PDF(550 KB)
Overexpression of netrin-1 improves neurological outcomes in mice following transient middle cerebral artery occlusion
Frontiers of Medicine ›› 2011, Vol. 5 ›› Issue (1) : 86-93.
PDF(550 KB)
PDF(550 KB)
Overexpression of netrin-1 improves neurological outcomes in mice following transient middle cerebral artery occlusion
Overexpression of netrin-1 improves neurological outcomes in mice following transient middle cerebral artery occlusion
Netrin-1 (NT-1) is one of the axon-guiding molecules that are critical for neuronal development. Because of its structural homology to the endothelial mitogens, NT-1 may have similar effects on vascular network formation. NT-1 was shown to be able to stimulate the proliferation and migration of human cerebral endothelial cells in vitro and also promote focal neovascularization in adult brain in vivo. In the present study, we reported the delivery of NT-1 using an adeno-associated virus (AAV) vector (AAV-NT-1) into mouse brain followed by transient middle cerebral artery occlusion (tMCAO). We found that AAV vectors did not elicit a detectable inflammatory response, cell loss or neuronal damage after brain transduction. The level of NT-1 was increased in the AAV-NT-1-transduced tMCAO mice compared with the control mice. Furthermore, the neurobehavioral outcomes were significantly improved in AAV-NT-1-transduced mice compared with the control animals (P<0.05) 7 days after tMCAO. Our data suggests that NT-1 plays a neuronal function recovery role in ischemic brain and that NT-1 gene transfer might present a valuable approach to treat brain ischemic disorders.
adeno-associated virus / angiogenesis / gene transfer / ischemia / middle cerebral artery occlusion / netrin-1
| [1] |
Kennedy T E, Serafini T, de la Torre JR, Tessier-LavigneM. Netrins are diffusible chemotropic factors for commissural axons in the embryonic spinal cord. Cell, 1994, 78(3): 425-435
CrossRef
ADS
Google scholar
|
| [2] |
Kennedy T E, Tessier-Lavigne M. Guidance and induction of branch formation in developing axons by target-derived diffusible factors. Curr Opin Neurobiol, 1995, 5(1): 83-90
CrossRef
ADS
Google scholar
|
| [3] |
Leonardo E D, Hinck L, Masu M, Keino-Masu K, Ackerman S L, Tessier-Lavigne M. Vertebrate homologues of C. elegans UNC-5 are candidate netrin receptors. Nature, 1997, 386(6627): 833-838
CrossRef
ADS
Google scholar
|
| [4] |
Stein E, Zou Y. Poo, M, Tessier-Lavigne, M. Binding of DCC by netrin-1 to mediate axon guidance independent of adenosine A2B receptor activation. Science, 2001, 291(5510): 1976-1982
CrossRef
ADS
Google scholar
|
| [5] |
Guthrie S. Axon guidance: netrin receptors are revealed. Curr Biol, 1997, 7(1): R6-R9
CrossRef
ADS
Pubmed
Google scholar
|
| [6] |
Kennedy T E. Cellular mechanisms of netrin function: long-range and short-range actions. Biochem Cell Biol, 2000, 78(5): 569-575
CrossRef
ADS
Pubmed
Google scholar
|
| [7] |
Harris R, Sabatelli L M, Seeger, M A. Guidance cues at the Drosophila CNS midline: identification and characterization of two Drosophila Netrin/UNC-6 homologs. Neuron, 1996, 17(2): 217-228
CrossRef
ADS
Google scholar
|
| [8] |
Forcet C, Stein E, Pays L, Corset V, Llambi F, Tessier-Lavigne M, Mehlen P. Netrin-1-mediated axon outgrowth requires deleted in colorectal cancer-dependent MAPK activation. Nature, 2002, 417(6887): 443-447
CrossRef
ADS
Google scholar
|
| [9] |
Llambi F, Causeret F. Bloch-Gallego E, Mehlen, P. Netrin-1 acts as a survival factor via its receptors UNC5H and DCC. EMBO J, 2001, 20(11): 2715-2722
CrossRef
ADS
Google scholar
|
| [10] |
Mehlen P, Llambi F. Role of netrin-1 and netrin-1 dependence receptors in colorectal cancers. Br J Cancer, 2005, 93(1): 1-6
|
| [11] |
Lu X, Le Noble F, Yuan L, Jiang Q, De Lafarge B, Sugiyama D, Breant C, Claes F, De Smet F, Thomas J L, Autiero M, Carmeliet P, Tessier-Lavigne M, Eichmann A. The netrin receptor UNC5B mediates guidance events controlling morphogenesis of the vascular system. Nature, 2004, 432 (7014): 179-186
