Characterisation of calcium channels in human immune cells

Wajdner, Hannah

January 2015

No description available.

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The molecular & cellular interactions of wound-induced hydrogen peroxide in the regenerating larval zebrafish tail

McCathie, Gareth

January 2017

The ability of humans to heal from wounding is fairly limited; whilst certain organs such as the blood and skin have an in-built capacity for homeostatic regeneration to maintain physiological function, we are generally poor at reparative regeneration following injury. Zebrafish, however, have a much greater capacity for healing and are able to restore both form and function in multiple organs when damaged. This trait is shared between multiple species and relies on the reactivation of conserved developmental pathways. The precise interactions that determine whether a wound regenerates or not are currently not clear, and more work must be done to understand the molecular and cellular interactions which mediate the regenerative response. This could identify the limiting steps in our own wound-healing processes that we are able to manipulate in order to induce regeneration and improve clinical outcomes and quality of life for millions of patients including amputees, paralysed trauma victims, and sufferers of stroke or heart failure. Here, I present evidence that wound-induced hydrogen peroxide (H₂O₂) is required for the initiation of regeneration in the larval zebrafish tail via the activation of the Hedgehog (Hh), and subsequently the Wnt and FGF pathways. H₂O₂ induces activation of SFKs in the epithelial cells at the wound margin which trigger the extrusion of the severed notochord following tail amputation. This physical extrusion is necessary to induce upregulation of the Hh ligands Shh and Ihh in the notochord cells which stimulates Hh pathway activation in the surrounding tissue in a paracrine fashion, acting as a redox-sensitive central organiser. This pro-regenerative effect of H₂O₂ appears to be independent of its role as a pro-inflammatory signal, and shows that H₂O₂ exerts control over multiple parallel wound responses. Continued work will be required to characterise the full extent of regulatory control that this promiscuous wound signal possesses.

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Targeting SNARE proteins and the trafficking of sodium channels in inflammatory pain

Alves Simoes, Marta

January 2017

No description available.

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Developing neuronal blockers for long-lasting pain relief

Bresnahan, Rebecca

January 2018

No description available.

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Building humanised models of Staphylococcus aureus infection

Buchan, Kyle David

January 2018

No description available.

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Regulation of inflammation by differential neutrophil migration patterns in zebrafish

Isles, Hannah

January 2018

No description available.

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Dystroglycan in the nucleus and the cell cycle

Jacobs, Laura

January 2017

No description available.

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Analysis of the mechanism of DNA damage and replication arrest-induced histone mRNA decay

Panomwan, Pornpen

January 2017

No description available.

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A survey of axonal transport function and motor behaviour in Drosophila models of amyotrophic lateral sclerosis

Baldwin, Katie

January 2015

No description available.

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Elucidating the function of STX19 and SNAP29 in post-Golgi trafficking

Ampah, Khamal Kwesi

January 2016

No description available.

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