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Dive into the research topics where Andrew B.J. Prowse is active.

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Featured researches published by Andrew B.J. Prowse.


Stem Cell Research | 2011

Stem cell integrins: Implications for ex-vivo culture and cellular therapies

Andrew B.J. Prowse; Fenny Chong; Peter P. Gray; Trent P. Munro

Use of stem cells, whether adult or embryonic for clinical applications to treat diseases such as Parkinsons, macular degeneration or Type I diabetes will require a homogenous population of mature, terminally differentiated cells. A current area of intense interest is the development of defined surfaces for stem cell derivation, maintenance, proliferation and subsequent differentiation, which are capable of replicating the complex cellular environment existing in vivo. During development many cellular cues result from integrin signalling induced by the local extracellular matrix. There are 24 known integrin heterodimers comprised of one of 18 α subunits and one of 8 β subunits and these have a diverse range of functions mediating cell-cell adhesion, growth factor receptor responses and intracellular signalling cascades for cell migration, differentiation, survival and proliferation. We discuss here a brief summary of defined conditions for human embryonic stem cell culture together with a description of integrin function and signalling pathways. The importance of integrin expression during development is highlighted as critical for lineage specific cell function and how consideration of the integrin expression profile should be made while differentiating stem cells for use in therapy. In addition this review summarises the known integrin expression profiles for human embryonic stem cells and 3 common adult stem cell types: mesenchymal, haematopoietic and neural. We then outline some of the possible technologies available for investigating cell-extracellular matrix interactions and subsequent integrin mediated cell responses.


Biomaterials | 2010

Long term culture of human embryonic stem cells on recombinant vitronectin in ascorbate free media.

Andrew B.J. Prowse; Michael R. Doran; Justin J. Cooper-White; Fenny Chong; Trent P. Munro; Jane Fitzpatrick; Tung-Liang Chung; David N. Haylock; Peter P. Gray; Ernst J. Wolvetang

Human embryonic stem cells (hESC) are expected to provide revolutionary therapeutic applications and drug discovery technologies. In order for this to be achieved a reproducible, defined animal component free culture system is required for the scale-up production of undifferentiated hESC. In this work we have investigated the applicability of a recombinantly produced domain of human vitronectin as an extracellular matrix alternative to the common standards Geltrex or Matrigel. In addition we have validated an ascorbate free media capable of supporting CD30(low) populations of hESC through a multi-factorial analysis of bFGF and Activin A. The recombinant vitronectin domain combined with the ascorbate free media were capable of supporting 3 cell lines, MEL1, MEL2 and hES3 for 10 or more passages while maintaining hESC pluripotency markers and differentiation capacity. The culture method outlined here provides a platform for future investigation into growth factor and extracellular matrix effects on hESC maintenance prior to bioreactor scale-up.


PLOS ONE | 2012

Analysis of Mitochondrial Function and Localisation during Human Embryonic Stem Cell Differentiation In Vitro

Andrew B.J. Prowse; Fenny Chong; David A. Elliott; Andrew G. Elefanty; Edouard G. Stanley; Peter P. Gray; Trent P. Munro; Geoffrey W. Osborne

Human embryonic stem cell (hESC) derivatives show promise as viable cell therapy options for multiple disorders in different tissues. Recent advances in stem cell biology have lead to the reliable production and detailed molecular characterisation of a range of cell-types. However, the role of mitochondria during differentiation has yet to be fully elucidated. Mitochondria mediate a cells response to altered energy requirements (e.g. cardiomyocyte contraction) and, as such, the mitochondrial phenotype is likely to change during the dynamic process of hESC differentiation. We demonstrate that manipulating mitochondrial biogenesis alters mesendoderm commitment. To investigate mitochondrial localisation during early lineage specification of hESCs we developed a mitochondrial reporter line, KMEL2, in which sequences encoding the green fluorescent protein (GFP) are targeted to the mitochondria. Differentiation of KMEL2 lines into the three germ layers showed that the mitochondria in these differentiated progeny are GFP positive. Therefore, KMEL2 hESCs facilitate the study of mitochondria in a range of cell types and, importantly, permit real-time analysis of mitochondria via the GFP tag.


Biomacromolecules | 2014

Thermoresponsive worms for expansion and release of human embryonic stem cells.

Xiaoli Chen; Andrew B.J. Prowse; Zhongfan Jia; Helena Tellier; Trent P. Munro; Peter P. Gray; Michael J. Monteiro

The development of robust suspension cultures of human embryonic stem cells (hESCs) without the use of cell membrane disrupting enzymes or inhibitors is critical for future clinical applications in regenerative medicine. We have achieved this by using long, flexible, and thermoresponsive polymer worms decorated with a recombinant vitronectin subdomain that bridge hESCs, aiding in hESCs natural ability to form embryoid bodies (EBs) and satisfying their inherent requirement for cell-cell and cell-extracellular matrix contact. When the EBs reached an optimal upper size where cytokine and nutrient penetration becomes limiting, these long and flexible polymer worms facilitated EB breakdown via a temperature shift from 37 to 25 °C. The thermoresponsive nature of the worms enabled a cyclical dissociation and propagation of the cells. Repeating the process for three cycles (over eighteen days) provided a >30-fold expansion in cell number while maintaining pluripotency, thereby providing a simple, nondestructive process for the 3D expansion of hESC.