CrossRef
ADS
Google scholar
|
| [12] |
Park K W, Crouse D, Lee M, Karnik S K, Sorensen L K, Murphy K J, Kuo C J, Li D Y. The axonal attractant Netrin-1 is an angiogenic factor. Proc Natl Acad Sci USA, 2004, 101(46): 16210-16215
CrossRef
ADS
Google scholar
|
| [13] |
Fan Y, Shen F, Chen Y, Liu W, Su H, Young W L, Yang G Y. Overexpression of Netrin-1 induces neovascularization in the adult mouse brain. J Cereb Blood Flow Metab, 2008, 28(9):1543-1551
|
| [14] |
Vincent-Lacaze N, Snyder R O, Gluzman R, Bohl D. Lagarde C, Danos O. Structure of adeno-associated virus vector DNA following transduction of the skeletal muscle. J Virol, 1999, 73(3): 1949-1955
|
| [15] |
Snyder R O, Spratt S K, Lagarde C, Bohl D, Kaspar B, Sloan B, Cohen L, Danos O K. Efficient and stable adeno-associated virus-mediated transduction in the skeletal muscle of adult immunocompetent mice. Hum Gene Ther, 1997, 8(16): 1891-1900
CrossRef
ADS
Google scholar
|
| [16] |
Shen F, Su H, Liu W, Kan Y W, Young W L, Yang G Y. Recombinant adeno-associated viral vector encoding human VEGF165 induces neomicrovessel formation in the adult mouse brain. Front Biosci, 2006, 11: 3190-3198
|
| [17] |
Tenenbaum L, Chtarto A, Lehtonen E, Velu T, Brotchi J, Levivier M. Recombinant AAV-mediated gene delivery to the central nervous system. J Gene Med, 2004, 6 Suppl 1: S212-S222
|
| [18] |
Yang G Y, Chan P H, Chen J, Carlson E, Chen S F, Weinstein P, Epstein C J, Kamii H. Human copper-zinc superoxide dismutase transgenic mice are highly resistant to reperfusion injury after focal cerebral ischemia. Stroke, 1994, 25: 165-170
|
| [19] |
Yang G Y, Zhao Y, Davidson B L, Betz A L. Overexpression of interleukin-1 receptor antagonist in the mouse brain reduces ischemic brain injury. Brain Res, 1997, 751: 181-188
|
| [20] |
Chang J H, Gabison E E, Kato T, Azar D. Corneal neovascularization. Curr Opin Ophthalmol, 2001, 12(4): 242-249
CrossRef
ADS
Google scholar
|
| [21] |
Lee C Z, Xu B, Hashimoto T, McCulloch C E, Yang G, Young W L. Doxycycline suppresses cerebral matrix metalloproteinase-9 and angiogenesis induced by focal hyperstimulation of vascular endothelial growth factor in a mouse model. Stroke, 2004, 35(7): 1715-1719
CrossRef
ADS
Google scholar
|
| [22] |
Yang G Y, Xu B, Hashimoto T, Huey M, Chaly T Jr, Wen R, Young W L. Induction of focal angiogenesis through adenoviral vector mediated vascular endothelial cell growth factor gene transfer in the mature mouse brain. Angiogenesis, 2003, 6(2): 151-158
CrossRef
ADS
Google scholar
|
| [23] |
Chen Y, Xu B, Arderiu G, Hashimoto T, Young W L, Boudreau N, Yang G Y. Retroviral delivery of homeobox d3 gene induces cerebral angiogenesis in mice. J Cereb Blood Flow Metab, 2004, 24(11): 1280-1287
CrossRef
ADS
Google scholar
|
| [24] |
Xiao X, Li, J, Samulski R J. Efficient long-term gene transfer into muscle tissue of immunocompetent mice by adeno-associated virus vector. J Virol, 1996, 70(11): 8098-8108
|
| [25] |
McCown T J. Adeno-associated virus (AAV) vectors in the CNS. Curr Gene Ther, 2005, 5(3): 333-338
CrossRef
ADS
Pubmed
Google scholar
|
| [26] |
Serafini T, Colamarino S A, Leonardo E D, Wang H, Beddington R, Skarnes W C, Tessier-Lavigne M. Netrin-1 is required for commissural axon guidance in the developing vertebrate nervous system. Cell, 1996, 87(6): 1001-1014
CrossRef
ADS
Google scholar
|
| [27] |
Xie Y, Hong Y, Ma X Y, Ren X R, Ackerman S, Mei L, Xiong W C. DCC-dependent phospholipase C signaling in netrin-1-induced neurite elongation. J Biol Chem, 2006, 281(5): 2605-2611
|
| [28] |
Barallobre M J, Pascual M, Del Rio J, Soriano E. The Netrin family of guidance factors: emphasis on Netrin-1 signalling. Brain Res Brain Res Rev, 2005, 49(1): 22-47
CrossRef
ADS
Google scholar
|
/
| 〈 |
|
〉 |
