Claudia Barros Lab – Neural Stem Cells and Brain Tumourigenesis Research

Research focus: Neural stem cell regulation in health and brain tumour development

Image shows Neural Stem Cells (green, GFP) inside the Drosophila brain, some about to divide (red, CyclinB). Courtesy of Claudia Barros Lab

Postnatal neurogenesis promotes brain plasticity and function. Intrinsic and extrinsic signals converge to promote appropriate postembryonic NSC development and maintenance. Restricting NSC potential is equally vital as the expansion of aberrant neural stem-like cells can lead to brain tumour growth.

Our main goal is to identify fundamental intrinsic Neural Stem Cell (NSC) properties and extrinsic niche signals regulating the pace of postembryonic neurogenesis in both health and in disease, such as upon neoplastic transformation. We use a well-known genetically tractable in vivo model – the fruit fly Drosophila brain – and translate findings into mammalian systems, as well as human brain samples.

Current projects in the laboratory address three major questions in NSC biology:

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Courtesy of Claudia Barros Lab

Q1: How do NSCs transit from a quiescent to a mitotically active state?

As in mammals, Drosophila postembryonic NSCs transit from quiescence to a mitotically active state to generate adult brain neurons and glia. The mechanisms underlying NSC mitotic reactivation remain largely unknown. We are screening and characterising the role of genes involved in this process using Drosophila, and aim at investigating conserved functions in mammalian systems.

Q2: How is the identity of different NSCs established?

It is becoming increasingly clear that the developing and adult mammalian brain harbours distinct NSC types. Yet, information about their molecular identity is currently at its infancy. The identification of different NSC types in the Drosophila larval brain, the evolutionary conservation of regulatory mechanisms, and the genetic tools available prompted us to use Drosophila as a model to identify novel NSC type-specific molecular properties that may be conserved in mammals.

Q3: What are the key mechanisms responsible for the transformation of normal NSC lineage cells into brain tumour-initiation cells?

Cells with NSC-like characteristics exist within brain tumours and can reform whole tumour masses. These so-called brain cancer stem cells are thought to originate from de-differentiation and/or transformation of normal NSC lineage cells. Using a Drosophila brain tumour model, we are screening and characterising genes potentially involved in molecular changes leading to brain tumour initiation and growth. We translate our findings into mammalian systems, including patient-derived brain cancer stem cells and human brain tumour tissues.

Prospective students or staff interested in joining our group, please contact Dr Claudia Barros .

Current lab members

Dr Claudia Barros

Associate Professor of Neuroscience/ Principal Investigator

claudia.barros@plymouth.ac.uk

Dr Jon Gil-Ranedo

Research Fellow in Cancer Stem Cell Neurobiology

jon.gil-ranedo@plymouth.ac.uk

Ella Harris

ResM student

Rosie Moore

PhD student

Sarah Robbins

PhD student

A main focus of our team is to understand how brain tumours form. That is the initial events transforming normal cells into brain tumour initiating cells and their development.

Dr Claudia Barros
Associate Professor of Neuroscience (Research)

�鶹��ý Brain Tumour Research Centre of Excellence

Our team is part of the �鶹��ý Brain Tumour Research Centre of Excellence sponsored by .

Lab celebrations

Feb 2024: View our new publication
Jan 2024: Congratulations to Nsikan Nsek for his PhD viva.
July 2023: Congratulations to Jamie Pugh for his PhD degree.
July 2021: Check our publication in collaboration with Dr Torsten Bossing on .
January 2021: Congratulations to Laura Rodriguez Diaz for her PhD viva.
January 2020: Congratulation to Eleanor Gonzaga for defending her PhD thesis.
June 2019: Check out our .
September 2017: Research to explore the development of deadly brain tumours.
July 2017: .
June 2017: Congratulations to Laura Rodriguez-Diaz for her third-place prize at the �鶹��ý three-minute PhD Thesis competition.

April 2017: Congratulations to Laura Rodriguez-Diaz for her first-place poster prize at the Annual �鶹��ý PSMD postgraduate research conference.
October 2016: Congratulations to Karolina Jaworek for her PhD degree.
October 2014: Funding for better understanding of neural stem cells.

Image shows neural stem cell lineages (green) in the Drosophila brain

Alumni and next destinations:

Jamie Pugh (PhD, 2023), Medical Writer, Oxford PharmaGenesis
Nsikan Nsek (PhD viva 2024), postdoctoral researcher, MRC Laboratory of Medical Sciences, London, UK
Laura Rodriguez Diaz (PhD 2016–20), Scientist, Theolytics Biotech, Oxford, UK
Eleanor Gonzaga (PhD 2013–16, 2018–19), Postdoctoral Research Associate, University of Cambridge, UK
Karolina Jaworek (PhD 2012–16), Postdoctoral Research Associate, University of Exeter, UK

Annabelle Mufti (2023-24), Paula Varney (2017–18), Joao Marques (2015–16), Eleni Costa (2015–16) and Oliver Warrington (2014–15) – one-year research undergraduates
Matthew Sherwood (Postgraduate research placement, May–September 2017), PhD student, University of Southampton, UK
Eleanor Gonzaga (MRes 2013–14, PhD �鶹��ý) and Helena Robinson (MRes 2013–14, PhD Bangor University UK)
Thomas Hughes (2015), Joshua Lewis (2016) and Chelsey Wiley (2017) – MSc students
Hubert Bieluczyk (Research Assistant, February–September 2018), Data Scientist, Legal & General, UK