Abstract
Introduction: The semaphorins were initially described as axon guidance molecules that play important roles in the development of nervous system. Recent studies suggest that semaphorins and their receptors also exert such diverse functions as immune response, control of vascular endothelial cell motility and invasion of many types of cancer cells.
Areas covered: The available results concerning application of class 3 semaphorins and their inhibitors for the treatment in animal disease models.
Expert opinion: Because semaphorins are now recognized as key players in immune, cardiovascular, bone metabolism and neurological system, semaphorins and their receptors are most promising therapeutic targets for various disease states. As semaphorins exert their diverse or even opposing activities in vivo, more elaborate studies on pathophysiology and signal transduction mechanisms of semaphorins are required.
Acknowledgements
We are grateful to Drs. T. Nogi and J. Takagi for providing figures of semaphorin-plexin structure.
Notes
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