Stem Cells and Development | 2009

Multiplexed staining of live human embryonic stem cells for flow cytometric analysis of pluripotency markers.

Andrew B.J. Prowse; John Wilson; Geoffrey W. Osborne; Peter P. Gray; Ernst J. Wolvetang

Use of flow cytometry to detect pluripotency markers on or in human embryonic stem cells (hESCs) is a powerful analytical tool. However, current staining methodologies for high-content analysis of large numbers of samples utilize large quantities of primary and secondary antibodies, are time consuming, and may suffer from sample-to-sample variability. To circumvent these issues, we have developed a reproducible, quick, and cost-effective method of staining 12 populations of hESCs grown under different conditions by labeling each with a unique optical signature (UOS). The UOS for each population is achieved by combining different combinations and concentrations of 3 esterase activated, live cell, fluorescent indicators. The individually stained populations are then combined and an aliquot of the hESC samples stained for pluripotency or other markers of interest in the far-red region of the spectrum. Based on the unique fluorescent intensity and emission wavelengths of each population, the characteristics of each population are decoded in software after flow cytometric analysis. We have validated both our staining procedure and decoding methods by mixing populations of differentiated and undifferentiated hESCs and successfully quantifying differences in the pluripotency markers SSEA-4, Tra-1-60, GCTM2, and CD9 between the 12 different populations. Our multiplexing approach allows for the addition of internal controls and reduces sample-to-sample variation, while offering a significant reduction in time and reagent consumption. We anticipate that this method will be of great benefit to laboratories conducting high-content flow cytometric analysis of hESCs.


BioTechniques | 2009

A rapid, cost-effective method for counting human embryonic stem cell numbers as clumps

Andrew B.J. Prowse; Ernst J. Wolvetang; Peter P. Gray

Enumeration of human embryonic stem cell (hESC) numbers through single cell digestion can be time consuming especially in high-throughput or multi-factorial analysis containing 50+ samples. We have developed a reproducible, cost-effective method of counting hESCs in clumps circumventing the need to manually dissociate each sample to single cells. The method is based on the DNA binding capacity of propidium iodide (PI) and subsequent fluorescent signal detection. Standard curves generated for cell numbers versus PI fluorescence as single cells or clumps showed an almost identical relationship in the lines of best fit. The reproducibility of the assay was first demonstrated by seeding hESC clumps at specific cell densities ranging 0.05[#x02013]2x105 cells/well and then secondly by using the assay to count cell numbers after different growth conditions. Validation tests showed that consistent seeding densities are important in maintaining undifferentiated hESC culture and that the assay can be used to estimate relative cell numbers and growth curves with high accuracy.


Tissue Engineering Part C-methods | 2017

Methods for Expansion of 3D cultures of Human Embryonic Stem Cells using a Thermoresponsive Polymer

Xiaoli Chen; Linda Harkness; Zhongfan Jia; Andrew B.J. Prowse; Michael J. Monteiro; Peter P. Gray

Human pluripotent stem cells (hPSCs) are viewed as promising candidates for applications in regenerative medicine and therapy due to their proliferative and pluripotent properties. However, obtaining clinically significant numbers of hPSCs remains a limiting factor and impedes their use in therapeutic applications. Conventionally, hPSCs are cultured on two-dimensional surfaces coated with a suitable substrate, such as Matrigel™. This method, however, requires a large surface area to generate sufficient cell numbers to meet clinical needs and is therefore impractical as a manufacturing platform for cell expansion. In addition, the use of enzymes for cell detachment and small molecule inhibitors to increase plating efficiency may impact future cell behavior when used for routine subculturing. In this study, we describe a protocol to generate and maintain hPSC aggregates in a three-dimensional suspension culture by utilizing thermoresponsive nanobridges. The property of the polymer used in the nanobridges enables passaging and expansion through a temperature change in combination with mechanically applied shear to dissociate aggregates; thus, we eliminate the need of enzymes or small molecules for cell dissociation and viability, respectively. Utilizing this platform, maintenance of human embryonic stem cells for three continuous passages demonstrated high expression levels in key pluripotent markers.


Proteomics | 2005

A proteome analysis of conditioned media from human neonatal fibroblasts used in the maintenance of human embryonic stem cells

Andrew B.J. Prowse; Leon R. McQuade; Katherine J. Bryant; Derek Van Dyk; Bernard E. Tuch; Peter P. Gray


Journal of Proteome Research | 2007

Identification of Potential Pluripotency Determinants for Human Embryonic Stem Cells Following Proteomic Analysis of Human and Mouse Fibroblast Conditioned Media

Andrew B.J. Prowse; Leon R. McQuade; Katherine J. Bryant; Helder Marçal; Peter P. Gray


Biomaterials | 2010

Defined high protein content surfaces for stem cell culture

Michael R. Doran; Jessica E. Frith; Andrew B.J. Prowse; Jane Fitzpatrick; Ernst J. Wolvetang; Trent P. Munro; Peter P. Gray; Justin J. Cooper-White

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Peter P. Gray

University of Queensland

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Trent P. Munro

University of Queensland

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Fenny Chong

University of Queensland

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Michael R. Doran

Queensland University of Technology

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Katherine J. Bryant

University of New South Wales

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Leon R. McQuade

University of New South Wales

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