Dr Anne-Gaelle Borycki
School of Biosciences
Senior Lecturer
Full contact details
School of Biosciences
D19
Firth Court
Western Bank
91Ö±²¥
S10 2TN
- Profile
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- 2011-present: Senior Lecturer, School of Biosciences
- 2000-2010: Lecturer, Department of Biomedical Science
- 1994-2000: Post-doctoral Fellow at the University of Pennsylvania Medical School in Philadelphia - USA (Advisor: Prof: Charles P. Emerson, Jr)
- 1992-1994: Post-doctoral Fellow at Gustave Roussy Institute for Cancer Research in Villejuif - France (Advisor: Dr. Serge A. Leibovitch)
- 1992: Ph.D in Molecular Biology from University of Science, Paris - France (Supervisor: Dr. Serge A. Leibovitch)
- 1987: M.Sc in Biochemistry from University of Science, Paris - France
- 1986: B.Sc. in Biochemistry from University of Science, Paris - France
- Research interests
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The Borycki lab uses primarily mouse genetics to study how the extra-cellular matrix, Sonic hedgehog signaling and cellular structures such as the primary cilum contribute to the regulation of satellite cell activity and to skeletal muscle regeneration.
Satellite cell biology and skeletal muscle regeneration
Satellite cells are skeletal muscle-specific stem cells that reside in a sub-laminal position at the periphery of myofibres. Satellite cells are normally quiescent, but become activated and expand rapidly to produce new muscle progenitor cells that differentiate and fuse to damaged fibres to repair diseased or injured muscles. Therefore, satellite cells hold the promise to be harnessed for the treatment of muscular dystrophies or age-related sarcopenia. However, the use of satellite cells for therapeutic purpose requires prior knowledge of their biology.
Research in our lab focuses on several aspects of satellite cell biology:
- The satellite cell niche, and in particular the role played by the extra-cellular matrix and its receptors in the control of adult myogenesis. We have recently demonstrated a remodelling of the extra-cellular matrix at the satellite cell niche during muscle regeneration. Current research aims at translating these findings to develop better in vitro conditions for the expansion of satellite cells.
- The signalling events that regulate satellite cell behaviour; We have uncovered a role for Sonic hedgehog signalling in the control of satellite cell progression through the cell cycle during muscle regeneration. Future work will focus on the implications of these findings in muscle tumours.
- The requirement for primary cilia for cell signalling and for mechanotransduction in injured muscles.
To investigate these issues, we use a combination of ex-vivo and in-vivo approaches in the mouse, as well as mouse genetic tools such as conditional knockout, transgenic reporter, and gain-of-function mutant lines.
Our current external collaborations include:
Peter Zammit (UCL), Jennifer Morgan (UCL), Paolo de Coppi (UCL), James Briscoe (Crick Institute), Olivier Lefebvre (Strasbourg).
- Publications
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Show: Featured publications All publications
Featured publications
Journal articles
All publications
Journal articles
- . Nature Communications, 9.
- . Matrix Biology, 62, 58-74.
- . Stem Cell Reports, 6(6), 788-805.
- . Cell Adhesion and Migration, 7(1), 72-81.
- . Genes and Development, 26(18), 2103-2117.
- Distinct spatiotemporal roles of hedgehog signalling during chick and mouse cranial base and axial skeleton development. Developmental Biology.
- . Development, 138(10), 1893-1902.
- . Molecular and Cellular Biology, 31(7), 1432-1443.
- . Developmental Dynamics, 239(4), 1234-1245.
- . Development, 136(20), 3495-3504.
- . Dev Dyn, 236(9), 2627-2635.
- . Developmental Dynamics, 235(2), 490-495.
- . Development, 132(2), 345-357.
- . Gene Expression Patterns, 5(6), 817-823.
- Shh and Wnt signaling pathways converge to control Gli gene activation in avian somites.. Development, 127(10), 2075-2087.
- . Methods in molecular biology (Clifton, N.J.), 137, 351-357.
- . Current Topics in Developmental Biology, 48(C), 165-224.
- Pax3 functions in cell survival and in pax7 regulation. Development, 126(8), 1665-1674.
- Sonic hedgehog controls epaxial muscle determination through Myf5 activation. Development, 126(18), 4053-4063.
- . Developmental Dynamics, 216(2), 96-112.
- Control of somite patterning by Sonic hedgehog and its downstream signal response genes. Development, 125(4), 777-790.
- . Developmental Biology, 185(2), 185-200.
- . Current Biology, 7(10).
- Repression of the CSF-1 receptor (c-fms proto-oncogene product) by antisense transfection induces G1-growth arrest in L6α1 rat myoblasts. Oncogene, 10(9), 1799-1811.
- . Experimental Cell Research, 218(1), 213-222.
- . Biochim Biophys Acta, 1174(2), 143-152.
- . Growth Factors, 6(4), 209-218.
- . Growth Factors, 6(3), 209-218.
- . Annals of the New York Academy of Sciences, 567(1), 187-207.
- Expression of CSF-1-receptor-related proteins in muscular stem cells. Oncogene Research, 4(2), 157-162.
Chapters
Conference proceedings papers
- . MECHANISMS OF DEVELOPMENT, Vol. 126 (pp S315-S315)
- . MECHANISMS OF DEVELOPMENT, Vol. 126 (pp S196-S197)
Preprints
- Grants
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- Funding
- Wellcome Trust
- BBSRC
- MRC
- European Union
- AFM (Association Francaise contre les Myopathies)
- Teaching activities
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Undergraduate and postgraduate taught modules
Undergraduate:
- BMS109-108 Physiology with Pharmacology
- BMS110 Research Topics in Biomedicine
- BMS242/243 Principles of Developmental Biology (Co-ordinator)
- Level 3 Practical and Dissertation Modules
Postgraduate:
- BMS6053 Critical Analysis of Current Science (Co-ordinator)
- Level 4 Tutor
- Professional activities and memberships
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- Member of the EU-funded Network of Excellence "Cells into Organs"
- Member and Research Program coordinator of the EU-funded Network of Excellence "MYORES"
- Panel member since 2007, Muscle Biology Committee, AFM (Association Francaise contre les Myopathies)
- PhD Studentship Opportunities
We advertise PhD opportunities (Funded or Self-Funded) on FindAPhD.com
For further information and details of other projects on offer, please see the department PhD Opportunities page: