Monoclonal Antibody and Liposomal Nanoparticle-based Targeting Therapies for Chronic Lymphocytic Leukemia

Mao, Yicheng

18 December 2012

No description available.

Pharmaceuticals

Chronic Lymphocytic Leukemia

Monoclonal Antibody

Liposomal Nanoparticles

Targeted Therapeutics

Just another ad?

Adams, Jonna, Gejrot, Louise

January 2016

Marketers often target women because they represent over half of the population in Canada and Sweden and because they are the purchasing agents for 85% of household items. Advertisers and marketers use targeted marketing on Social Media platforms in the hopes of engaging the audience enough to initiate a purchasing action. For this paper the goal was to understand the relationship between women aged 55+ and their attitudes and perception of targeted advertising, to see whether it was effective in engaging them as consumers. Through interviews and the think-aloud method we found that while the overall perception of online advertising was negative, in practice, the ads on their social media feed were either accepted as relevant ads, simply ignored/not noticed, or not recognized as advertising. Finally we conclude that because social media gives users the impression that they are in control of the content on their feed, the consequences may be that targeted advertising can influence audience’s perception of who they are, more than they think.

social media advertising

targeted advertising

online advertising

audience

Arts

Konst

DUAL INHIBITION OF CATHEPSIN G AND CHYMASE AFTER ISCHEMIA REPERFUSION: THE ROLE OF INFLAMMATORY SERINE PROTEASES IN ISCHEMIA REPERFUSION INJURY

Hooshdaran, Bahman

January 2017

Acute myocardial infarction (AMI) is a leading cause of morbidity and mortality in the world (4). Restoration of coronary flow to the ischemic myocardium by interventions such as angioplasty, thrombolytic treatment or coronary bypass surgery is the current standard therapy for AMI (5). However, reperfusion of the ischemic myocardium may result in paradoxical cardiomyocyte dysfunction and worsen tissue damage, in a process known as “reperfusion injury” (6). Ischemic reperfusion (IR) injury may intensify pathological processes that contribute to the generation of oxyradicals, disturbances in cation homeostasis, and depletion of cellular energy stores, which may elicit arrhythmias, contractile dysfunction, and ultrastructural damage of the myocardium. These changes can lead to heart failure and ultimately sudden death. The exact mechanisms of IR injury are not fully known (7). Molecular, cellular, and tissue alterations such as cell death, inflammation, neurohumoral activation, and oxidat / Bioengineering

Engineering

Bioengineering

Infalmmation

Ischemia Reperfusion

Targeted Drug Delivery

Studies of SR-BI in HDL Lipid Uptake in Hepatocytes

Brunet, Rachelle

06 1900

<p> Gene-targeted studies in mice have shown that the murine scavenger receptor class B type I (mSR-BI) is atheroprotective and plays a key role in the clearance of high density lipoprotein (HDL) cholesterol by the liver. We focused on the analysis of human SR-BI (hSR-BI) and the role of its C-terminal cytoplasmic tail on its localization, lipid uptake activity, and regulation in hepatocytes both in vitro and in vivo. Full length hSRBI and hSR-BI lacking its C-terminal cytoplasmic tail (hSR-BI-DM) localized to vesiclelike structures in the cytoplasm, to juxtanuclear regions and to the cell surface in HepG2 cells. Similar cytoplasmic punctate distribution was observed in transfected human and mouse aortic endothelial cells. </p> <p> In HepG2 cells both hSR-BI and hSR-BI-DM mediated HDL-lipid uptake; however, the truncation mutant displayed only half ofthe activity, suggesting that removal ofthe C-terminal cytoplasmic tail reduced but did not eliminate SR-BI's activity. In HepG2 cells treated with the PKC inhibitor, calphostin C, hSR-BI or hSR-BI-DM mediated HDL-lipid uptake was decreased by 40 and 50%, respectively, indicating that this activity is regulated by PKC. </p> <p> In order to determine the effects of hSR-BI and hSR-BI-DM in vivo, we set out to generate transgenic mice with hepatic overexpression ofeach protein using a bipartite expression system requiring driver and responder transgenes. Mice expressing the responder transgenes, PTREhSR-BI and PTREhSR-BI-DM, as well as a reporter transgene (PTRdacZ), driven by the same bi-directional promoter, were generated and mated to mice with a liver-specific driver trans gene, PMuptTA. The mice were analyzed and showed the presence of a reporter protein, ~-galactosidase, in their livers, but not in other tissues tested. Total and HDL cholesterol levels were not altered in PMuPtTA I PrREhSRBI or PMuptTA I PrREhSR-BI-DM transgenic mice. Further characterization ofthe double transgenic mice revealed that hSR-BI m.RNA transcripts were detected in the livers of PMuPtTA I PrREhSR-BI mice, but not in those ofPMuPtTA I PrREhSR-BI-DM mice. However, neither PMuptTA I PrREhSR-BI nor PMuptTA I PrREhSR-BI-DM mice showed increased expression of SR-BI in their livers. </p> / Thesis / Master of Science (MSc)

