Cell Death Characterization In Tumor Constructs Using Irreversible Electroporation

Prokop, Katherine Jane

04 October 2013

Pancreatic and prostate cancer are both prevalent cancers in the United States with pancreatic being one of the most aggressive of all cancers and prostate cancer being one of the most common, ranking as the number one cancer in men. Treatment of both cancers can be quite challenging as the anatomy of the pancreas and prostate, as well as the development and diagnosis of the disease can greatly limit treatment options. Therefore, it is necessary to develop new cancer treatments to help manage and prevent these cancers. Irreversible electroporation is a new non-thermal focal ablation therapy utilizing short, pulsed electric fields to damage cell membranes leading to cell death. The therapy is minimally invasive, involving the insertion of needle electrodes into the region of interest and lasts less than two minutes. Heat sink effects that thermal therapies experience near large blood vessels do not affect irreversible electroporation. This allows the treatment to be used on tumors near vasculature as well as critical structures without harming these vital regions. While irreversible electroporation is a promising new cancer therapy, further developments are necessary to improve treatment planning models. This work aims to further understand the electric field thresholds necessary to kill different types of cancer cells with a focus on pancreatic and prostate cancer. The work is done using an in vitro tumor (hydrogel) model as this model is better than traditional cell suspension studies, with added benefits over the immediate use of tissue and animal models. / Master of Science

irreversible electroporation

hydrogels

pancreatic cancer

prostate cancer

Tumour-stroma interaction in pancreatic cancer

Lunardi, Serena

January 2013

Pancreatic ductal adenocarcinoma (PDAC) is characterised by an abundant desmoplastic reaction driven by pancreatic stellate cells (PSCs). There is accumulating evidence that PSCs influence the malignant phenotype of PDAC. The aim of this study was to analyse the tumour response to radiation treatment in the presence of PSCs and to investigate the cytokine network in the coculture of PSCs and pancreatic cancer cells (PCCs). PSCs were used in coculture with different PCC lines. Clonogenic survival assays of several PCC lines cocultured with PSCs showed decreased radiosensitivity. This effect was abrogated by inhibition of the β1-integrin/FAK signalling pathway. Furthermore, tumour regrowth experiments after irradiation showed that coinjected PSCs were radioprotective for PCCs after single-dose and fractionated irradiation in xenografts. In addition, we examined the expression of 50 proteins in the supernatants of PCCs and PSCs in mono- and coculture conditions. The detected cytokine expression profile of PSCs included many proinflammatory factors. Also, we identified IP-10 as the chemokine with the highest differential upregulation in PSCs by paracrine stimuli from five different PCC lines. Human PDAC with a high stroma component had elevated IP-10 mRNA expression. IP-10 did not stimulate tumour cell growth and migration in our conditions even though several PCCs expressed its cognate receptor CXCR3. Nevertheless, we discovered that in human PDAC samples IP-10 and CXCR3 mRNA levels correlated with the presence of CD3ε, CD4, FoxP3, CTLA4 and CD39 used as surrogate markers for T regulatory cells (Tregs), known to exert an immunosuppressive effect. In conclusion, these data demonstrate that PSCs enhance survival of PCCs to radiation by activating β1-integrin/FAK signalling. Furthermore, the interaction between the tumour stroma in pancreatic cancer may support an immunosuppression by chemoattraction of Tregs following upregulation of IP-10. Further characterisation of the paracrine signalling between PCCs, PSCs and immune cells will improve the understanding of pancreatic cancer biology and could lead to the identification of new targets for multimodal therapy.

616.99437

Morfologia macro e microscópica do pâncreas de tamanduá-bandeira (Myrmecophaga tridactyla, Linnaeus 1758) / Macro and microscopic morphology of pancreas of the anteater (Myrmecophaga tridactyla Linnaeus, 1758)

