VEGF is a modifier of amyotrophic lateral sclerosis in mice and humans and protects motoneurons against ischemic death | Zendy

Diether Lambrechts | Zendy; Erik Storkebaum | Zendy; Masafumi Morimoto | Zendy; Jurgen DelFavero | Zendy; Frederik De Smet | Zendy; Stefan L. Marklund | Zendy; Sabine Wyns | Zendy; Vincent Thijs | Zendy; Jörgen Andersson | Zendy; Ingrid van Marion | Zendy; Ammar AlChalabi | Zendy; Stéphanie Bornes | Zendy; Rhian Musson | Zendy; Valerie K. Hansen | Zendy; L. Beckman | Zendy; Rolf Adolfsson | Zendy; Hardev Pall | Zendy; Hervé Prats | Zendy; Séverine Vermeire | Zendy; Paul Rutgeerts | Zendy; Shigehiro Katayama | Zendy; Takuya Awata | Zendy; Nigel Leigh | Zendy; Loı̈c Lang-Lazdunski | Zendy; Mieke Dewerchin | Zendy; Christopher E. Shaw | Zendy; Lieve Moons | Zendy; Robert Vlietinck | Zendy; Karen Morrison | Zendy; Wim Robberecht | Zendy; Christine Van Broeckhoven | Zendy; Désiré Collen | Zendy; Peter M. Andersen | Zendy; Peter Carmeliet | Zendy

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VEGF is a modifier of amyotrophic lateral sclerosis in mice and humans and protects motoneurons against ischemic death

Author(s) -

Diether Lambrechts,

Erik Storkebaum,

Masafumi Morimoto,

Jurgen DelFavero,

Frederik De Smet,

Stefan L. Marklund,

Sabine Wyns,

Vincent Thijs,

Jörgen Andersson,

Ingrid van Marion,

Ammar AlChalabi,

Stéphanie Bornes,

Rhian Musson,

Valerie K. Hansen,

L. Beckman,

Rolf Adolfsson,

Hardev Pall,

Hervé Prats,

Séverine Vermeire,

Paul Rutgeerts,

Shigehiro Katayama,

Takuya Awata,

Nigel Leigh,

Loı̈c Lang-Lazdunski,

Mieke Dewerchin,

Christopher E. Shaw,

Lieve Moons,

Robert Vlietinck,

Karen Morrison,

Wim Robberecht,

Christine Van Broeckhoven,

Désiré Collen,

Peter M. Andersen,

Peter Carmeliet

Publication year - 2003

Publication title -

nature genetics

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 18.861

H-Index - 573

eISSN - 1546-1718

pISSN - 1061-4036

DOI - 10.1038/ng1211

Subject(s) - amyotrophic lateral sclerosis , vascular endothelial growth factor a , biology , sod1 , vascular endothelial growth factor , haplotype , spinal cord , pathology , immunology , cancer research , vegf receptors , neuroscience , medicine , gene , genetics , disease , genotype

Amyotrophic lateral sclerosis (ALS) is an incurable degenerative disorder of motoneurons. We recently reported that reduced expression of Vegfa causes ALS-like motoneuron degeneration in Vegfa(delta/delta) mice. In a meta-analysis of over 900 individuals from Sweden and over 1,000 individuals from Belgium and England, we now report that subjects homozygous with respect to the haplotypes -2,578A/-1,154A/-634G or -2,578A/-1,154G/-634G in the VEGF promoter/leader sequence had a 1.8 times greater risk of ALS (P = 0.00004). These 'at-risk' haplotypes lowered circulating VEGF levels in vivo and reduced VEGF gene transcription, IRES-mediated VEGF expression and translation of a novel large-VEGF isoform (L-VEGF) in vivo. Moreover, SOD1(G93A) mice crossbred with Vegfa(delta/delta) mice died earlier due to more severe motoneuron degeneration. Vegfa(delta/delta) mice were unusually susceptible to persistent paralysis after spinal cord ischemia, and treatment with Vegfa protected mice against ischemic motoneuron death. These findings indicate that VEGF is a modifier of motoneuron degeneration in human ALS and unveil a therapeutic potential of Vegfa for stressed motoneurons in mice.

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