Expression of a dominant-negative Rho-kinase promotes neurite outgrowth in a microenvironment mimicking injured central nervous system
Abstract
Aim: To investigate whether lentiviral vector (LV)-mediated expression of a dominant negative mutant Rho-kinase (DNROCK) could inhibit activation of the Rho/ROCK signaling pathway and promote neurite outgrowth in a hostile microenvironment mimicking the injured central nervous system (CNS) in vitro.
Methods: Lentiviral stock was produced using the three-plasmid system by transfecting HEK293 cells. Myelin prepared from rat brain was purified by two rounds of discontinuous density gradient centrifugation and osmotic disintegration. Differentiated PC12 cells and dissociated adult rat dorsal root ganglion (DRG) neurons were transduced with either LV/DNROCK or LV/green fluorescent protein (GFP) and seeded on solubilized myelin proteins. The effect of DNROCK on growth cone morphology was tested by rhodamine-conjugated phalloidin staining. Expression of DNROCK was determined by immunoblotting. The length of the longest neurite, the percentage of neurite-bearing neurons, or the total process outgrowth for all transduced neurons were measured by using the Scion image analysis program.
Results: Transduction of DNROCK inhibited serum-induced stress fiber formation in NIH 3T3 cells and induced enlargement of cell bodies and decreased the phosphorylation levels of MYPT1 in HeLa cells. LV/DNROCK blocked myelin-induced increase in ROCK translocation from cytosol to membrane in LV/GFP-treated PC12 cells. DNROCK promotes neurite outgrowth of differentiated PC12 cells and DRG neurons on myelin protein. LV/DNROCK-transduced PC12 cells had longer neurites than LV/GFP-transduced cells (39.18±2.19 μm vs 29.32±1.7 μm, P<0.01) on myelin-coated coverslips. Furthermore, a significantly higher percentage of LV/DNROCK-transduced cells had extended neurites than LV/GFP-transduced cells (63.75%±8.03% vs 16.3%±3.70%, P<0.01). LV/DNROCK-transduced DRG neurons had longer neurite length (325.22±10.8 μm vs 202.47±9.3 μm, P<0.01) and more primary neurites per cell than those in LV/GFP-transduced cells plated on myelin and laminin (7.8±1.25 vs 4.84±1.45, P<0.01) or on laminin alone (5.2±1.88). LV/DNROCK-transduced cells had significantly larger growth cones (33.12±1.06 μm2) than LV/GFP-pretreated cells (23.72±1.22 μm2).
Conclusion: These results indicate that blocking the RhoA/ROCK signaling pathway by expression of DNROCK is effective in facilitating neurite outgrowth in a microenvironment mimicking injury of central nervous system.
Keywords:
Methods: Lentiviral stock was produced using the three-plasmid system by transfecting HEK293 cells. Myelin prepared from rat brain was purified by two rounds of discontinuous density gradient centrifugation and osmotic disintegration. Differentiated PC12 cells and dissociated adult rat dorsal root ganglion (DRG) neurons were transduced with either LV/DNROCK or LV/green fluorescent protein (GFP) and seeded on solubilized myelin proteins. The effect of DNROCK on growth cone morphology was tested by rhodamine-conjugated phalloidin staining. Expression of DNROCK was determined by immunoblotting. The length of the longest neurite, the percentage of neurite-bearing neurons, or the total process outgrowth for all transduced neurons were measured by using the Scion image analysis program.
Results: Transduction of DNROCK inhibited serum-induced stress fiber formation in NIH 3T3 cells and induced enlargement of cell bodies and decreased the phosphorylation levels of MYPT1 in HeLa cells. LV/DNROCK blocked myelin-induced increase in ROCK translocation from cytosol to membrane in LV/GFP-treated PC12 cells. DNROCK promotes neurite outgrowth of differentiated PC12 cells and DRG neurons on myelin protein. LV/DNROCK-transduced PC12 cells had longer neurites than LV/GFP-transduced cells (39.18±2.19 μm vs 29.32±1.7 μm, P<0.01) on myelin-coated coverslips. Furthermore, a significantly higher percentage of LV/DNROCK-transduced cells had extended neurites than LV/GFP-transduced cells (63.75%±8.03% vs 16.3%±3.70%, P<0.01). LV/DNROCK-transduced DRG neurons had longer neurite length (325.22±10.8 μm vs 202.47±9.3 μm, P<0.01) and more primary neurites per cell than those in LV/GFP-transduced cells plated on myelin and laminin (7.8±1.25 vs 4.84±1.45, P<0.01) or on laminin alone (5.2±1.88). LV/DNROCK-transduced cells had significantly larger growth cones (33.12±1.06 μm2) than LV/GFP-pretreated cells (23.72±1.22 μm2).
Conclusion: These results indicate that blocking the RhoA/ROCK signaling pathway by expression of DNROCK is effective in facilitating neurite outgrowth in a microenvironment mimicking injury of central nervous system.