S. Nicolino scite author profile

Schwann cells play a critical role in peripheral nerve regeneration. When a non-nervous conduit is used to bridge a nerve defect, the conduit is soon colonized by a number of Schwann cells that make a pathway for regrowing axons. By using electron microscopy, immunohistochemistry, and reverse transcriptase-polymerase chain reaction analysis, we have investigated the behavior of migratory glial cells along a particular type of autologous tissue-engineered conduit made of a vein filled with fresh skeletal muscle, using the rat sciatic nerve model. With this particular type of autograft, our data show that many Schwann cells soon take up a close relationship with grafted muscle fibers, and especially with their basal lamina, which appears to serve as a migration pathway for them. The early and massive colonization of the conduit is sustained by both Schwann cell migration and proliferation, as demonstrated by PCNA immunostaining. Later, as they meet regenerating axons, Schwann cells become closely associated with them and eventually lose their connections with grafted muscle fibers because of the formation of perineurial envelopes. Because previous studies showed that alpha(2a-2b) NRG1 is overexpressed at early stages along the muscle-vein combined tubes, we have also investigated mRNA expression of its two receptors, erbB2 and erbB3. Both messengers are overexpressed, although with different time courses. Overall, our results provide some morphological and biochemical bases for explaining the effectiveness of fresh muscle-vein combined nerve guides and throw an interesting light on the possible role of alpha(2a-2b) NRG1 through the erbB2/erbB3 heterodimer receptor for nerve regeneration inside non-nervous conduits.

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Schwann-Cell Proliferation in Muscle-Vein Combined Conduits for Bridging Rat Sciatic Nerve Defects

Geuna¹,

Raimondo²,

Nicolino³

et al. 2003

J reconstr Microsurg

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Among the various grafting procedures that have been studied as alternatives to traditional fresh nerve autografts for the repair of severed peripheral nerves, muscle-vein-combined graft conduits have recently been devised and successfully employed. In the present study, the early presence, origin, and proliferation activity of Schwann cells (SCs) along this particular type of biological graft conduit have been investigated, using antibodies directed against glial fibrillar acid protein (GFAP), a protein that is specifically expressed in glial cells, and proliferating cell nuclear antigen (PCNA), a protein that is expressed by cells during DNA synthesis. Results showed that the muscle-vein-combined graft was progressively invaded by a number of GFAP-immunopositive SCs, many of which were also found to be immunopositive for PCNA, thus demonstrating that their proliferation continues to occur inside the graft. Among the molecules that could be involved in the stimulation of Schwann-cell proliferation is neuregulin-1 (NRG-1) that mediates its effects by binding to the ErbB receptor tyrosine kinase family. In the present study, the authors report on the RT-PCR analysis for NRG-1 and ErbB3 mRNAs, showing an overall increase in the content of these transcripts inside the muscle-vein-combined graft. These results suggest that the muscle-vein-combined graft conduit constitutes an environment favorable to potentiate Schwann-cell proliferation during the early regeneration phases.

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Neuronal intermediate filament expression in rat dorsal root ganglia sensory neurons: An in vivo and in vitro study

Fornaro¹,

Lee²,

Raimondo³

et al. 2008

Neuroscience

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S. Nicolino

Functional and morphological assessment of a standardized crush injury of the rat median nerve

Employment of the mouse median nerve model for the experimental assessment of peripheral nerve regeneration

Schwann cell behavior after nerve repair by means of tissue‐engineered muscle‐vein combined guides

Schwann-Cell Proliferation in Muscle-Vein Combined Conduits for Bridging Rat Sciatic Nerve Defects

Neuronal intermediate filament expression in rat dorsal root ganglia sensory neurons: An in vivo and in vitro study

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