Analysis of combinatorial variability reveals selective accumulation of the fibronectin type III domains B and D of tenascin-C in injured brain
Analysis of combinatorial variability reveals selective accumulation of the fibronectin type III domains B and D of tenascin-C in injured brain
Tenascin-C (Tnc) is a multimodular extracellular matrix glycoprotein that is markedly upregulated in CNS injuries where it is primarily secreted by reactive astrocytes. Different Tnc isoforms can be generated by the insertion of variable combinations of one to seven (in rats) alternatively spliced distinct fibronectin type III (FnIII) domains to the smallest variant. Each spliced FnIII repeat mediates specific actions on neurite outgrowth, neuron migration or adhesion. Hence, different Tnc isoforms might differentially influence CNS repair. We explored the expression pattern of Tnc variants after cortical lesions and after treatment of astrocytes with various cytokines. Using RT-PCR, we observed a strong upregulation of Tnc transcripts containing the spliced FnIII domains B or D in injured tissue at 2-4 days post-lesion (dpl). Looking at specific combinations, we showed a dramatic increase of Tnc isoforms harboring the neurite outgrowth-promoting BD repeat with both the B and D domains being adjacent to each other. Isoforms containing only the axon growth-stimulating spliced domain D were also dramatically enhanced after injury. Injury-induced increase of Tnc proteins comprising the domain D was confirmed by Western Blotting and immunostaining of cortical lesions. In contrast, the FnIII modules C and AD1 were weakly modulated after injury. The growth cone repulsive A1A2A4 domains were poorly expressed in normal and injured tissue but the smallest isoform, which is also repellant, was highly expressed after injury. Expression of the shortest Tnc isoform and of variants containing B, D or BD, was strongly upregulated in cultured astrocytes after TGFbeta1 treatment, suggesting that TGFbeta1 could mediate, at least in part, the injury-induced upregulation of these isoforms. We identified complex injury-induced differential regulations of Tnc isoforms that may well influence axonal regeneration and repair processes in the damaged CNS.
cerebral cortex, CNS injury, glial scar, astrocyte, tensacin, fibronectin type III domain, extracellular matrix, regeneration TGFbeta1, cytokine
60-73
Dobbertin, Alexandre
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Czvitkovich, Stefan
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Theocharidis, Ursula
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Garwood, Jeremy
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Andrews, Melissa R.
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Properzi, Francesca
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Lin, Rachel
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Fawcett, James W.
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Faissner, Andreas
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September 2010
Dobbertin, Alexandre
c7eab898-876d-4262-b40d-24a1d67e42f8
Czvitkovich, Stefan
c6f7c202-1117-491f-aca6-3184321f112d
Theocharidis, Ursula
0db9a086-1452-4db9-a347-25367dbe46e8
Garwood, Jeremy
1efb4f1c-7c97-4203-b2ca-8b31ee786c99
Andrews, Melissa R.
ae987a2f-878e-4ae3-a7a3-a7170712096c
Properzi, Francesca
0f3b10dc-240b-4d19-9a6a-9bd5747e203c
Lin, Rachel
1db1fd94-a1c1-477b-9640-f02c27b29ebe
Fawcett, James W.
4549730e-9f62-45b8-820b-8a9c98d1058b
Faissner, Andreas
c19f1d2b-1cbb-43ba-a45d-7d9c9c2cb10e
Dobbertin, Alexandre, Czvitkovich, Stefan, Theocharidis, Ursula, Garwood, Jeremy, Andrews, Melissa R., Properzi, Francesca, Lin, Rachel, Fawcett, James W. and Faissner, Andreas
(2010)
Analysis of combinatorial variability reveals selective accumulation of the fibronectin type III domains B and D of tenascin-C in injured brain.
Experimental Neurology, 225 (1), .
(doi:10.1016/j.expneurol.2010.04.019).
Abstract
Tenascin-C (Tnc) is a multimodular extracellular matrix glycoprotein that is markedly upregulated in CNS injuries where it is primarily secreted by reactive astrocytes. Different Tnc isoforms can be generated by the insertion of variable combinations of one to seven (in rats) alternatively spliced distinct fibronectin type III (FnIII) domains to the smallest variant. Each spliced FnIII repeat mediates specific actions on neurite outgrowth, neuron migration or adhesion. Hence, different Tnc isoforms might differentially influence CNS repair. We explored the expression pattern of Tnc variants after cortical lesions and after treatment of astrocytes with various cytokines. Using RT-PCR, we observed a strong upregulation of Tnc transcripts containing the spliced FnIII domains B or D in injured tissue at 2-4 days post-lesion (dpl). Looking at specific combinations, we showed a dramatic increase of Tnc isoforms harboring the neurite outgrowth-promoting BD repeat with both the B and D domains being adjacent to each other. Isoforms containing only the axon growth-stimulating spliced domain D were also dramatically enhanced after injury. Injury-induced increase of Tnc proteins comprising the domain D was confirmed by Western Blotting and immunostaining of cortical lesions. In contrast, the FnIII modules C and AD1 were weakly modulated after injury. The growth cone repulsive A1A2A4 domains were poorly expressed in normal and injured tissue but the smallest isoform, which is also repellant, was highly expressed after injury. Expression of the shortest Tnc isoform and of variants containing B, D or BD, was strongly upregulated in cultured astrocytes after TGFbeta1 treatment, suggesting that TGFbeta1 could mediate, at least in part, the injury-induced upregulation of these isoforms. We identified complex injury-induced differential regulations of Tnc isoforms that may well influence axonal regeneration and repair processes in the damaged CNS.
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Accepted/In Press date: 30 April 2010
e-pub ahead of print date: 5 May 2010
Published date: September 2010
Keywords:
cerebral cortex, CNS injury, glial scar, astrocyte, tensacin, fibronectin type III domain, extracellular matrix, regeneration TGFbeta1, cytokine
Organisations:
Biomedicine
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Local EPrints ID: 411367
URI: http://eprints.soton.ac.uk/id/eprint/411367
ISSN: 0014-4886
PURE UUID: dcfbd55c-293b-487a-94bf-4eaed109aa55
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Date deposited: 19 Jun 2017 16:31
Last modified: 16 Mar 2024 04:28
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Author:
Alexandre Dobbertin
Author:
Stefan Czvitkovich
Author:
Ursula Theocharidis
Author:
Jeremy Garwood
Author:
Francesca Properzi
Author:
Rachel Lin
Author:
James W. Fawcett
Author:
Andreas Faissner
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