Novel Ester Substrates for the Detection and Treatment of Prostate Cancer

McGoldrick, Christopher Allen

01 December 2013

Cancer cell esterases are often overexpressed and some have chiral specificities different from those of corresponding normal cells. Carboxylesterases in particular are known to be overexpressed in several cancers. Additionally, cancer cells often exhibit high levels of intrinsic oxidative stress that is required for survival and an aggressive phenotype. We hypothesized that these 2 characteristics of cancer cells could be exploited to aid in the detection and treatment of prostate cancer. We have developed a fluorogenic ester probe that is activated by carboxylesterase to help distinguish tumorigenic cells from nontumorigenic prostate cells. Ester prodrugs have the same activation mechanism and have been thought to be a promising approach in cancer therapy. Prodrugs are inactive drugs that can be selectively activated by a specific enzyme. We have developed a chiral ester prodrug strategy using native polyacrylamide gel electrophoresis (n-PAGE) and proteomic methods to compare and identify the esterase profiles of several tumorigenic and nontumorigenic prostate cell lines. Our results showed that cell lysates from LNCaP, DU 145, and PC3 prostate cancer cell lines exhibit differential esterase activity compared with non-tumorigenic RWPE-1 prostate cell lysates when incubated with α- naphthyl acetate or α-naphthyl N-acetyl-alaninate ester substrates and a diazonium salt. We have identified oxidized protein hydrolase (OPH), a serine esterase/protease that catalyzes the removal of N-acylated residues from proteins, to be differentially expressed between some tumorigenic and nontumorigenic prostate cell lines. OPH was found to have high hydrolytic activity towards the S-isomer of α-naphthyl N-acetylalaninate (S-ANAA) chiral ester. LNCaP lysates incubated with N-acetyl-alanyl-p-nitroanilide, a known OPH substrate, had twofold higher OPH activity compared with RWPE-1 lysates. We have also developed and tested novel glutathione depleting prodrugs modeled after S-ANAA that increase oxidative stress and induced apoptosis in tumorigenic prostate cells with little effect on nontumorigenic RWPE-1 cells. These results suggest that ester molecular beacon probes and ester prodrugs may be effective in identifying and treating prostate cancer tumors that overexpress esterases with little effect on normal prostate cells.

oxidized protein hydrolase

prodrug

carboxylesterase

prostate cancer

molecular beacon

Biochemistry

Supplementary Material for "Physician Role in Physical activity for African-American Males Undergoing Radical Prostatectomy for Prostate Cancer"

Williams, Faustine, Imm, Kellie, Colditz, Graham A., Drake, Bettina

01 January 2017

No description available.

physicians

physical activity

African-American

males

prostate cancer

prostatectomy

Targeting prostate cancer with synthetic RNA ligands

Thomas, Gregory Stuart

01 December 2012

Prostate cancer represents a serious health concern as the most diagnosed form of cancer in men and the second leading cause of cancer death in the Western world. Current treatments for prostate cancer are non-targeted and result in a number of undesirable, non-specific effects, highlighting the need for novel, targeted therapeutics in the treatment of prostate cancer. Prostate Specific Membrane Antigen (PSMA) offers great promise in the targeting of prostate cancer for imaging and therapy. PSMA is a transmembrane carboxypeptidase with cell surface expression several orders of magnitude higher in cancerous prostatic epithelia than found in other tissue and PSMA is constitutively internalized into cells. The unique expression profile of PSMA and its constitutive internalization offer great value in the targeted delivery of therapeutics to prostate cancer cell. In 2002, two synthetic RNA ligands, aptamers, were selected for their ability to inhibit the enzymatic activity of PSMA. In 2006, the utility of these aptamers in the delivery of cytotoxic siRNA across the cell membrane was demonstrated in vivo using aptamer-siRNA chimeras. However, those experiments were performed by intratumoral injection, and systemic administration will be necessary for use in the clinic. In this thesis, we improve PSMA targeted chimeras to serve as more powerful therapeutics in the treatment of prostate cancer. We optimize existing aptamer-siRNA chimeras for increased potency and stability and improved pharmacokinetics to enable systemic administration. We truncate the PSMA binding aptamers for amenability to large-scale chemical synthesis. With emerging roles for PSMA enzymatic activity in the prostate cancer disease we identify aptamers that are suitable for chemical synthesis and retain inhibitory properties against PSMA. Finally, we assess the use of aptamers as synthetic ligands in the functional inhibition of PSMA mediated motility in prostate cancer. Our results demonstrate the ability of aptamer-siRNA chimeras to specifically kill PSMA-expressing cells with cytotoxic siRNA upon systemic injection. We confirm a newly reported role for PSMA in the promotion of cell motility and demonstrate the ability of aptamers to effectively neutralize PSMA-mediated motility. The results presented within argue strongly for the functional utility of aptamers in the treatment of prostate cancer.

aptamer

prostate cancer

PSMA

RNAi

therapeutics

Cell Biology

Prostate Cancer Screening Rates for Haitian Men Based on Demographic Characteristics

St-Hilaire, Wilgyms

01 January 2019

Cancer screening is useful for improving survival rates and treatment outcomes, which is why there are screening recommendations for the most prevalent types of cancer. Despite gains in the reduction of cancer-related mortality rate worldwide in the past few years, the Haitian community continues to experience high mortality rates due to cancer. The prevalence of prostate cancer in the Haitian population is among the highest worldwide at 767 per 100,000, with a mortality rate of 403 per 100,000. One of the causes may be the low prostate cancer screening rate in the Haitian community; however, no studies have been focused on an association between demographic factors within this community and the low prostate cancer screening rate. This study's purpose was to address this gap through a cross-sectional quantitative design using the health belief model as a theoretical framework and a convenience sample of 282 Haitian males. The rate of prostate cancer screening among Haitian immigrants living in Brooklyn was examined based on the demographic variables of age, income, and education. Participants' perceptions regarding prostate cancer screening were also evaluated based on the same variables. Loglinear, and binary logistic regression were used for data analysis. Although education was found to be the strongest and only significant predictor variable for prostate cancer screening participation within the target population, no conclusion could be drawn regarding the effect of the select variables on the participants' perceptions on prostate cancer screening. The implications for this study include increased knowledge for public health promotion initiatives and for those in the Haitian community working to reduce the morbidity and mortality rates due to prostate cancer.

Demographics

Haitian men

Prostate cancer

Screening

Medicine and Health Sciences

Prostate Cancer Cell-derived Exosomes Enable Androgen Production By Patients Derived Stem Cells: Exploring Racial Disparity And Targeting Residual Androgen Through Stem Cell-based Selective Delivery Of 3α-hsd

January 2015

Prostate cancer is the most common cancer occurring in the men in USA and Europe. According to CDC, incidence of Prostate cancer in African American men in the year 2008 was 234.6 cases per 100,000 compared to 150 cases per 100,000 in Caucasian men, reasons for this disparity remain unclear. Castration resistant prostate cancer is an advanced form of prostate cancer with poor survival rates. 10-20% of prostate cancer patients develop metastatic castration resistant prostate cancer (CRPC) within approximately 5 years of follow-up. Androgen deprivation therapy which is at the center of metastatic prostate cancer is often impeded by development of CRPC. Previous studies have demonstrated that prostatic androgen concentration ranging between 10-25 percent in the treated patients versus the untreated could still continue AR signaling. Previous in vitro studies have demonstrated higher tumor homing potential in normal adipose derived mesenchymal stem cells (ADMSC) from African American patient compared to ADMSC derived from a Caucasian patient when grown in prostate cancer cell condition media. This study attempts to exploit this tumortropicity of ADMSC for selective delivery of alpha keto reductases in the metastasized prostate cancer cells to hydrolyse DHT and other androgens into weaker androgens. Enriched ADMSC were plated in a 6 well plate and were co-transfected with transfected with AKRC14 and GFP. Gene expression was confirmed by PCR and WB. ADMSCs are capable of expressing AKR1C14 on transfection with plasmid. Stem cells expressing AKR1C4 open the avenues for furthering therapeutic strategies in metastatic CRPC by hydrolyzing the androgens. / 1 / Manish Ranjan

