RESUMEN
Objective To explore the relationship between lecithin cholesterol acy ltransferase (LCAT) gene 608C/T and 511C/T polymorphisms and stroke in Chinese Han population in Hunan province. Methods One hundred fifty patients with cerebral infarction, 150patients with cerebral hemorrhage, and 122 age- and sex-matched healthy controls were selected.LCAT gene 608C/T and 511C/T polymorphisms were detected by using polyrnerase chain reaction, single strand conformation polymorphism, and restriction fragment length polymorphisms. Results The CT genotype frequency (14. 0% ) and T allele frequency (7. 0% )of the LCAT gene 608C/T in the cerebral infarction group were significantly higher than those in the control group (all P <0. 05), while there were no significant differences in the CT genotype frequency (7. 3% ) and T allele frequency (3.7%) between the cerebral hemorrhage group and the control group (P > 0. 05). The CT genotype frequency (10. 0% ) and T allele frequency (5. 0% ) of the LCAT gene 511C/T in the cerebral infarction group were significantly higher than those in the control group (all P <0. 01), while there were no significant differences in the CT genotype frequency (3.3%) and T allele frequency (1.7%) between the cerebral hemorrhage group and the control group (P >0. 05). Conclusions The 608C/T and 511C/T polymorphisms may be associated with the occurrence of atherosclerotic cerebral infarction in Chinese Han population in Hunan province. They may be the predisposing factors for atherosclerotic cerebral infarction in this population; however, they are not associated with cerebral hemorrhage.
RESUMEN
The development of clinically applicable scaffolds is important for the application of cell transplantation in various human diseases. The aims of this study are to evaluate fibrin glue in a novel protein replacement therapy using proliferative adipocytes and to develop a mouse model system to monitor the delivery of the transgene product into the blood and the fate of the transduced cells after transplantation. Proliferative adipocytes from mouse adipose tissue were transduced by a retroviral vector harboring the human lecithin-cholesterol acyltransferase (lcat) gene, and were subcutaneously transplanted into mice combined with fibrin glue. The lcat gene transduction efficiency and the subsequent secretion of the product in mouse adipocytes were enhanced using a protamine concentration of 500 microg/ml. Adipogenesis induction did not significantly affect the lcat gene-transduced cell survival after transplantation. Immunohistochemistry showed the ectopic enzyme production to persist for 28 days in the subcutaneously transplanted gene-transduced adipocytes. The increased viability of transplanted cells with fibrin glue was accompanied with the decrease in apoptotic cell death. The immunodetectable serum LCAT levels in mice implanted with the fibrin glue were comparable with those observed in mice implanted with Matrigel, indicating that the transplanted lcat gene-transduced adipocytes survived and functioned in the transplanted spaces with fibrin glue as well as with Matrigel for 28 days. Thus, this in vivo system using fibrin is expected to serve as a good model to further improve the transplanted cell/scaffold conditions for the stable and durable cell-based replacement of defective proteins in patients with LCAT deficiency.