SR-BI

HDL Lipid Uptake

Hepatocytes

Gene-targeted studies

mice

Dual-use nano-neurotechnology: An assessment of the implications of trends in science and technology

Nixdorff, K., Borisova, T., Komisarenko, S., Dando, Malcolm R.

29 November 2018

No / The chemical and biological nonproliferation regime stands at a watershed moment, when failure seems a real possibility. After the unsuccessful outcome of the 2016 Eighth Review Conference, the future of the Biological and Toxin Weapons Convention is uncertain. As the Chemical Weapons Convention (CWC) approaches its Fourth Review Conference in 2018, it has almost completed removing the huge stocks of chemical weapons, but it now faces the difficult organizational task of moving its focus to preventing the reemergence of chemical weapons at a time when the international security situation appears to be increasingly more difficult and dangerous. In this article, we assess the current and near-term state (5–10 years) and impact of three related areas of science and technology that could be of dual-use concern: targeted delivery of agents to the central nervous system (CNS), particularly by means of nanotechnology; direct impact of nanomaterials on synaptic functions in the CNS; and neuronal circuits in the brain that might be targeted by those with hostile intent. We attempt to assess the implications of our findings, particularly for the consideration of the problem of state-level interest in so-called nonlethal incapacitating chemical agents for law enforcement at the CWC Review Conference in 2018, but also more generally for the longer-term future of the chemical and biological nonproliferation regime.

Nano-neurotechnology

Targeted delivery

Neurotoxicity

Neuronal circuits

Biochemical security

The Potential of Cellulose Nanocrystals in the Detection and Treatment of Cancer

Colacino, Katelyn

01 August 2013

Conventional methods of cancer therapy have been severely limited by inefficient delivery of therapeutic doses without incidence of harsh and toxic side effects in normal tissues. Consequently, countless new methods for early detection and drug delivery have been investigated in the area of nanoparticles and hydrogels. Although many of these methods are promising, the complex nature of cancer increases the difficultly for the development of the perfect system. Cellulose nanocrystals (CNCs) have been studied widely for a variety of applications. Despite their advantages, investigations of their abilities in the biomedical field have not been explored. The goal of this project is to delve into the potential uses of CNCs in detection, targeted drug delivery, and potentiation of irreversible electroporation (IRE)-induced cell death in folate receptor (FR)-positive cancers. To accomplish this task we have prepared stable and reproducible CNCs from wood pulp via sulfuric acid hydrolysis. Furthermore, we have functionalized the surface of these nanoparticles and conjugated them with the targeting ligand folic acid (FA) and the fluorescent imaging agent fluorescein-5\'-isothiocyanate (FITC) to create FITC-CNC-FA; CNCs have also been conjugated with doxorubicin (DOX), a potent chemotherapeutic (DOX-ALAL-CNC-FA). We have determined FITC-CNC-FA's and DOX-ALAL-CNC-FA's ability to specifically target FR-positive cancer cells in vitro; meanwhile non-targeted CNCs (FITC-CNC) were shown unable to bind to these cell types. In addition, we have investigated FITC-CNC-FA's pharmacokinetic activity in vivo. To properly model the CNC conjugate's activity in vivo, a physiologically based pharmacokinetic (PBPK) model has been constructed. We have also examined CNCs' ability to potentiate a new technique for tumor ablation, IRE. Pre-incubation with FA-conjugated CNCs (CNC-FA) have shown an increase in cytotoxicity in FR-positive cancer cells induced by IRE. In addition, CNC-FA did not potentiate IRE-induced cytotoxicity in a FR-negative cancer cell type. For a more comprehensive understanding of CNC-FA's ability to potentiate IRE induced cytotoxicity, we optimized a 3D in vitro hydrogel system. Preliminary data suggest this method of experimentation will be more realistic to in vivo studies to be completed in the future. Together, these studies showcase CNCs as efficient and effective nano-carriers in tumor detection and treatment. / Ph. D.

