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The role of p90 ribosomal S6 kinases (RSKs) in Steroid signalling
Ryan Cronin
A thesis submitted for the title of Master of Science (by Dissertation)
School of Biological Sciences
University of Essex
Examination March 2019
Abstract
The p90 ribosomal S6 kinases (RSKs) are a family of serine/threonine kinases consisting of
four isoforms (RSK1-4), which regulate key cellular processes including cell cycle,
proliferation, motility and survival. Among the several transcription factors targeted by RSKs,
several studies have identified the Steroid Receptors (SRs) as substrates of the RSKs. SRs
are a subfamily of the nuclear receptor superfamily consisting of five proteins (androgen,
glucocorticoid, estrogen, progesterone and mineralocorticoid receptors). These proteins
regulate gene expression thus are involved in crucial biological processes, including organ
development and maintenance, the immune system, neuroprotection and metabolic
homeostasis. Importantly, SRs are the main drivers of hormone driven cancers. Therefore,
we hypothesised that the RSKs could play an important part in SR signalling within hormone
driven cancer development and progression.
This was investigated using recombinant DNA techniques to incorporate the RSKs genes
into the mammalian expression vector PCDNA 3.1(+) and to produce phospho-mimetic
mutants. Luciferase assays were used to determine optimal hormone and DNA
concentrations, the role of RSKs on SR activity, the activity of the endogenous MAPK
pathway and the significance of phosphorylation state. The PMA experiments indicated that
in most cases PMA does not induce a significant change to RSK activity, thus the
endogenous MAPK pathway is sufficiently active. The mutant experiments suggested that
the phospho-mimetic mutation used does not cause constitutive activation of the RSKs.
Together considering all experiments it was illustrated that the RSKs have differential effects
on SR signalling. All the RSKs increased AR and GR activity despite some contradictions
within the data. RSK4 significantly decreased ERĪ± activity and RSK3 significantly increased
PR activity.
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Statement of Originality
I declare that the work within this document is of my own unless stated within the text.
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Acknowledgements
Firstly, I would like to thank my primary supervisor Dr. Filippo Prischi for his support from my
undergraduate degree all the way through to the end of my MSD and in securing me a PhD
position under his supervision for the next three years. He has helped me further my
laboratory skills and broaden my knowledge within biochemistry whilst simultaneously
enriching my passion for science. I would also like to thank my secondary supervisor Dr.
Greg Brooke for his support throughout my MSD where he has helped me broaden my
scientific field, deepen my understanding and develop my laboratory techniques within
cancer biology. I would also like to thank the members of the Prischi lab group for their moral
and scientific support throughout day to day life in the lab. I would also like to thank the
Brooke group members for their support in the day to day life in the lab. Lastly, I would like to
thank my family and friends for their continued support in my pursuit of a scientific career
and encouraging me to keep motivated throughout.
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