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Professor Eugenia PiddiniPhD, BSc, MSc

Professorial Research Fellow in Cell Biology

Eugenia Piddini

Professor Eugenia PiddiniPhD, BSc, MSc

Professorial Research Fellow in Cell Biology

Member of

Research interests

Cell competition in normal physiology and cancer

Can we learn how to exploit cell competition to design new therapies? Competitive interactions occur between cells in tissues, resulting in fit cells (winners) being able to colonise tissues as they kill and replace less-fit cells (losers).

We are exploring how cell competition could be harnessed for therapeutic strategies in regenerative medicine and cancer. Towards that aim, our goal is to understand the impact of cell competition on tissues and the mechanisms that cells use to compete. We combine two complementary approaches: studies in Drosophila to capture the complexity of these interactions in vivo, and mammalian cell culture to follow the dynamics of cell competition, including by live imaging.

Our recent work using the adult fly intestine shows that in adult homeostatic tissues, cells compete and healthy cells eliminate subfit cells by apoptosis. Conversely, we found that cell competition leads to healthy tissue expansion, by promoting stem cell proliferation and increased symmetric self-renewal. We believe that this could be exploited to promote stem cell repopulation in regenerative medicine therapies.

Selected publications:

• Kucinski I, Dinan M, Kolahgar G, Piddini E. (2017) Chronic activation of JNK JAK/STAT and oxidative stress signalling causes the loser cell status. Nature Communications Jul 26;8(1):136. DOI: 10.1038/s41467-017-00145-y.

• Balasooriya GI, Goschorska M, Piddini E, Rawlins EL. (2017) FGFR2 is required for airway basal cell self-renewal and terminal differentiation. Development May 1;144(9):1600-1606. DOI: 10.1242/dev.135681.

• Wagstaff L, Goschorska M, Kozyrska K, Duclos G, Kucinski I, Chessel A, Hampton-O’Neil L, Bradshaw CR, Allen GE, Rawlins EL, Silberzan P, Carazo Salas RE and Piddini E. (2016) Mechanical cell competition kills cells via induction of lethal p53 levels. Nature Communications 7:11373  DOI: 10.1038/NCOMMS11373.

• Suijkerbuijk SJE, Kolahgar G, Kucinski I, Piddini E. (2016) Cell competition drives the growth of intestinal adenomas in Drosophila. Current Biology 26(4):428-38. 

• Kolahgar G, Suijkerbuijk SJE, Poirier E, Mansour S, Simons BD and Piddini, E. (2015) Cell competition modifies adult stem cell and tissue population dynamics in a JAK-STAT dependent manner. Developmental Cell 34(3):297-309. Featured Article

•  Graml V, Studera X, Lawson JL, Chessel A, Geymonat M, Bortfeld-Miller M, Walter T, Wagstaff L, Piddini E, Carazo-Salas RE. (2014) A genomic multi-process survey of the machineries that control and link cell shape, microtubule organisation and cell cycle progression. Developmental Cell 31(2):227–239.

• Wagstaff L, Kolahgar G, and Piddini E. (2013) Competitive cell interactions in cancer: a cellular tug of war. Review. Trends in Cell Biology 23:160–167. 

• Vincent JP*, Kolahgar G, Gagliardi M and Piddini E*. (2011) Steep differences in Wingless signalling trigger Myc-independent competitive cell interactions. Developmental Cell  21:366-374.

*Corresponding authors

>> Full list of publications on PubMed


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Postal address:
Biomedical Sciences Building
University Walk
United Kingdom