F. Gil-Dones¹, S. Alonso-Orgaz¹, G. Avila², T. Martin-Rojas¹, V. Moral-Darde³, G. Barroso³, F. Vivanco^4,5, J. Scott-Taylor² and M.G. Barderas¹

¹Department of Vascular Pathophysiology, Hospital Nacional de Paraplejicos (HNP), SESCAM, Toledo. ²Sensorimotor Function Group, Hospital Nacional de Paraplejicos (HNP), SESCAM, Toledo. ³Proteomics Unit, Hospital Nacional de Paraplejicos (HNP), SESCAM, Toledo. ⁴Department of Immunology, Fundacion Jimenez Diaz, Madrid. ⁵Department  of Biochemistry and Molecular Biology I, Universidad Complutense, Madrid.

Abstract

Since the function of the spinal cord depends on the proteins found there, better defying the normal Spinal Cord Proteome is an important and challenging task. Although brain and cerebrospinal fluid samples from patients with different central nervous system (CNS) disorders have been studied, a thorough examination of specific spinal cord proteins and the changes induced by injury or associated to conditions such as neurodegeneration, spasticity and neuropathies has yet to be performed. In the present study, we aimed to describe total protein content in the spinal cord of healthy rats, employing different proteomics tools. Accordingly, we have developed a fast, easy, and reproducible sequential protocol for protein extraction from rat spinal cords. We employed conventional two dimensional electrophoresis (2DE) in different pH ranges (eg. 4–7, 3–11 NL) combined with identification by mass spectrometry (MALDI-TOF/TOF), as well as first dimension protein separation combined with Liquid Chromatography Mass Spectrometry/Mass Spectrometry (LC-MS/MS) to maximise the benefits of this technology. The value of these techniques is demonstrated here by the identification of several proteins known to be associated with neuroglial structures, neurotransmission, cell survival and nerve growth in the central nervous system. Furthermore this study identified many spinal proteins that have not previously been described in the literature and which may play an important role as either sensitive biomarkers of dysfunction or of recovery after Spinal Cord Injury.