Folate Receptor

Early Cancer Detection

Targeted Drug Delivery

Irreversible Electroporation

Evaluation of the therapeutic potential of Akt inhibition in a translational model of histiocytic sarcoma

Qin, Qizhi

12 October 2018

Histiocytic sarcoma (HS) is an exceptionally rare malignant neoplasm derived from dendritic cells and histiocytes, with no available effective treatment options. Akt signaling and proteasome dysfunction have been implicated in the pathogenesis of the disease, both in humans and dogs. Our work aims to investigate the importance of the Akt signaling pathway and evaluate the potential of Akt-targeted therapy in a canine model of histiocytic sarcoma. We demonstrated Akt signaling to be active in 9 out of 10 canine HS tumor samples, regardless the presence of PTEN. Moreover, the Akt signaling pathway appears to be constitutively active in DH82 cells — a cell line model of canine HS, when compared to control canine dendritic cells. Pharmacologic Akt inhibition resulted in significant decrease in Akt S473 phosphorylation, GSK-3β S9 phosphorylation, Akt activity, cell viability, increased apoptosis, and resulted in sensitization to proteasome inhibition-depended cell death in a synergistic manner. Proteasome inhibition using carfilzomib, an irreversible proteasome inhibitor, induced dose-depended/caspase-3 independent cell death, at clinically relevant drug concentrations. The therapeutic effect of Akt inhibition was validated in vivo using a DH82 xenograft murine model. Akt inhibition lead to reduced tumor growth, prolonged overall survival, and ameliorated splenomegaly, but not affected the lung metastasis. Moreover, the therapeutic effect of Akt inhibition was potentiated in combination with carfilzomib. In conclusion, targeting Akt signaling may represent an attractive potential therapeutic target for the HS. Future studies are required to examine the clinical efficacy of Akt-targeted therapy in dogs with HS using novel selective Akt inhibitors. / Ph. D. / Histiocytic sarcoma (HS) is an exceptionally rare cancer of the immune system, with no effective treatment options available. Canine histiocytic sarcoma (cHS) is an aggressive tumor of the same cellular lineage, identified at increased relative frequency in specific dog breeds, with significant translational value. Akt signaling and proteasome dysfunction have been implicated in the pathogenesis of the disease, both in humans and dogs. Our study aims to investigate the importance of the Akt signaling pathway in the dog model of the disease and evaluate the potential of Akt-targeted therapy in a translational of histiocytic sarcoma. The work presented here demonstrates that Akt signaling appears aberrantly and constitutively activated in the canine model of HS. Importantly, Akt inhibition significantly reduced the tumor growth and prolonged the overall survival of the experimental animals. Moreover, Akt inhibition potentiated the anti-cancer activities of other anticancer drugs. Collectively, these findings provide an attractive therapeutic approach for the treatment of HS.

