VEGF enhances intraneural angiogenesis and improves nerve regeneration after axotomy

MARK I. HOBSON; COLIN J. GREEN; GIORGIO TERENGHI

doi:10.1046/j.1469-7580.2000.19740591.x

Abstract

Whilst there is an increased understanding of the cell biology of nerve regeneration, it remains unclear whether there is a direct interrelationship between vascularisation and efficacy of nerve regeneration within a nerve conduit. To establish this is important as in clinical surgery peripheral nerve conduit grafting has been widely investigated as a possible alternative to the use of nerve autografts. The aim of this study was to assess whether vascular endothelial growth factor (VEGF), a highly specific endothelial cell mitogen, can enhance vascularisation and, indirectly, axonal regeneration within a silicone nerve regeneration chamber. Chambers containing VEGF (500–700 ng/ml) in a laminin-based gel (Matrigel) were inserted into 1 cm rat sciatic nerve defects and nerve regeneration examined in relation to angiogenesis between 5 and 180 d. Longitudinal sections were stained with antibodies against endothelial cells (RECA-1), axons (neurofilament) and Schwann cells (S-100) to follow the progression of vascular and neural elements. Computerised image analysis demonstrated that the addition of VEGF significantly increased blood vessel penetration within the chamber from d 5, and by d 10 this correlated with an increase of axonal regeneration and Schwann cell migration. The pattern of increased nerve regeneration due to VEGF administration was maintained up to 180 d, when myelinated axon counts were increased by 78% compared with plain Matrigel control. Furthermore the dose-response of blood vessel regeneration to VEGF was clearly reflected in the increase of axonal regrowth and Schwann cell proliferation, indicating the close relationship between regenerating nerves and blood vessels within the chamber. Target organ reinnervation was enhanced by VEGF at 180 d as measured through the recovery of gastrocnemius muscle weights and footpad axonal terminal density, the latter showing a significant increase over controls (P < 0.05). The results demonstrate an overall relationship between increased vascularisation and enhanced nerve regeneration within an acellular conduit, and highlight the interdependence of the 2 processes.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Carmeliet, Peter and Storkebaum, Erik 2002. Vascular and neuronal effects of VEGF in the nervous system: implications for neurological disorders. Seminars in Cell & Developmental Biology, Vol. 13, Issue. 1, p. 39.

Ogunshola, Omolara O. Antic, Anica Donoghue, Maria J. Fan, Shou-Yuan Kim, Hyun Stewart, William B. Madri, Joseph A. and Ment, Laura R. 2002. Paracrine and Autocrine Functions of Neuronal Vascular Endothelial Growth Factor (VEGF) in the Central Nervous System. Journal of Biological Chemistry, Vol. 277, Issue. 13, p. 11410.

Hogg, Philip J and McLachlan, Elspeth M 2002. Blood vessels and nerves: together or not?. The Lancet, Vol. 360, Issue. 9347, p. 1714.

Bates, Damien Taylor, G.Ian and Newgreen, Donald F 2002. The Pattern of Neurovascular Development in the Forelimb of the Quail Embryo. Developmental Biology, Vol. 249, Issue. 2, p. 300.

Wang, Huan and Lineaweaver, William C. 2002. Nerve conduits for nerve reconstruction. Operative Techniques in Plastic and Reconstructive Surgery, Vol. 9, Issue. 2, p. 59.

Young, R.C. Terenghi, Giorgio and Wiberg, M. 2002. Poly-3-hydroxybutyrate (PHB): a resorbable conduit for long-gap repair in peripheral nerves. British Journal of Plastic Surgery, Vol. 55, Issue. 3, p. 235.

Carmeliet, Peter 2003. Blood vessels and nerves: common signals, pathways and diseases. Nature Reviews Genetics, Vol. 4, Issue. 9, p. 710.

Rosenstein, Jeffrey M. Mani, Nina Khaibullina, Alfia and Krum, Janette M. 2003. Neurotrophic Effects of Vascular Endothelial Growth Factor on Organotypic Cortical Explants and Primary Cortical Neurons. The Journal of Neuroscience, Vol. 23, Issue. 35, p. 11036.

