Journal article

Neurovascular congruence results from a shared patterning mechanism that utilizes Semaphorin3A and Neuropilin-1

D Bates, GI Taylor, J Minichiello, P Farlie, A Cichowitz, N Watson, M Klagsbrun, R Mamluk, DF Newgreen

Developmental Biology | ACADEMIC PRESS INC ELSEVIER SCIENCE | Published : 2003

DOI: 10.1016/S0012-1606(02)00045-3

Abstract

Peripheral nerves and blood vessels have similar patterns in quail forelimb development. Usually, nerves extend adjacent to existing blood vessels, but in a few cases, vessels follow nerves. Nerves have been proposed to follow vascular smooth muscle, endothelium, or their basal laminae. Focusing on the major axial blood vessels and nerves, we found that when nerves grow into forelimbs at E3.5-E5, vascular smooth muscle was not detectable by smooth muscle actin immunoreactivity. Additionally, transmission electron microscopy at E5.5 confirmed that early blood vessels lacked smooth muscle and showed that the endothelial cell layer lacks a basal lamina, and we did not observe physical contact b..

View full abstract

University of Melbourne Researchers

Grants

Citation metrics

152Scopus
139Web of Science
152Dimensions

Keywords

Semaphorm3a
Developmental Biology
2.1 Biological and Endogenous Factors
Life Sciences & Biomedicine
Flt-1
Nerves
Neurosciences
Endothelium
Neural Crest Migration
Vegf Gene-Transfer
In-Vivo Electroporation
Science & Technology
Pattern Formation
Vegf
Smooth Muscle
Pediatric Research Initiative
Blood-Vessels
Endothelial Growth-Factor
Cardiovascular
Chick Wing Bud
Peripheral-Nerve Projection
Cartilage Differentiation
32 Biomedical and Clinical Sciences
Stimulates Axonal Outgrowth
Neurovascular
Developing Sympathetic Neurons