Co-delivery of cationic polymers and adenovirus in immunotherapy of prostate cancer

Graham, Jessica Beth

01 May 2010

Prostate cancer is the most common non-skin cancer in America, and the most commonly diagnosed cancer among males. When metastatic, the disease can ultimately be incurable. Consequently, alternative strategies to current treatments are sought, especially in the area of immunotherapy. Vaccine immunotherapy using a specific antigen, such as prostate specific antigen (PSA) seeks to stimulate both the innate and adaptive immune system to destroy tumor cells in the body. PSA is an ideal target antigen given that it has a narrow distribution in tissues and is expressed in virtually all prostate cancer cases. An adenovirus encoding for PSA (Ad-PSA) can be used to deliver the genomic data encoding for PSA production and secretion to the target cell. This type of viral gene delivery system has already been shown to have the potential to stimulate anti-tumor activity. To enhance this activity and increase transfection efficiency, we proposed the combination of a viral system with a non-viral system, in the form of a cationic polymer such as poly(ethyl)enimine (PEI) or chitosan. Cationic polymers complex with the negatively charged adenovirus to form nanoparticles that can be used in gene delivery. Delivery in nanoparticle form can give enhanced uptake by the antigen-presenting cells necessary to initiate the targeted immune response. To further augment this response, previous research has shown that CpG sequences act as an adjuvant to enhance the efficacy of the Ad-PSA vaccines' tumor protection. CpG delivered in particulate form has also been shown to be more effective than delivery in solution. The objective of this proposal was to test the hypothesis that co-delivery of this targeted viral/non-viral gene delivery system will enhance tumor protection in a mouse model of prostate cancer. Using the OVA model antigen system, we found that the adenovirus encoding OVA (AdOVA), coupled with the polymer PEI, enhanced tumor protection in vivo compared to AdOVA alone. To move towards our therapeutic model, these experiments were repeated using chitosan as the cationic polymer carrier, delivering AdOVA, and incorporating CpG into some particles. In this set of experiments, we found that AdOVA + CpG gave the best tumor protection in challenge studies. AdOVA + chitosan + CpG showed a decrease in protective levels and numbers of antigen-specific immune cells. Further experiments focused on elucidating the mechanisms by which chitosan and CpG modulate the immune response. Using the therapeutic AdPSA model, chitosan was not found to enhance tumor protection or numbers of antigen-specific immune cells. Additional experiments found that this depression was not due to problems with viral infectivity or secretion due to chitosan complexation. A series of kinetics studies were performed which showed that peak levels of effector T cells were present 14 days later in AdPSA + CpG immunized mice than in AdPSA alone. This delayed effect may explain the increased levels of protection in AdPSA + CpG mice, and be useful in future vaccine design concerning the timing of peak response.

adenovirus

chitosan

CpG

gene delivery

PEI

prostate cancer

Chemical Engineering

SpaceOAR hydrogel optimization and management for rectal sparing in prostate cancer patients

Paetkau, D. Owen

27 September 2019

External beam radiation therapy for prostate cancer can result in urinary, sexual, and rectal side effects, often impairing quality of life. A polyethylene glycol-based product, SpaceOAR hydrogel (SOH), implanted into the connective tissue between prostate gland and rectum can significantly reduce the dose received by the rectum and hence risk of rectal toxicity. The optimal way to manage the hydrogel and rectal structures for plan optimization is therefore of interest. A retrospective planning study was completed with 13 patients to examine optimal planning and treatment methods. Computerized tomography (CT) scans were taken pre- and post-SOH implant. Six hypofractionated (60 Gy in 20 fractions) treatment plans were produced per patient using either a structure of rectum plus the hydrogel, termed composite rectum wall (CRW), or rectal wall (RW) as the inverse optimization structure and intensity modulated radiotherapy (IMRT) or volumetric modulated arc therapy (VMAT) as the treatment technique. Dose-volume histogram metrics were compared between plans to determine which optimization structure and treatment technique offered the maximum rectal dose sparing. RW structures offered a statistically significant decrease in rectal dose over CRW structures, whereas the treatment technique (IMRT vs VMAT) did not significantly affect the rectal dose. However, there was improvement seen in bladder and penile bulb dose when VMAT was used as a treatment technique over IMRT. Overall, treatment plans using the RW optimization structure offered the lowest rectal dose while VMAT treatment technique offered the lowest bladder and penile bulb dose. These treatment techniques and optimization structures have now been implemented at BC Cancer - Victoria based on this retrospective study. SOH implant has been shown not to be equally effective in all patients. Determining a priori patients in which the implant will offer most benefit allows for effective management of SOH resources. Several factors have been shown to be correlated to reduction in rectal dose including distance between rectum and planning treatment volume (PTV), volume of rectum in the PTV and change in rectum volume pre- to post-SOH. Several of these factors along with other pre-SOH CT metrics were found via multiple linear regression models to predict reduction of rectal dose using data from 21 patients who received SOH implant. Two high rectal dose metrics were modeled, change in the relative volume receiving 55 Gy and change in the partial high dose integral, integrating over the dose-volume histogram (DVH) from 55 Gy to 60 Gy. Models were also produced to predict pre-SOH RV55Gy. These models offered R-squared between 0.57 and 0.87 with statistical significance in each model. Applying a 3.5% lower limit on pre-SOH RV55Gy removed one third of patients as implant candidates. This may offer a clinically useful tool in deciding which patients should receive SOH implant given limited resources. Predictive models, nomograms and a workflow diagram were produced for clinical management of SOH implant. / Graduate

medical physics

radiotherapy

prostate cancer

spaceoar hydrogel

rectal dose

Synthèse de glyconanovecteurs pour la thérapie photodynamique des cancers de la prostate / Synthesis of glyconanoparticules for the photodynamic therapy of prostate cancer

Bouffard, Elise

05 December 2014

Le récepteur du mannose 6-phosphate cation indépendant (RM6P-CI) permet l'endocytose puis le transfert de molécules porteuses du marqueur mannose 6-phosphate (M6P) vers les lysosomes. Le RM6P-CI, qui est surexprimé par les cellules de cancer de la prostate, est une cible de choix pour augmenter la délivrance de principes actifs dans ces cellules. Cependant le M6P est dégradé par les phosphatases présentes dans le sérum. Dans le but d'augmenter à la fois la stabilité et l'affinité pour le RM6P-CI, nous avons entrepris la synthèse d'analogues isostères du mannose 6-phosphate. Ces analogues sont fonctionnalisés en position anomère afin de permettre leur greffage sur des nanoparticules de silice mésoporeuse incorporant un photosensibilisateur. L'évaluation biologique a montré un gain d'affinité des nouveaux analogues synthétisés pour le RM6P-CI ainsi qu'une forte augmentation de l'efficacité des nanoparticules fonctionnalisées avec les analogues pour la thérapie photodynamique, in vitro, de cellules de cancer de la prostate. / The cation independant mannose 6-phosphate receptor (CI-M6PR) allows the endocytosis and the transport of mannose 6-phosphate (M6P) bearing molecules toward the lysosomes. The CI-M6PR, which is overexpressed by prostate cancer cells, is a target of interest to increase drug delivery in these cells. However, M6P is sensitive to degradation by phosphatases in the serum. To increase both the stability and the affinity for the CI-M6PR, we synthesized new M6P isosteric analogs. These analogs are functionnalized at the anomeric position to permit their grafting on mesoporous silica nanoparticles incorporating a photosensitizer. The biological evaluation demonstrated an affinity gain of the new analogs for the CI-M6PR as well as an increase of the efficacy of the nanoparticles functionnalized with these analogs for the in vitro photodynamic therapy of cancer prostate cells.

