Matrizes Extracelulares
Interesse da Investigação
Cells within all multicellular organisms are surrounded by a heterogeneous mixture of macromolecules, called the extracellular matrix (ECM). This matrix is synthesised and organised by the cells, providing them with a substrate to interact with and spaces to migrate through. Apart from this structural role, the ECM can also directly influence cell behaviour. It serves as a reservoir for growth factors that in turn influence cell behaviour and it also binds to specific ECM receptors (most commonly integrins) on the cell surface, thus directly affecting processes such as proliferation, differentiation, apoptosis, cytoskeletal remodelling and migration. Our group studies how cell-ECM interactions contribute to vertebrate somite formation and the development of one of the somite derivatives, namely skeletal muscle. Extensive cell rearrangements occur during the formation and differentiation of somites and, at the same time, the composition of the ECM surrounding somitic cells changes. Very little is known about what factors control this ECM turnover and even less is know about how this ever-changing ECM influences the differentiation state, the shape and the locomotive behaviour of the cell it interacts with. Moreover, although knowledge of how paracrine signalling and transcription factors control the patterning of somites is now advanced, almost nothing is known about how they regulate, and are regulated by, the ECM and ECM receptor mediated signalling.
Solveig Thorsteinsdóttir
Ph.D. in Developmental Biology
University of Utrecht, Utrecht
| Investigador Principal | |
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| Telefone | 21 750 0212 |
| Exensão | 212 |
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| Estado | External Group |
Publicações
Selected June (2010).
Sato T., Rocancourt D., Marques L., Thorsteinsdóttir S. & Buckingham M. (2010). A Pax3/Dmrt2/Myf5 regulatory cascade functions at the onset myogenesis. PLoS Genetics 6(4) :e1000897 Link
Martins G.G., Rifes P., Amândio R., Rodrigues G., Palmeirim I. & Thorsteinsdóttir S. (2009). Dynamic 3D cell rearrangements guided by a fibronectin matrix underlie somitogenesis PLoS ONE 4(10) :e7429 Link
Anderson C., Thorsteinsdóttir S. & Borycki A.-G. (2009). Sonic hedgehog-dependent synthesis of Laminin α1 controls basement membrane assembly in the myotome Development 136 :3495-3504
Fournier-Thibault C., Blavet C., Jarov A., Bajanca F., Thorsteinsdóttir S. & Duband J.-L. (2009). Sonic hedgehog regulates integrin activity, cadherin contacts and cell polarity to orchestrate neural tube morphogenesis Journal of Neuroscience 29 :12506-12520
Thorsteinsdóttir S., Rodrigues G. & Crespo E.G. (2009). Teaching and research on Developmental Biology in Portugal International Journal of Developmental Biology 53 :1235-1243
Rifes, P.*, Carvalho, L.*, Lopes, C., Andrade, R., Rodrigues, G., Palmeirim, I. & Thorsteinsdóttir, S. (2007). Redefining the role of ectoderm in somitogenesis: a player in the formation of the fibronectin matrix of presomitic mesoderm Development 134 :3155-3165
Pascoal, S., Carvalho, C., Rodriguez-León, J., Delphini, M.C., Duprez, D., Thorsteinsdóttir, S. and Palmeirim, I. (2007). A molecular clock operates during chick autopod proximal-distal outgrowth Journal of Molecular Biology 368 :303-309
Martins, G.G. and Kolega, J. (2006). Endothelial cell protrusion and migration in three-dimensional collagen matrices Cell Motility and the Cytoskeleton 63 :101-115
Bajanca, F., Luz M., Raymond, K., Martins, G.G., Sonnenberg, A., Tajbakhsh, S., Buckingham, M. and Thorsteinsdóttir, S. (2006). Integrin α6β1-laminin interactions regulate early myotome formation in the mouse embryo Development 133 :1635-1644
Cachaço, A.S., Pereira, C.S., Pardal, R.G, Bajanca, F. & Thorsteinsdóttir, S. (2005). The integrin repertoire on myogenic cells changes during the course of primary myogenesis in the mouse Developmental Dynamics 232 :1069-1078
