Terry A. Gray scite author profile

Clinical studies have defined the core 'genetic blueprint' of a cancer cell, but this information does not necessarily predict the cancer phenotype. Signalling hubs that mediate such phenotype have been identified largely using OMICS platforms that measure dynamic molecular changes within the cancer cell landscape. The pro-oncogenic protein anterior gradient 2 (AGR2) is a case in point; AGR2 has been shown using a range of expression platforms to be involved in asthma, inflammatory bowel disease, cell transformation, cancer drug resistance and metastatic growth. AGR2 protein is also highly overexpressed in a diverse range of human cancers and can be secreted and detected in extracellular fluids, thus representing a compelling pro-oncogenic signalling intermediate in human cancer. AGR2 belongs to the protein disulphide isomerase family with all the key features of an endoplasmic reticulum-resident protein-this gives clues into how it might function as an oncoprotein through the regulation of protein folding, maturation and secretion that can drive metastatic cell growth. In this review, we will describe the known aspects of AGR2 molecular biology, including gene structure and regulation, emerging protein interaction networks and how its subcellular localization mediates its biological functions. We will finally review the cases of AGR2 expression in human cancers, the pathophysiological consequences of AGR2 overexpression, its potential role as a tumour biomarker that predicts the response to therapy and how the AGR2 pathway might form the basis for drug discovery programmes aimed at targeting protein folding/maturation pathways that mediate secretion and metastasis.

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Anterior Gradient-3: A novel biomarker for ovarian cancer that mediates cisplatin resistance in xenograft models

Gray

MacLaine

Michie

et al. 2012

Journal of Immunological Methods

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Development of a fluorescent monoclonal antibody‐based assay to measure the allosteric effects of synthetic peptides on self‐oligomerization of AGR2 protein

et al. 2013

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Many regulatory proteins are homo-oligomeric and designing assays that measure selfassembly will provide novel approaches to study protein allostery and screen for novel small molecule modulators of protein interactions. We present an assay to begin to define the biochemical determinants that regulate dimerization of the cancer-associated oncoprotein AGR2. A two sitesandwich microtiter assay ( 2S MTA) was designed using a DyLight800-labeled monoclonal antibody that binds to an epitope in AGR2 to screen for synthetic self-peptides that might regulate dimer stability. Peptides derived from the intrinsically disordered N-terminal region of AGR2 increase in trans oligomer stability as defined using the 2S MTA assay. A DSS-crosslinking assay that traps the AGR2 dimer through K95-K95 adducts confirmed that D45-AGR2 was a more stable dimer using denaturing gel electrophoresis. A titration of wt-AGR2, D45-AGR2 (more stable dimer), and monomeric AGR2 E60A revealed that D45-AGR2 was more active in binding to Reptin than either wt-AGR2 or the AGR2 E60A mutant. Our data have defined a functional role for the AGR2 dimer in the binding to its most well characterized interacting protein, Reptin. The ability to regulate AGR2 oligomerization in trans opens the possibility for developing small molecules that regulate its' biochemical activity as potential cancer therapeutics. The data also highlight the utility of this oligomerization assay to screen chemical libraries for ligands that could regulate AGR2 dimer stability and its' oncogenic potential.

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Engineering a synthetic cell panel to identify signalling components reprogrammed by the cell growth regulator anterior gradient-2

et al. 2014

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AGR2 forms an ER-resident signalling axis in cell development, limb regeneration, and in human diseases like asthma and cancer, yet molecular mechanisms underlying its effects remain largely undefined. A single integrated Flippase recombination target (FRT) site was engineered within the AGR2-non expressing A375 cell line to allow integration of a constitutively expressed AGR2 alleles. This allows an analysis of how AGR2 protein expression reprogrammes intracellular signalling. The engineered expression of AGR2 had marginal impact on global transcription signalling, compared to its paralogue AGR3. However, expression of AGR2 had a significant impact on remodelling the cellular proteome using a triple-labelled SILAC protocol. 29 045 peptides were detected for the identification and relative quantitation of 3003 proteins across the experimental conditions. Ingenuity Pathway annotation highlighted the dominant pathway suppressed by wt-AGR2 was the p53-signalling axis. DNA damage induced p53 stabilization and p21 induction by cisplatin treatment confirmed that wt-AGR2 expression suppressed the p53 pathway. The furthest outlying SILAC protein expression change induced by AGR2 was the anti-viral and cell cycle regulator tumour susceptibility gene 101 (TSG101), confirmed by immunoblotting. Transfection of TSG101 into MCF7 (AGR2+, oestrogen dependent), A549 (AGR2+, oestrogen independent) or A375 (AGR2-) cells confirmed that TSG101 attenuates p53 signalling. These systems wide screens suggest that the most dominant landscape reprogrammed by low levels of AGR2 protein is the cellular proteome, rather than the transcriptome, and provide focus for evaluating its role in proteostasis.

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Terry A. Gray

Emerging roles for the pro-oncogenic anterior gradient-2 in cancer development

Anterior Gradient-3: A novel biomarker for ovarian cancer that mediates cisplatin resistance in xenograft models

Development of a fluorescent monoclonal antibody‐based assay to measure the allosteric effects of synthetic peptides on self‐oligomerization of AGR2 protein

Engineering a synthetic cell panel to identify signalling components reprogrammed by the cell growth regulator anterior gradient-2

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