Glyconanovecteurs

Ciblage

Cancers de la prostate

Glyconanovectors

Targeting

Prostate cancer

Analysis, expression profiling and characterization of hsa-miR-5698 target genes as putative dynamic network biomarkers for prostate cancer: a combined in silico and molecular approach

Lombe, Chipampe Patricia

January 2019

Philosophiae Doctor - PhD / 2018, the International Agency for Research on Cancer (IARC) estimated that prostate cancer (PCa) was the second leading cause of death in males worldwide. The number of deaths are expected to raise by 50 % in the next decade. This rise is attributed to the shortcomings of the current diagnostic, prognostic, and therapeutic biomarkers used in the management of the disease. Therefore, research into more sensitive, specific and effective biomarkers is a requirement. The use of biomarkers in PCa diagnosis and management takes advantage of the genetic alterations and abnormalities that characterise the disease. In this regard, a microRNA, hsa-miR-5698 was identified in a previous study as a differentiating biomarker between prostate adenocarcinoma and bone metastasis. Six putative translational targets (CDKN1A, CTNND1, FOXC1, LRP8, ELK1 and BIRC2) of this microRNA were discovered using in silico approaches. The aim of this study was to analyse via expression profiling and characterization, the target genes of hsa-miR-5698 in order to determine their ability to act as putative dynamic network biomarkers for PCa. The study was conducted using a combined in silico and molecular approach. The in silico part of the study investigated the putative transcriptional effects of hsa-miR-5698 on the promotors of its translational targets, the correlation between hsa-miR-5698 and mRNA expression profiles as well as the co-expression analysis, pathway analysis and prognostic ability of the target genes. A number of computational software were employed for these purposes, including, R Studio, Trident algorithm, STRING, KEGG, MEME Suite, SurvExpress and ProGgene. The molecular part of the study involved expression profiling of the genes in two PCa cell line LNCaP and PC3 via qPCR.

MicroRNA

Triplex

DNA sequence motif

Prostate cancer

Transcription factor

Localized Prostate Cancer : Results From a Randomized Clinical Trial / Lokaliserad prostatacancer : Resultat från en randomiserad klinisk studie

Bill-Axelson, Anna

January 2005

<p>The aims of the thesis were to</p><p>• explore whether radical prostatectomy is beneficial compared with watchful waiting in survival and disease progression</p><p>• find possible effect modifiers</p><p>• evaluate a protocol of multiple biopsies and investigate if men with previous benign prostate biopsies are a group at risk for later prostate cancer</p><p>• inquire into patients’ and clinicians’ experiences of randomization in order to find out what made this study possible to conduct, and thereby contribute to improve randomization in the future</p><p>The background material was a large randomized clinical trial, the Scandinavian Prostatic Cancer Group Study Number 4, or SPCG-4, which was open for inclusion from February 1989 through December 1999. It comprised 695 men in Sweden, Finland and Iceland who had localized prostate cancer and were randomized to either radical prostatectomy or watchful waiting. </p><p>After a mean follow-up time of 6.2 years the first analyses, according to intention-to-treat, showed that radical prostatectomy reduced disease specific mortality, risk of metastases and risk of local progression but did not statistically significantly reduce overall mortality. </p><p>The second analyses confirmed our earlier findings and furthermore, at ten years, radical prostatectomy also statistically significantly reduced overall mortality. Age appeared as an independent effect modifier that will be further investigated.</p><p>A total of 547 men, with a suspicion of prostate cancer that had undergone multiple biopsies, and whose biopsies had benign histology were later compared with the background population to evaluate whether they were a group at risk of developing prostate cancer. Within six years of follow-up, there was no increased risk of prostate cancer.</p><p>Patients as well as clinicians used individual strategies to cope with the situation. The randomizing clinician has to understand the patient’s strategy and his expectations in order to individualize the information accordingly.</p>

Surgery

prostate cancer

localized

randomized

biopsies

interviews

Kirurgi

Surgery

Kirurgi