD-1/PD-L1 in DCs after CD40 activation. Taken together, LOAd703 and LOAd713 seem to have interesting features with their combination of immunostimulation and microenvironment modulation. At present, LOAd703 is evaluated in a clinical trial for pancreatic cancer (NCT02705196).

Pancreatic cancer

immunotherapy

oncolytic viruses

adenoviruses

CD40L

4-1BBL

IL-6

tumor microenvironment

Cancer and Oncology

Cancer och onkologi

Immunology in the medical area

Immunologi inom det medicinska området

Precursor Lesions for Sporadic Pancreatic Cancer: PanIN, IPMN, and MCN

Distler, Marius, Aust, Daniela E., Weitz, Jürgen, Pilarsky, Christian, Grützmann, Robert

11 July 2014

Pancreatic cancer is still a dismal disease. The high mortality rate is mainly caused by the lack of highly sensitive and specific diagnostic tools, and most of the patients are diagnosed in an advanced and incurable stage. Knowledge about precursor lesions for pancreatic cancer has grown significantly over the last decade, and nowadays we know that mainly three lesions (PanIN, and IPMN, MCN) are responsible for the development of pancreatic cancer. The early detection of these lesions is still challenging but provides the chance to cure patients before they might get an invasive pancreatic carcinoma. This paper focuses on PanIN, IPMN, and MCN lesions and reviews the current level of knowledge and clinical measures.

info:eu-repo/classification/ddc/610

ddc:610

info:eu-repo/classification/ddc/570

ddc:570

Inhibiting protein clearance to induce cell death in tuberous sclerosis and pancreatic cancer

Hendricks, Jeremiah William

January 2014

Indiana University-Purdue University Indianapolis (IUPUI) / Sequestration at the aggresome and degradation through autophagy are two approaches by which a cell can counteract the toxic effect of misfolded proteins. Tuberous sclerosis (TS) and cancer cells can become dependent on autophagy for survival due to the high demand for protein synthesis, thus making protein clearance a potential therapeutic target. Because of its histone deacetylase (HDAC) inhibitory activity, we hypothesized that 4-phenylbutyrate (4-PBA) inhibits HDAC6 and aggresome formation to induce TS cell death. We found that 4-PBA treatment increases cell death and reduces bortezomib-induced aggresome formation. To link these results with HDAC inhibition we used two other HDAC inhibitors, trichostatin A (TSA) and tubastatin, and found that they also reduce bortezomib-induced protein aggregation. Because tubulin is a target of HDAC6, we next measured the effect of the HDAC inhibitors and 4-PBA treatment on tubulin acetylation. As expected, tubastatin increased tubulin acetylation but surprisingly TSA and 4-PBA did not. Because 4-PBA did not significantly inhibit HDAC6, we next hypothesized that 4-PBA was alternatively inducing autophagy and increasing aggresome clearance. Surprisingly, autophagy inhibition did not prevent the 4-PBA-induced reduction in protein aggregation. In conclusion, we found 4-PBA to induce cell death and reduce aggresome levels in TS cells, but we found no link between these phenomena. We next hypothesized that loss of the Ral guanine nucleotide exchange factor Rgl2 induces cell death via autophagy inhibition in pancreatic adenocarcinoma (PDAC) cells. KRas is mutationally activated in over 90% of PDACs and directly activates Rgl2. Rgl2 activates RalB, a known regulator of autophagy, and Rgl2 has been shown to promote PDAC cell survival. We first confirmed that loss of Rgl2 does increase cell death in PDAC cells. Initial experiments using doubly tagged fluorescent p62 and LC3 (autophagy markers) suggested that loss of Rgl2 inhibited autophagosome accumulation, but after developing a more sophisticated quantitation method we found loss of Rgl2 to have no effect. We also measured endogenous LC3 levels, and these experiments confirmed loss of Rgl2 to have no effect on autophagy levels. Therefore, loss of Rgl2 increases cell death in PDAC cells, but does not have a significant effect on autophagy.

Pancreas -- Cancer -- Research

Cancer -- Molecular aspects

Proteins-- Biodegradation

Tuberous sclerosis -- Research

Proteins -- Pathophysiology

Cell death -- Research -- Methodology

Histone deacetylase -- Research

Proteins -- Synthesis

Genetic regulation

Cell aggregation

Acetylation -- Research

Molecular mechanism of orlistat hydrolysis by the thioesterase of human fatty acid synthase for targeted drug discovery

Miller, Valerie Fako

January 2014

Indiana University-Purdue University Indianapolis (IUPUI) / Fatty acid synthase (FASN) is over-expressed in many cancers, and novel inhibitors that target FASN may find use in the treatment of cancers. It has been shown that orlistat, an FDA approved drug for weight loss, inhibits the thioesterase (TE) of FASN, but can be hydrolyzed by TE. To understand the mechanisms of TE action and for designing better FASN inhibitors, I examined the mechanism of orlistat hydrolysis by TE using molecular dynamics simulations. I found that the hexyl tail of orlistat undergoes a conformational transition, destabilizing a hydrogen bond that forms between orlistat and the active site histidine. A water molecule can then hydrogen bond with histidine and become activated to hydrolyze orlistat. These findings suggest that rational design of inhibitors that block hexyl tail transition may lead to a more potent TE inhibitor. To search for novel inhibitors of TE, I performed virtual DOCK screening of FDA approved drugs followed by a fluorogenic assay using recombinant TE protein and found that proton pump inhibitors (PPIs) can competitively inhibit TE. PPIs, which are used for the treatment of gastroesophageal reflux and peptic ulcers, work to decrease gastric acid production by binding irreversibly with gastric hydrogen potassium ATPase in the stomach. Recently, PPIs have been reported to reduce drug resistance in cancer cells when used in combination with chemotherapeutics, although the mechanism of resistance reduction is unknown. Further investigation showed that PPIs are able to decrease FASN activity and cancer cell proliferation in a dose-dependent manner. These findings provide new evidence that FDA approved PPIs may synergistically suppress cancer cells by inhibiting TE of FASN and suggests that the use of PPIs in combinational therapies for the treatment of many types of cancer, including pancreatic cancer, warrants further investigation.

Fatty acid synthase

Thioesterase

Orlistat

Molecular dynamics

Proton pump inhibitors

Pancreatic cancer

Orlistat -- Research

Molecular dynamics

Proton pump inhibitors -- Research

Pancreas -- Cancer -- Pathogenesis

Pancreas -- Cancer -- Molecular aspects

Hydrolysis

INVESTIGATION OF DIFFERENTIALLY EXPRESSED NONCODING RNAS IN PANCREATIC DUCTAL ADENOCARCINOMA

Sutaria, Dhruvitkumar S

January 2016

No description available.

Pharmaceuticals

Pharmacy Sciences

Nanoscience

Molecular Biology

Oncology

Pharmacology

Noncoding RNA

microRNA

Long non coding RNA

exosomes

extracellular vesicles

therapeutic delivery

pancreatic cancer

TAT TAR interaction

protein engineering

mouse models