Iglesias, Luciana Pedrosa

15 October 2014

O tamanduá-bandeira Myrmecophaga tridactyla é uma espécie considerada “vulnerável” no Brasil, por estar ameaçado de extinção em algumas regiões do país. O presente projeto teve por objetivo identificar e caracterizar as estruturas macro e microscópicas do pâncreas nessa espécie. Para tanto, foram dissecados 16 pâncreas de tamanduás-bandeira provenientes do Hospital Veterinário “Dr. Halim Atique” do Centro Universitário de Rio Preto (UNIRP). As amostras coletadas, foram provenientes de casos de animais atendidos no referido Hospital e que vieram a óbito. O pâncreas situava-se no antímero esquerdo do corpo do animal, apresentava coloração pálida, corpo central e superfície lobulada. Acompanhava a curvatura ventricular maior do estomago aderindo-se na porção inicial do duodeno. Relaciona-se crâniodorsalmente com o baço e ventrículo gástrico, e caudoventralmente com a cápsula fibrosa renal (que aloja o rim esquerdo) e intestinos. Estruturalmente, o órgão demonstrou duas partes distintas: a primeira delas com características exócrinas, composta por ácinos pancreáticos e a segunda endócrina, formada pelas ilhotas pancreáticas encontradas nas regiões media, caudoventral e lobar esquerda. A analise ultraestrutural permitiu identificar nas células centro-acinosas do pâncreas vesículas com grânulos de zimogênio, mitocôndrias, Aparelho de Golgi e retículo endoplasmático rugoso / The giant anteater Myrmecophaga tridactyla is a species considered 'vulnerable' in Brazil since it is threatened in some Brazilian regions. This study aimed to identify and characterize morphological structures of the pancreas in this species. For this, 16 anteaters pancreas from the Veterinary Hospital "Dr. Halim Atique at University Center of Rio Preto (UNIRP), were dissected. All samples were from animals treated at the hospital which died of natural causes. The pancreas was located in the left antimere of the animal’s body, being lobulated and having a pale color and central body. It followed the greater curvature of the stomach, adhering on the initial portion of the duodenum. It was craniodorsally related to the spleen and gizzard, and caudoventrally to the renal fibrous capsule (which houses the left kidney) and intestines. Structurally, the organ had two distinct parts: an exocrine, composed of pancreatic acini; and and endocrine, formed by pancreatic islets found in the medial, caudoventral and left lobar regions. The ultrastructural analysis allowed identifying the central-acinar pancreatic cells with vesicles zymogen granules, mitochondria, Golgi apparatus and rough endoplasmic reticulum

Myrmecophaga tridactyla

Myrmecophaga tridactyla

Ácinos pancreáticos

Ilhotas pancreáticas

Pancreatic acini

Pancreatic islets

Tamanduá-bandeira

Xenartha

Genetic engineering of non-beta-cells for regulated insulin secretion

Tang, Shiue-Cheng

01 December 2003

No description available.

Recombinant human insulin

Pancreatic beta cells

Diabetes

Recombinant human insulin

Diabetes

Pancreatic beta cells

Investigating the natural history of human islet-derived duct-like structures transplanted subcutaneously into nude mice

Scott, Ryan, 1981-

January 2008

Islet plasticity has proven to be an important platform for the engineering of alternative islet tissue for transplantation. In vitro studies have shown the ability of islets to transdifferentiate into duct-like epithelial structures (DLS) thought to possess progenitor cells capable of replenishing damaged tissue within the pancreas. The aim of this study was to investigate the natural history of human derived duct-like epithelial structures transplanted into nude mice. / Human islet derived duct-like structures from three cadaver pancreases were subcutaneously transplanted into 6-8 week old male HSD athymic nude-Foxn1 mice. Six mice were sacrificed at day 3, 7, 14 and 21 from each time period. DLS were also placed in matrigel for in-vitro control samples. DLS were processed for immunohistochemistry for endocrine markers, epithelial markers, cell death and proliferation markers, islet maturation markers and angiogenic factors. / Our results show that as DLS are transplanted, there is an increase in cell death and proliferation. This increase in cell death and proliferation causes an increase in PDX-1 expression as well as VEGF, an angiogenic factor. But over time, transplanted DLS do not show an increase in cell death and show a small decrease in cell proliferation from pre-transplanted DLS. At day 3 of engraftment, DLS show a significant expression of PDX-1. We see a small increase in endocrine tissue after 3 days of transplantation, then an increase in endocrine cell death, which returns the percentage of endocrine cells back to pre-transplantation levels at day 21. DLS were shown to express VEGF, and once transplanted into an initial hypoxic environment there is a substantial increase in expression, followed by a recruitment of microvessels. Although there is a dynamic change in expression of cell markers throughout engraftment, there is no significant change in DLS size, nuclei per DLS or cell morphology over time. / DLS have been shown to survive subcutaneous transplantation and possess an initial increase in cell proliferation leading to increases in PDX-1 and VEGF expression. Transplanted DLS have shown to possess significant angiogenic properties with the recruitment of microvessels into subcutaneous DLS grafts. Subcutaneous DLS transplantation could be used in combination with islet transplantation to alleviate current problems with islet transplantation such as islet cell death and insufficient blood supply.

Islets of Langerhans -- physiology.

Pancreatic Ducts -- transplantation.

Regeneration -- physiology.

Mice.

Mice, Nude.