Histiocytic sarcoma

PI3K/Akt signaling

Akt-targeted therapy

Magnetic Targeted Drug Delivery

Leach, Jeffrey Harold

24 February 2003

Methods of guiding magnetic particles in a controlled fashion through the arterial system in vivo using external magnetic fields are explored. Included are discussions of applications, magnetic field properties needed to allow guiding based on particle characteristics, hemodynamic forces, the uniformity of field and gradients, variable tissue characteristics, and imaging techniques employed to view these particles while in transport. These factors influence the type of magnetic guidance system that is needed for an effective drug delivery system. This thesis reviews past magnetic drug delivery work, variables, and concepts that needed to be understood for the development of an in vivo magnetic drug delivery system. The results of this thesis are the concise study and review of present methods for guided magnetic particles, aggregate theoretical work to allow proper hypotheses and extrapolations to be made, and experimental applications of these hypotheses to a working magnetic guidance system. The design and characterization of a magnetic guidance system was discussed and built. The restraint for this system that balanced multiple competing variables was primarily an active volume of 0.64 cm3, a workspace clearance of at least an inch on every side, a field of 0.3T, and a local axial gradient of 13 T/m. 3D electromagnetic finite element analysis modeling was performed and compared with experimental results. Drug delivery vehicles, a series of magnetic seeds, were successfully characterized using a vibrating sample magnetometer. Next, the magnetic seed was investigated under various flow conditions in vitro to analyze the effectiveness of the drug delivery system. Finally, the drug delivery system was successfully demonstrated under limiting assumptions of a specific magnetic field and gradient, seed material, a low fluid flow, and a small volume. / Master of Science

magnetic microspheres

magnetic stereotaxis system

targeted drug delivery

nanomagnetism

The prognostic significance of specific HOX gene expression patterns in ovarian cancer

Kelly, Z., Moller-Levet, C., McGrath, S., Butler-Manuel, S., Madhuri, T.K., Kierzek, A.M., Pandha, H.S., Morgan, Richard, Michael, A.

25 May 2016

Yes / HOX genes are vital for all aspects of mammalian growth and differentiation, and their dysregulated expression is related to ovarian carcinogenesis. The aim of the current study was to establish the prognostic value of HOX dysregulation as well as its role in platinum resistance. The potential to target HOX proteins through the HOX/PBX interaction was also explored in the con-text of platinum resistance. HOX gene expression was determined in ovarian cancer cell lines and primary EOCs by QPCR, and compared to expression in normal ovarian epithelium and fallopian tube tissue samples. Statistical analysis included one-way ANOVA and t-tests, using statistical software R and GraphPad. The analysis identified 36 of the 39 HOX genes as being overex-pressed in high grade serous EOC compared to normal tissue. We detected a molecular HOX gene-signature that predicted poor outcome. Overexpression of HOXB4 and HOXB9 was identified in high grade serous cell lines after platinum resistance developed. Targeting the HOX/PBX dimer with the HXR9 peptide enhanced the cytotoxicity of cisplatin in platinum-resistant ovarian cancer. In conclusion, this study has shown the HOX genes are highly dysregulated in ovarian cancer with high expression of HOXA13, B6, C13, D1 and D13 being predictive of poor clinical outcome. Targeting the HOX/PBX dimer in platinum–resistant cancer represents a potentially new therapeutic option that should be further developed and tested in clinical trials. / This research was supported by GRACE, a gynaecological charity based in Surrey, UK.

Ovarian cancer

HOX genes

Survival

Prognosis

Targeted treatment

An update on genomic-guided therapies for pediatric solid tumors

Tsui, P.C., Lee, Stephanie, Liu, Z.W.Y., Ip, L.R.H., Piao, W., Chiang, A.K.S., Lui, V.W.Y.

07 June 2017

Yes / Currently, out of the 82 US FDA-approved targeted therapies for adult cancer treatments, only three are approved for use in children irrespective of their genomic status. Apart from leukemia, only a handful of genomic-based trials involving children with solid tumors are ongoing. Emerging genomic data for pediatric solid tumors may facilitate the development of precision medicine in pediatric patients. Here, we provide an up-to-date review of all reported genomic aberrations in the eight most common pediatric solid tumors with whole-exome sequencing or whole-genome sequencing data (from cBioPortal database, Pediatric Cancer Genome Project, Therapeutically Applicable Research to Generate Effective Treatments) and additional non-whole-exome sequencing studies. Potential druggable events are highlighted and discussed so as to facilitate preclinical and clinical research in this area. / Seed Grant of Strategic Research Theme for Cancer, The University of Hong Kong of AKSC. VWY Lui is funded by the Research Grant Council, Hong Kong (#17114814, #17121616, General Research Fund; T12–401/13-R, Theme-based Research Scheme), and the Start-up Fund, School of Biomedical Sciences, Faculty of Medicine, The Chinese University of Hong Kong. W Piao is funded by the Faculty Postdoctoral Fellowship Scheme, Faculty of Medicine, the Chinese University of Hong Kong.

Clinical trials on targeted therapies

Pediatric solid tumors

Whole-exome sequencing