The Cell Survival and Differentiation after Transplantation, Which Harvest from Adult Rat Brain by High-speed Centrifugation Method

OBJECTIVE: Many recent reports have shown that the mature mammalian brain harbors multipotent stem cells, rendering the brain capable of generating new neurons and glia throughout life. Harvested stem cells from an adult rat are transplanted in order to evaluate the cell survival and differentiation. METHODS: Using a percoll gradient with a high speed centrifugation method, we isolate neural stem/progenitor cells were isolated from the subventricular zone(SVZ) of a syngeneic adult Fisher 344 rats brain. For 14days expansion, the cultured cells comprised of a heterogeneous population with the majority of cells expressing nestin and/or GFAP. After expanding the SVZ cells in the presence of basic fibroblast growth factor-2, and transplanting then into the hippocampus of normal rats, the survival and differentiation of those cells were examined. For transplantation, the cultured cells were labeled with BrdU two days prior to use. In order to test their survival, the cells were transplanted into the dorsal hippocampus of normal adult Fisher 344 rats. RESULTS: The preliminary data showed that at 7days after transplantation, BrdU+ transplanted cells were observed around the injection deposition sites. Immuno-fluorescent microscopy revealed that the cells co-expressed BrdU+ and neuronal marker beta-tubulin III. CONCLUSION: The data demonstrate that the in vitro expanded SVZ cells can survive in a heterotypic environment and develop a neuronal phenotype in the neurogenic region. However more research will be needed to examine the longer survival time points and quantifying the differentiation in the transplanted cells in an injured brain environment.

Culturing Successfully Adult Schwann Cells from Peripheral Nerve of Rats / 대한소아신경학회지

PURPOSE: Schwann cells are difficult to isolate from adult mammalian peripheral nerves because of the abundant connective tissue and the highly differentiated state of the cells, particularly those involved in the formation of myelin. It has been shown that in vivo, both neurons and Schwann cells are conditioned by a nerve lesion, speeding up the Schwann cell proliferation and the neuronal regeneration. In this study with adult rat peripheral nerves, we report that a conditioning lesion increases Schwann cells and of cells which successfully attach to a tissue culture striatum. METHODS: The study was done with Sprague-Dawley male rats(250-300 g). Their left sciatic nerves were exposed, severed at the sciatic notch and deflected. After 14 days, with 20 mm segments the nerves were excised from the distal stump of the conditioned sciatic nerves. Schwann cells were cultured in RPMI-1640 media. The identity of the cells was verified with antibody staining using S-100. RESULTS: The lesion evoked a progressive and significant increase in the number of cells obtained as early as 48 hr of the plating, until day 12. Decreasing the duration of enzyme digestion to 3 and 4 hrs markely increased the number of attached Schwann cells. The peak numbers of attached Schwann cells was observed between day 12 and day 14 of the plating. Most attached Schwann cells had typical oval-shaped cell bodies, with prominent nuclei and bipolar cell extensions, resulting in overall spindle shapes. CONCLUSION: Our findings indicate that a conditioning lesion enables us to isolate and culture adult Schwann cells successfully from the peripheral nerves of rats.