Validation of Candidate Biomarkers for the Development of a Multi-Parametric Panel for Early Detection of Pancreatic Ductal Adenocarcinoma (PDAC)

Chan, Alison Hui-Wai

21 November 2013

High-throughput mass spectrometry has discovered a plethora of candidates in the biomarker field, however, subsequent verification and validation studies are urgently needed to assess the potential of novel biomarkers in the detection of pancreatic cancer. We have conducted extensive verification and validation studies on two of our most promising biomarkers CUZD1 and LAMC2 with a total of 715 blood samples. In our study, both markers demonstrated consistent diagnostic ability of early- and CA19.9 negative-PDAC cases. When used in combination with CA19.9, CUZD1 and LAMC2 were shown to significantly improve the performance of CA19.9 alone in the diagnosis of PDAC patients. We speculate that CUZD1 and LAMC2 may be good candidates to be used in a panel for monitoring PDAC patients who do not express CA19.9 levels as well as for an aid in screening high risk populations. Further validation of these two proteins is warranted.

pancreatic cancer

early diagnosis

pancreatic ductal adenocarcinoma

biomarker

validation

0992

0571

Validation of Candidate Biomarkers for the Development of a Multi-Parametric Panel for Early Detection of Pancreatic Ductal Adenocarcinoma (PDAC)

Chan, Alison Hui-Wai

21 November 2013

High-throughput mass spectrometry has discovered a plethora of candidates in the biomarker field, however, subsequent verification and validation studies are urgently needed to assess the potential of novel biomarkers in the detection of pancreatic cancer. We have conducted extensive verification and validation studies on two of our most promising biomarkers CUZD1 and LAMC2 with a total of 715 blood samples. In our study, both markers demonstrated consistent diagnostic ability of early- and CA19.9 negative-PDAC cases. When used in combination with CA19.9, CUZD1 and LAMC2 were shown to significantly improve the performance of CA19.9 alone in the diagnosis of PDAC patients. We speculate that CUZD1 and LAMC2 may be good candidates to be used in a panel for monitoring PDAC patients who do not express CA19.9 levels as well as for an aid in screening high risk populations. Further validation of these two proteins is warranted.

pancreatic cancer

early diagnosis

pancreatic ductal adenocarcinoma

biomarker

validation

0992

0571

Integrative Preoteomic Analysis of Cell Line Conditioned Media and Pancreatic Juice for the Identification of Candidate Pancreatic Cancer Biomarkers

Makawita, Shalini

04 September 2012

Novel serological biomarkers to aid in the detection and clinical management of pancreatic cancer patients are urgently needed. In the present study, we performed in-depth proteomic analysis of conditioned media from six pancreatic cancer cell lines (MIA-PaCa2, PANC1, BxPc3, CAPAN1, CFPAC1 and SU.86.86), the normal pancreatic ductal epithelial cell line HPDE, and pancreatic juice samples from cancer patients for identification of novel biomarker candidates. Using 2D-LC-MS/MS, a total of 3479 non-redundant proteins were identified with ≥2 peptides. Subsequent label-free protein quantification and integrative analysis of the biological fluids resulted in the generation of candidate biomarkers, of which five proteins were shown to be significantly elevated in plasma from pancreatic cancer patients in a preliminary assessment. Further verification of two of the proteins in ~200 serum samples demonstrated the ability of these proteins to significantly improve the area under the receiver operating characteristic curve of CA19.9 from 0.84 to 0.91.

Pancreatic Cancer

Proteomics

Serum Biomarkers

Mass Spectrometry

Cell Line Conditioned Media

Pancreatic Juice

Bioinformatics

0992

Integrative Preoteomic Analysis of Cell Line Conditioned Media and Pancreatic Juice for the Identification of Candidate Pancreatic Cancer Biomarkers

Makawita, Shalini

04 September 2012

Novel serological biomarkers to aid in the detection and clinical management of pancreatic cancer patients are urgently needed. In the present study, we performed in-depth proteomic analysis of conditioned media from six pancreatic cancer cell lines (MIA-PaCa2, PANC1, BxPc3, CAPAN1, CFPAC1 and SU.86.86), the normal pancreatic ductal epithelial cell line HPDE, and pancreatic juice samples from cancer patients for identification of novel biomarker candidates. Using 2D-LC-MS/MS, a total of 3479 non-redundant proteins were identified with ≥2 peptides. Subsequent label-free protein quantification and integrative analysis of the biological fluids resulted in the generation of candidate biomarkers, of which five proteins were shown to be significantly elevated in plasma from pancreatic cancer patients in a preliminary assessment. Further verification of two of the proteins in ~200 serum samples demonstrated the ability of these proteins to significantly improve the area under the receiver operating characteristic curve of CA19.9 from 0.84 to 0.91.

Pancreatic Cancer

Proteomics

Serum Biomarkers

Mass Spectrometry

Cell Line Conditioned Media

Pancreatic Juice

Bioinformatics

0992

Insulin resistance in pancreatic cancer /

Isaksson, Bengt,

January 2003

Diss. (sammanfattning) Stockholm : Karol. inst., 2003. / Härtill 5 uppsatser.