Joanna D. Wardyn scite author profile

In most tissues, cells are exposed to frequent changes in levels of oxidative stress and inflammation. Nuclear factor (erythroid-derived 2)-like 2 (Nrf2) and nuclear factor-κB (NF-κB) are the two key transcription factors that regulate cellular responses to oxidative stress and inflammation respectively. Pharmacological and genetic studies suggest that there is functional cross-talk between these two important pathways. The absence of Nrf2 can exacerbate NF-κB activity leading to increased cytokine production, whereas NF-κB can modulate Nrf2 transcription and activity, having both positive and negative effects on the target gene expression. This review focuses on the potentially complex molecular mechanisms that link the Nrf2 and NF-κB pathways and the importance of designing more effective therapeutic strategies to prevent or treat a broad range of neurological disorders.

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Quantitative imaging of RAD51 expression as a marker of platinum resistance in ovarian cancer

Hoppe

Jaynes

Wardyn

et al. 2021

EMBO Mol Med

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Early relapse after platinum chemotherapy in epithelial ovarian cancer (EOC) portends poor survival. A‐priori identification of platinum resistance is therefore crucial to improve on standard first‐line carboplatin–paclitaxel treatment. The DNA repair pathway homologous recombination (HR) repairs platinum‐induced damage, and the HR recombinase RAD51 is overexpressed in cancer. We therefore designed a REMARK‐compliant study of pre‐treatment RAD51 expression in EOC, using fluorescent quantitative immunohistochemistry (qIHC) to overcome challenges in quantitation of protein expression in situ. In a discovery cohort (n = 284), RAD51‐High tumours had shorter progression‐free and overall survival compared to RAD51‐Low cases in univariate and multivariate analyses. The association of RAD51 with relapse/survival was validated in a carboplatin monotherapy SCOTROC4 clinical trial cohort (n = 264) and was predominantly noted in HR‐proficient cancers (Myriad HRDscore < 42). Interestingly, overexpression of RAD51 modified expression of immune‐regulatory pathways in vitro, while RAD51‐High tumours showed exclusion of cytotoxic T cells in situ. Our findings highlight RAD51 expression as a determinant of platinum resistance and suggest possible roles for therapy to overcome immune exclusion in RAD51‐High EOC. The qIHC approach is generalizable to other proteins with a continuum instead of discrete/bimodal expression.

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Generation and characterization of a lysosomally targeted, genetically encoded Ca2+-sensor

McCue

Wardyn

Burgoyne

et al. 2012

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Distinct spatiotemporal Ca2+ signalling events regulate fundamental aspects of eukaryotic cell physiology. Complex Ca2+ signals can be driven by release of Ca2+ from intracellular organelles that sequester Ca2+ such as the ER (endoplasmic reticulum) or through the opening of Ca2+-permeable channels in the plasma membrane and influx of extracellular Ca2+. Late endocytic pathway compartments including late-endosomes and lysosomes have recently been observed to sequester Ca2+ to levels comparable with those found within the ER lumen. These organelles harbour ligand-gated Ca2+-release channels and evidence indicates that they can operate as Ca2+-signalling platforms. Lysosomes sequester Ca2+ to a greater extent than any other endocytic compartment, and signalling from this organelle has been postulated to provide ‘trigger’ release events that can subsequently elicit more extensive Ca2+ signals from stores including the ER. In order to investigate lysosomal-specific Ca2+ signalling a simple method for measuring lysosomal Ca2+ release is essential. In the present study we describe the generation and characterization of a genetically encoded, lysosomally targeted, cameleon sensor which is capable of registering specific Ca2+ release in response to extracellular agonists and intracellular second messengers. This probe represents a novel tool that will permit detailed investigations examining the impact of lysosomal Ca2+ handling on cellular physiology.

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Low cost production of 3D-printed devices and electrostimulation chambers for the culture of primary neurons

Wardyn

Sanderson

Swan

et al. 2015

Journal of Neuroscience Methods

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Joanna D. Wardyn

Dissecting molecular cross-talk between Nrf2 and NF-κB response pathways

Quantitative imaging of RAD51 expression as a marker of platinum resistance in ovarian cancer

Generation and characterization of a lysosomally targeted, genetically encoded Ca2+-sensor

Low cost production of 3D-printed devices and electrostimulation chambers for the culture of primary neurons

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