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Louisa ForbesSenior Research Fellow

BSc(Hons)(Cant), PhD(UCL)

Email louisa.ashby@otago.ac.nz
Tel +64 3 244 1052

Research interests

Dr Louisa Ashby's research is focused on the biochemistry of the neutrophil, and in particular the enzymology of myeloperoxidase. This enzyme kills microbes by generating chlorine bleach, but during inflammation it can also damage healthy tissue.

She is also interested in the oxidation chemistry of myeloperoxidase in its microbicidal activity, and how to effectively inhibit the enzyme from causing oxidative stress in disease.

Publications

Ashby, L., Chan, L., Winterbourn, C., Woon, S.-T., Keating, P., Heller, R., … Chua, I., & Hsiao, K.-C. (2024). Phenotypic spectrum in a family with a novel RAC2 p.I21S dominant-activating mutation [Case report]. Clinical & Translational Immunology, 13, e1493. doi: 10.1002/cti2.1493 Journal - Research Other

Kettle, T., Dickerhof, N., Ford, D., Dilly, J. D., Ashby, L. V., Anderson, R. F., & Payne, R. J. (2023). Dioxygenation of tryptophan residues by superoxide and myeloperoxidase. Proceedings of the New Zealand Society for Biochemistry and Molecular Biology (NZSBMB) 50th Anniversary Conference. Retrieved from https://www.nzsbmb.org/conference Conference Contribution - Published proceedings: Abstract

Flannery, M., McKenzie, J., Ashby, L., & Kettle, T. (2023). Interactions between superoxide and myeloperoxidase inside phagocytic neutrophils. Proceedings of the New Zealand Society for Biochemistry and Molecular Biology (NZSBMB) 50th Anniversary Conference. Retrieved from https://www.nzsbmb.org/conference Conference Contribution - Published proceedings: Abstract

Paumann-Page, M., Ashby, L. V., Khalilova, I., Magon, N. J., Hofbauer, S., Paton, L. N., … Kettle, A. J. (2023). Hypochlorous acid inactivates myeloperoxidase inside phagocytosing neutrophils. Redox Biochemistry & Chemistry, 5-6, 100008. doi: 10.1016/j.rbc.2023.100008 Journal - Research Article

Ashby, L. V., Flannery, M., Chua, I., & Kettle, A. J. (2023). Measuring oxidant production in phagosomes to identify abnormalities in neutrophil function. Free Radical Biology & Medicine, 201(Suppl. 1), (pp. 13). doi: 10.1016/j.freeradbiomed.2023.03.072 Conference Contribution - Published proceedings: Abstract

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