[Proliferation and regeneration effects of constructed human beta-nerve growth factor gene on transfected cat corneal endothelial cells in vitro].

Objective: To explore the mechanisms of proliferation and regeneration effects of a human nerve growth factor (beta-NGF) expression vector (pcDNA4-beta-NGF) on the transfected cat corneal endothelial cells in vitro. To provide a new method for long term cultivation of human corneal endothelial cells in vitro and to establish theoretical basis of gene therapy for corneal endothelial defects.

Methods: It was a experimental study. The human pcDNA4-beta-NGF expression vector was constructed and transfected into cultured cat corneal endothelial cells by Effectene lipofectine transfection technique. The expression of the reporter gene pcDNA4-beta-LacZ expression was used to determine the transfection efficiency 48 hours after the transfection. RT-PCR and immunohistochemistry techniques were used to check the transient expression status at mRNA and protein levels in cat corneal endothelial cells. Mitotic index and methyl thiazolyl tetrazolium (MTT) value were measured and cell numbers at different stages of cell cycles were determined by flow cytometer 96 hours after transfection. An in vitro quantitative cat corneal endothelial cell traumatic model was established which was used for observing the effect of human beta-NGF expression product on the DNA synthesis of cat endothelial cells and healing process of traumatized endothelial cells.

Results: A human nerve growth factor (beta-NGF) expression vector (pcDNA4-beta-NGF)was successfully constructed and confirmed by sequence analysis. Single layered pure cat corneal endothelial cells were obtained by a modified sliced tissue culture technique and confirmed by morphological analysis, neurone specific enolase immunohistochemistry study and transmission electronic microscope. Effectene lipofectine mediated transfection efficiency of pcDNA4-beta-NGF into cat corneal endothelial cells in vitro was 11.3%. The human beta-NGF could be highly expressed in the transfected corneal endothelial cells at mRNA and protein levels. Mitotic index, MTT value and G1 stage cell numbers, as well as traumatically defected endothelial cells numbers during the healing process of human beta-NGF transfected corneal endothelial cells were statistically differed from the pre-transfected cells and control groups.

Conclusions: Effectene lipofectine transfection technique could be effectively used for transfecting pcDNA4-beta-NGF into cat corneal endothelial cells in vitro with good efficacy and the gene could stably express to improve the proliferation and regeneration of the cat corneal endothelial cells. This method could be managed as an experimental basis to be applied in the experimental study for transfecting the human beta-NGF gene into human corneal endothelial cells. Therefore a new method for resolving the problem of impossible regeneration of corneal endothelial cells could become possible.