果冻传媒麻豆社

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The role of CDCA2 molecule in neuroblastoma

Completed

Neuroblastoma is a cancer originating from the peripheral nervous system affecting infants and very young children. Although the major molecular alterations occurring in neuroblastoma have been discovered, clinicians and researchers are still struggling to find ways to inhibit the molecules responsible for tumour growth, especially the neuroblastoma-causing gene called MYCN.

An abnormal increase of MYCN, consequence of a pathological process called gene amplification, has been identified as the most important molecular alteration in neuroblastoma. Unfortunately, no laboratory has been successful, at least so far, in developing a drug that blocks MYCN cancerous activity.

In our laboratory, we have recently identified a link between MYCN and another molecule frequently increased in cancer CDCA2 (also called Repo-Man). In this proposal, we would like to validate a new therapeutic strategy for neuroblastoma based on the development of a molecular inhibitor or CDAC2. Since alterations of MYCN are common in other childhood malignancies of the nervous system, such as medulloblastoma and glioblastoma, this study could pave the way to new therapeutic avenues for children with cancer.


Meet the Principal Investigator(s) for the project

Professor Paola Vagnarelli
Professor Paola Vagnarelli - Qualifications: PhD in Genetics and Molecular Biology, University of Pavia, Italy  Degree in Biological Sciences, University of Pavia, Italy Professional experience 1993-1996  Postdoctoral Research Fellow, Dipartimento di Genetica e Microbiologia Universita’ di Pavia 1997    Visiting Scientist MRC Human Genetics Unit, Edinburgh 1998- 2012 Postdoctoral Research Fellow Wellcome Trust Centre for Cell Biology Edinburgh (Prof WC Earnshaw) 2102    Lecturer School of Health Sciences and Social Care, Department of Biosciences, Brunel University London    

Related Research Group(s)

dna

Genome Engineering and Maintenance - Diverse research network focused on molecular, cellular, organismal and computational aspects of genome biology.


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Project last modified 21/11/2023