[Characteristics and Influencing factors of Sperm Interaction with Exogenous DNA].

Exogenous DNA localization and the frequency of spermatozoa carrying exogenous DNA after sperm/DNA co-culture are key to a successful sperm mediated-gene transfer (SMGT). In the study, the characteristics and influencing factors of exogenous DNA uptake by spermatozoa were tested using digoxigenin (DIG) labeled DNA as trace. Results showed that goat spermatozoa could spontaneously take up exogenous DNA. The exogenous DNA was initially bound to the outer sperm membrane at postacrosomal region; subsequently party of the bound DNA was internalized into nucleus. There were considerable differences in the capability of spermatozoa from different donors to bind and internalize exogenous DNA. In 35 samples, binding rates (before DNase I digestion) and internalization rates (the positive rate after DNase I digestion) varied between 4.6%-62.4% and 2.1%-53.8%, respectively. For the spermatozoa from the same goat, the binding and internalization capacities were mostly inhibited by the seminal fluid. Compared to ejaculate sperm, the binding rate and internalization rate were increased three and five times in washed sperm cells, respectively. At the same time, capacitated spermatozoa also had lower exogenous DNA uptake (P<0.01). Dead spermatozoa did not complete the internalization process. The highest positive rate (before DNase I digestion) was found in membrane-broken spermatozoa as a result of freeze-thawing and this was independent of the sperm donors. These results suggest that selection of appropriate sperm donors and optimization of sperm processing procedures are the key steps for successful SMGT.

[A deletion mutant of plasminogen kringle 5 inhibits retinal capillary endothelial cell proliferation].

OBJECTIVE: To obtain purified deletion mutant of plasminogen kringle 5 (K5) using gene mutation and genetic recombination methods and assess its anti-angiogenic activity in vitro. METHODS: A deletion mutant of K5 was obtained by deleting 15 amino acids from K5 while retaining all the 3 disulfide bonds. This K5 mutant (Mut1) was expressed in E. coli and affinity purified. The inhibition effect of K5 Mut1 on primary retinal capillary endothelial cells and pericytes from the same origin was assessed by MTT assay. RESULTS: The K5 Mut1 inhibited the proliferation of primary retinal capillary endothelial cells in a concentration-dependent manner, with an apparent half-inhibition concentration (EC(50)) of approximately 35 nmol/L, which was 2-fold more potent than intact K5. In the same concentration range, this peptide did not inhibit pericytes from the same origin, suggesting an endothelial cell-specific inhibition. CONCLUSION: This K5 deletion mutant is a more potent angiogenic inhibitor than K5 and may have therapeutic potential in the treatment of such disorders with abnormal neovascularization as diabetic retinopathy, age-related macular degeneration and solid tumor.