Evaluation of transplantation of stem cells from rat olfactory epithelium in rabbits subjected to spinal cord injury

Stem cells from olfactory epithelium are capable of differentiation, regeneration of olfactory neurons and act in the myelination process of nerve fibers. The aim of this study was to verify the therapeutic potential of stem cells from the olfactory epithelium of Wistar rats in cell therapy in rabbits subjected to spinal cord injury. Rats were aged 2 months and New Zealand rabbits obtained in the bioterio of the Animal Pathology Department, Faculty of Veterinary Medicine, at University of Sao Paulo. Samples of the olfactory epithelium of rats were treated and placed in culture in DMEM-F12 supplemented. Four types of spinal cord injury were tested in New Zealand rabbits: hemisecction dorsal and ventral, total and lateral section. The teratogenic potential test was made in NUDE mices. For therapy were transplanted 5x105 cells in 4 rabbits subjected to spinal cord injury in the ventral region. The cells showed predominant fibroblastoid morphology. Tests for growth curve and colony formation demonstrated that culture conditions in these cells were suitable for the development of these cells. In the immunofluorescence analyses the cells showed positive reaction for vimentin, Oct-4, GFAP, OMP, Nanog, cytokeratin-18 and beta tubulin. In flow cytometry analyses was found negative reaction for CD 113, CD 117 and Stro-1 and positive reaction for vimentin, Nanog and OMP. In immunohistochemistry analysis were observed positive reaction for vimentin, OMP, GFAP and Nanog. Positive labeling was showed on the collected material for GFP. Clinical improvement occurred in the animals evaluated 21 days after cell transplantation. With some reflections about how the placement of conscious proprioception and tactile, it also presented a reflection of pedaling. After this, we concluded that the better model for induction of spinal cord injury in rabbits is the hemisecction ventral and the olfactory stem cells of Wistar rats showed a great therapeutic potential in animals subjected to spinal cord injury. (AU)