Pola, Roberto Gaetani, Eleonora Flex, Andrea Aprahamian, Tamar Proia, Anna S Bosch-Marcé, Marta Smith, Roy C and Pola, Paolo 2003. Peripheral nerve ischemia: apolipoprotein E deficiency results in impaired functional recovery and reduction of associated intraneural angiogenic response. Experimental Neurology, Vol. 184, Issue. 1, p. 264.

Pestronk, Alan Choksi, Rati Logigian, Eric and Al‐Lozi, Muhammad T. 2003. Sensory neuropathy with monoclonal IgM binding to a trisulfated heparin disaccharide. Muscle & Nerve, Vol. 27, Issue. 2, p. 188.

Schlosshauer, Burkhard Müller, Erhard Schröder, Bernhard Planck, Heinrich and Müller, Hans-Werner 2003. Rat Schwann cells in bioresorbable nerve guides to promote and accelerate axonal regeneration. Brain Research, Vol. 963, Issue. 1-2, p. 321.

Ribatti, Domenico Conconi, Maria Teresa Nico, Beatrice Baiguera, Silvia Corsi, Patrizia Parnigotto, Pier Paolo and Nussdorfer, Gastone G. 2003. Angiogenic response induced by acellular brain scaffolds grafted onto the chick embryo chorioallantoic membrane. Brain Research, Vol. 989, Issue. 1, p. 9.

Haigh, Jody J Morelli, Paula I Gerhardt, Holger Haigh, Katharina Tsien, John Damert, Annette Miquerol, Lucile Muhlner, Ulrich Klein, Rudiger Ferrara, Napoleone Wagner, Erwin F Betsholtz, Christer and Nagy, Andras 2003. Cortical and retinal defects caused by dosage-dependent reductions in VEGF-A paracrine signaling. Developmental Biology, Vol. 262, Issue. 2, p. 225.

Gupta, Ranjan Lin, Yi-Mei Bui, Phong Chao, Tom Preston, Charles and Mozaffar, Tahseen 2003. Macrophage Recruitment Follows the Pattern of Inducible Nitric Oxide Synthase Expression in a Model for Carpal Tunnel Syndrome. Journal of Neurotrauma, Vol. 20, Issue. 7, p. 671.

Pola, Roberto Aprahamian, Tamar R. Bosch-Marcé, Marta Curry, Cynthia Gaetani, Eleonora Flex, Andrea Smith, Roy C. Isner, Jeffrey M. and Losordo, Douglas W. 2004. Age-dependent VEGF expression and intraneural neovascularization during regeneration of peripheral nerves. Neurobiology of Aging, Vol. 25, Issue. 10, p. 1361.

Croll, Susan D. Goodman, Jeffrey H. and Scharfman, Helen E. 2004. Recent Advances in Epilepsy Research. Vol. 548, Issue. , p. 57.

Hong, Zhang Guigang, Li Caini, Ji Hua, He Junming, Wang Weikun, Hu Hua, Wu and Jing, Chen 2004. Effects of vascular endothelial cell growth factor on fibrovascular ingrowth into rabbit’s hydroxyapatite orbital implant. Current Medical Science, Vol. 24, Issue. 3, p. 286.

Storkebaum, Erik Lambrechts, Diether and Carmeliet, Peter 2004. VEGF: once regarded as a specific angiogenic factor, now implicated in neuroprotection. BioEssays, Vol. 26, Issue. 9, p. 943.

Kawamoto, Keiko and Matsuda, Hiroshi 2004. NGF and Related Molecules in Health and Disease. Vol. 146, Issue. , p. 369.

BEARDEN, SHAWN E. and SEGAL, STEVEN S. 2004. Microvessels Promote Motor Nerve Survival and Regeneration Through Local VEGF Release Following Ectopic Reattachment. Microcirculation, Vol. 11, Issue. 8, p. 633.

Download full list

Article contents

VEGF enhances intraneural angiogenesis and improves nerve regeneration after axotomy

Abstract

Keywords

Access options

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

VEGF enhances intraneural angiogenesis and improves nerve regeneration after axotomy

Abstract

Keywords

Access options

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests