Abstract
The blood–nerve barrier and myelin barrier normally shield peripheral nerves from potentially harmful insults. They are broken down during nerve injury, which contributes to neuronal damage. Netrin-1 is a neuronal guidance protein with various established functions in the peripheral and central nervous systems; however, its role in regulating barrier integrity and pain processing after nerve injury is poorly understood. Here, we show that chronic constriction injury (CCI) in Wistar rats reduced netrin-1 protein and the netrin-1 receptor neogenin-1 (Neo1) in the sciatic nerve. Replacement of netrin-1 via systemic or local administration of the recombinant protein rescued injury-induced nociceptive hypersensitivity. This was prevented by siRNA-mediated knockdown of Neo1 in the sciatic nerve. Mechanistically, netrin-1 restored endothelial and myelin, but not perineural, barrier function as measured by fluorescent dye or fibrinogen penetration. Netrin-1 also reversed the decline in the tight junction proteins claudin-5 and claudin-19 in the sciatic nerve caused by CCI. Our findings emphasize the role of the endothelial and myelin barriers in pain processing after nerve damage and reveal that exogenous netrin-1 restores their function to mitigate CCI-induced hypersensitivity via Neo1. The netrin-1-neogenin-1 signaling pathway may thus represent a multi-target barrier protector for the treatment of neuropathic pain.
Highlights
Netrin-1 is a secreted chemotropic ligand governing cell migration and precise axon guidance in embryonal development
The role of netrin-1 was investigated in rats for up to three weeks after constriction injury (CCI) surgery
In contrast to mRNA expression, netrin-1 immunoreactivity in the sciatic nerve was reduced by 58% (Figure 1E)
Summary
Netrin-1 is a secreted chemotropic ligand governing cell migration and precise axon guidance in embryonal development. Netrin-1 is special because its reciprocal actions depend on the receptor of the target cell. It promotes axon path finding and nerve regeneration through its interaction with the canonical receptors deleted in colorectal cancer (Dcc) or the homolog neogenin-1 (Neo1) [1], while it acts as a repulsion molecule through the receptors uncoordinated (Unc5b) and Dcc/Unc in nerve regeneration [2]. The transmembrane netrin receptors belong to the immunoglobulin superfamily. Apart from being a bi-functional neuronal guidance molecule, netrin-1 is involved, amongst others, in resolution of inflammation, angiogenesis, adhesion atherosclerosis, and cancer. Netrin-1 upregulates selected tight junction proteins and thereby strengthens these barriers
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