The role of integrins in melanoma progression and metastasis

Marshall, John Francis

January 1995

No description available.

610

Cancer; Cell adhesion

The design and synthesis of novel purine based inhibitors of cyclin-dependent kinases

Grant, Sharon

January 2000

No description available.

547

Cancer; Cell cycle

Development of a Microfluidic Device for Single Cell Specific Membrane Capacitance Quantification

Tan, Qingyuan

27 November 2012

The specific membrane capacitance (SMC) of biological cell membranes correlates with cells’ electrical activity and morphology, which are physiological markers for cellular phenotype and health. Conventionally, SMC measurements are conducted using electro-rotation and Patch-clamping, which entail long time training and stringent operation skills. Both techniques also suffer from limited throughput and lengthy measurement time. In this study, a microfluidic device, which enables impedance spectroscopy measurements, was developed to quantify the SMC of single biological cells. The device has a testing speed of approximately one cell per minute and is relatively easy to operate. Three-dimensional finite element simulations of the microfluidic device confirm the feasibility of this approach. SMC measurement of two AML (Acute Myeloid Leukemia) subtypes and two UCC (Urothelium Cell Carcinoma) subtypes were conducted. Measured SMC results were found to lie in the comparable range with previously reported publications.

Microfluidic

Cancer cell

0541

Development of a Microfluidic Device for Single Cell Specific Membrane Capacitance Quantification

Tan, Qingyuan

27 November 2012

The specific membrane capacitance (SMC) of biological cell membranes correlates with cells’ electrical activity and morphology, which are physiological markers for cellular phenotype and health. Conventionally, SMC measurements are conducted using electro-rotation and Patch-clamping, which entail long time training and stringent operation skills. Both techniques also suffer from limited throughput and lengthy measurement time. In this study, a microfluidic device, which enables impedance spectroscopy measurements, was developed to quantify the SMC of single biological cells. The device has a testing speed of approximately one cell per minute and is relatively easy to operate. Three-dimensional finite element simulations of the microfluidic device confirm the feasibility of this approach. SMC measurement of two AML (Acute Myeloid Leukemia) subtypes and two UCC (Urothelium Cell Carcinoma) subtypes were conducted. Measured SMC results were found to lie in the comparable range with previously reported publications.

Microfluidic

Cancer cell

0541

Studies on the roles of EMP2 gene in human bladder cancer cell lines

Kuo, Chun-Lin

24 August 2010

Epithelial membrane protein 2(EMP2), a growth arrest specific-3/peripheral myelin protein-22(GAS3/PMP22) family member, is a tetraspan protein. In prior study identified EMP2 in endometrial cancer was an oncogene, but in B-cell lymphoma was a tumor suppressor gene. The effects of EMP2 on various cancer cell lines precise molecular mechanisms are not clear until now. We observed EMP2 was down-regulated following the progressive grades of bladder cancer cell lines. So, we clone the EMP2 full-length cDNA into the pEGFP-N3 vector as an tool. Then, we overexpressed EMP2 in bladder cancer cell line J82 cells and knockdown EMP2 by shEMP2 in bladder cancer cell line RT4 cells in order to examine its effects on functions of cells like proliferation, cycle , apoptosis and metastasis. Conclusion, we can get cell proliferation of EMP2-overexprssed cells were decreased through arresting G2/M phase of cell cycle. On the other hand, knockdown of EMP2 in RT4 cells increased cell proliferation. Moreover, the ability of migration were decreased by EMP2 in both J82 and RT4 cells.

bladder cancer cell

Modulation of cellular survival by insulin-like growth factor binding protein-3

Gill, Zahidah Perveen

January 1999

No description available.

615.1

Apoptosis; Cancer; Cell death

Positive and negative regulation of receptor tyrosine kinase activity in normal and malignant cells

Epstein, Richard John

January 1995

No description available.

572.8

Tumours; Cancer; Cell signalling

Modulation of breast cancer tumour-initiating cells in cell lines and patient-derived tumour xenografts

Sandoval, José Luis Bico Rosa Gamero

January 2015

No description available.

Breast--Cancer ; Cell lines ; Xenografts

Cancer Protrusions on a Tightrope - Suspended Fiber Platform Reveals Protrusion Dynamics Independent of Cell Migration

Koons, Brian Joseph

04 June 2015

Indispensable to all modes of migration used during single cell metastasis, cytoplasmic protrusions are pivotal in surveying cells local surroundings which ultimately initiates migration of the cell body. Cancer cell migration is fairly well studied with the traditional focus on protrusion driven cell body displacement, while less is known on the role of protrusions in sensing cellular microenvironments. Here, we present a suspended and aligned fiber platform capable of high spatio-temporal imaging of protrusions capable of sensing fiber curvature contrasts independent of cell migration. By varying the diameter of suspended fibers, we are able to maintain cell migration along low curvature-large diameter (2μm) fibers, while solely allowing cells to sense, initiate, and mature protrusions on orthogonally deposited high curvature-low diameter (~100, 200 and 600 nm) fibers. Using highly aggressive breast MDA-MB-231 and brain glioblastoma DBTRG-05MG model systems, we find that MDA-MB-231 protrusion maturation dynamics are more sensitive to changes in fiber curvature and fibronectin ligand coating concentration compared to DBTRG-05MG. Furthermore, we find that vimentin intermediate filaments localize within 70% of mature protrusions, which normally form on larger diameter fibers. Additionally, protrusion lengths fluctuate continuously until the protrusion is either terminated or stabilized, and occasionally protrusions are observed to shed cytoplasmic fragments. Through manipulation of curvature contrasts, we demonstrate single protrusive hierarchical decomposition and coordination in zeroth (main), first and second order branches. The fiber curvature platform presented here uniquely allows cancer cells to sense nanofiber curvature contrasts, thus providing new mechanistic insights in protrusion initiation, maturation, and hierarchical coordination. / Master of Science

protrusion

nanofiber

curvature

cancer cell

Development of a micro-scale microtransfection technique exploiting reporter gene systems to analyse bcl-2 family promoter activity

Checkett, Jane Melinda

January 2000

No description available.

572.8