Prior to embedding in Tissue-Tek, spinal cord samples were photographed with a digital camera (Sony Cyber-Shot DSC-S950, São Paulo—SP, Brazil) on a dark background to provide morphological visualization of the injury site (Fig. 7B). After this, samples were quickly frozen in isopentane (Merck, Germany) cooled in liquid nitrogen and stored at − 80 °C. Primary somatosensory cortex, primary and secondary motor cortex and the entire brainstem were serially sliced (200 μm thick, 150 μm apart) using a cryostat (CM1850, Leica, São Paulo—SP, Brazil) to allow retrograde tracer visualization. These sections were mounted on gelatin-coated glass slides, covered with aqueous mounting medium (FluorSave,
this website Calbiochem, Darmstadt, Germany) and coverslips. The entire spinal cord samples were longitudinally cut (25 μm), in
a series of 5 slides per animal with 7–8 sections per slide. Two slides per animal were used to perform immunohistochemistry by the peroxidase method (Sternberger, 1979). Initially, sections were washed in PBS, followed by a 30 min period with 3% hydrogen peroxide (H2O2). After several washes in PBS, sections were pre-incubated in 1% albumin solution with 0.4% triton X-100 (PBS-Tx). Then, slices were incubated for 48 h at 4 °C in either GFAP (rabbit anti-GFAP, 1:200, DAKO Denmark A/S, Denmark, Z0334) or GAP-43 antibodies (mouse anti-GAP-43, 1:500, Santa Cruz Biotechnology Inc., USA, SC33705). Sections were rinsed in PBS-Tx and re-incubated in goat anti-rabbit IgG (1:100, Sigma-Aldrich, USA, R2004) or goat anti-mouse www.selleckchem.com/products/ABT-263.html IgG (1:100, Sigma-Aldrich, USA, M8642) for 2 h. Following PBS washes, slices were placed in peroxidase anti-peroxidase (1:500, Sigma-Aldrich, USA, P1291) for 1 h and 30 min. The immunohistochemical reaction was developed by incubating the slices in a medium containing 0.06% 3,3 diaminobenzidine (DAB, Sigma-Aldrich, USA, D5637) and then in the same solution containing 1 μM of 3% H2O2 per mL of DAB medium for 10 min each. Finally, slices were rinsed with PBS, dehydrated with ethanol, cleared with xylene and covered
with Carnitine dehydrogenase Permount and coverslips. Control sections were prepared by omitting the primary antibody and replacing it with PBS. In double staining protocols, fibre tracts were stained using the following antibodies: rabbit anti-serotonin (1:5000, Sigma-Aldrich, USA, S5545) for serotonergic axons in the spinal cord coming from raphe nuclei; and rabbit anti-CGRP (1:1500, courtesy of Dr. Rodrigo, Instituto Cajal, Spain) as a marker for ascending sensory neurons. Fibrous scar borders were defined using immunoreactivity to GFAP (mouse anti-GFAP, 1:400, Sigma-Aldrich, USA, G3893). The protocol consisted of washing the sections with PBS, followed by permeabilization with 0.25% PBS-Tx. After this, sections were blocked in 1% albumin for 30 min.