Effect of endonucleases inhibitor in mice sperm mediated gene transfer

The low efficiency and low repeatability of sperm-mediated gene transfer (SMGT) could be due to the activation of sperm endonucleases. The inhibition of this enzyme would avoid genomic DNA fragmentation enabling the use of higher concentrations of exogenous DNA, increasing the efficiency and ensuring the reproducibility of this technique. Aurintricarboxilic acid (ATA) is a general inhibitor of endonucleases (HALLICK et al., 1977), including sperm endonucleases (MAIONE et al., 1997; MAGNANO et al., 1998). This study aimed to evaluate the inhibition of sperm endonucleases using the aurintricarboxilic acid (ATA). For that, three experiments were set: 1) evaluate the inhibition of sperm endonucleases by adding aurintricarboxilic acid after incubation with exogenous DNA, 2) study the inhibition efficiency of ATA in genomic DNA fragmentation and 3) detect exogenous DNA internalization after the use of ATA. For the first experiment, a plasmid digestion assay with pmGENIE3 and PCX-EGFP and three concentrations of ATA (10µM, 25µM and 50µM) were tested. The digestion of plasmid vector occurred by incubation of PCX-EGFP and pmGENIE3 with and without the presence of ATA with sperm extracts. Incubations took place for 1 hour at 37°C and the products were analyzed by electrophoresis (2 hours, 100mV) in 0,7% agarose gel. The results were evaluated on a cross scale whereas 1 was considered a total plasmid digestion and 3 no digestion. The results were analyzed with a significance level of 5%. The results show differences in the digestion of the two plasmid vectors, being pmGENIE3 more susceptible to degradation by sperm extract, demonstrating absence of bands in some replicates (median = 1). The PCX-EGFP showed a parcial inhibition of the degradation using 10µM ATA. PmGENIE3 presented inhibiting of degradation only using 25 or 50µM of ATA. Thus, the concentration used in the consecutives experiments was 50µM. For experiment 2, sperm from Bl-6/DBA (F1) mice strain were incubated with two concentrations (500 or 1000ng) of the PCX-EGFP plasmid, with and without pre-incubation with ATA. Incubation took place for 5 hours, with 5% CO2 in air, at 37°C. Sperm samples were subjected to acid denaturation susceptibility test and alkaline comet assay to check for possible chromatin fragility. The data showed that the use of ATA in murine sperm leads to a fragility of their genome, independently of the incubation with exogenous DNA and its concentration. Result showed that there might be a threshold concentration for chromosomal DNA fragmentation caused by endonucleases, which was 500ng of plasmid. The use of higher concentrations, as 1000ng, may be a protective factor for genomic DNA integrity, since exogenous DNA seems to be the primary target of endonucleases, showed by, lower DNA fragmentation levels. In experiment 3, sperm were incubated with 500 or 1000ng PCX-EGFP/106 cells, pre-incubated or not with ATA. Genomic DNA was extracted by phenol chloroform method, diluted to concentrations of 1ng/µl and subjected to quantification of plasmid DNA insertions by absolute quantification in real-time PCR (qPCR). The results showed that ATA did not improve the efficiency of DNA internalization, whereas both concentration of 500 and 1000ng presented a lower percentage of exogenous DNA integration (0.001% in both groups) compared with the groups in which ATA was not used. The groups without ATA did not differ indicating that the amount of 500ng of DNA was able to integrate exogenous DNA to sperm, and have higher percentage of incorporation compared to 1000ng (0,20% versus 0,10%). Thereby, the use of an endonuclease inhibitor instead of increasing integration indexes showed opposite results, indicating that its use did not bring improvements to the SMGT technique. (AU)