Generation of allogenic chimera carrying mutations in PDX1 and TP53 genes via phytohemagglutinin-mediated blastomere aggregation in pigs.

The generation of genetically engineered pig models that develop pancreas-specific tumors has the potential to advance studies and our understanding of pancreatic cancer in humans. TP53 mutation causes organ-nonspecific cancers, and PDX1-knockout results in the loss of pancreas development. The aim of the present study was to generate a PDX1-knockout pig chimera carrying pancreas complemented by TP53 mutant cells via phytohemagglutinin (PHA)-mediated blastomere aggregation using PDX1 and TP53 mutant blastomeres, as a pig model for developing tumors in the pancreas with high frequency. First, the concentration and exposure time to PHA to achieve efficient blastomere aggregation were optimized. The results showed that using 300 µg/mL PHA for 10 min yielded the highest rates of chimeric blastocyst formation. Genotyping analysis of chimeric blastocysts derived from aggregated embryos using PDX1- and TP53-edited blastomere indicated that approximately 28.6% carried mutations in both target regions, while 14.3-21.4% carried mutations in one target. After the transfer of the chimeric blastocysts into one recipient, the recipient became pregnant with three fetuses. Deep sequencing analysis of the PDX1 and TP53 regions using ear and pancreas samples showed that one fetus carried mutations in both target genes, suggesting that the fetus was a chimera derived from embryo-aggregated PDX1 and TP53 mutant blastomeres. Two out of three fetuses carried only the PDX1 mutation, indicating that the fetuses developed from embryos not carrying TP53-edited blastomeres. The results of the present study could facilitate the further improvement and design of high-frequency developing pancreatic tumor models in pigs.

Effects of green tea polyphenols and α-tocopherol on the quality of chilled cat spermatozoa and sperm IZUMO1 protein expression during long-term preservation.

Sperm IZUMO1 protein was recently found to be a crucial mediator in the interaction and fusion with eggs, indicating an important role in assuring the favourable outcome from long-term preservation of chilled semen. The purpose of this study was to investigate whether supplementation of chilled semen extender with green tea polyphenols together with α-tocopherol would provide synergistic effects to prolong sperm survival and maintain IZUMO1 protein stability in cat spermatozoa. Sperm samples were collected from the cat epididymis before being diluted with semen extender containing various concentrations of α-tocopherol (0, 2.5, 5 and 7.5 µg/ml) and 0.75 mg/ml green tea polyphenols and cooled to 4 °C. One sample without antioxidants served as a control. Sperm characteristics and IZUMO1 protein expression were investigated before and after chilling at 3, 6, 9, 12 and 15 days. Using α-tocopherol at 5 µg/ml together with 0.75 mg/ml green tea polyphenols in the semen extender is the most suitable condition to retain the sperm characteristics up to nine days of preservation. Cat IZUMO1 proteins, 17 kDa, were identified at the equatorial segment of acrosome reacted sperm. Without antioxidant, cold storage can gradually degrade the IZUMO1 protein level. Sperm IZUMO1 protein was markedly conserved by supplementation of 5 µg/ml α-tocopherol together with 0.75 mg/ml green tea polyphenols up to 12 days in cold storage. These findings indicate that green tea polyphenols and α-tocopherol have protective effects on the preservation of sperm characteristics and IZUMO1 protein integrity of cat epididymal sperm during long-term chilling.

Introduction of a point mutation in the KRAS gene of in vitro fertilized porcine zygotes via electroporation of the CRISPR/Cas9 system with single-stranded oligodeoxynucleotides.

This study aimed to investigate the efficiency of KRAS gene editing via CRISPR/Cas9 delivery by electroporation and analyzed the effects of the non-homologous end-joining pathway inhibitor Scr7 and single-stranded oligodeoxynucleotide (ssODN) homology arm length on introducing a point mutation in KRAS. Various concentrations (0-2 µM) of Scr7 were evaluated; all concentrations of Scr7 including 0 µM resulted in the generation of blastocysts with a point mutation and the wild-type sequence or indels. No significant differences in the blastocyst formation rates of electroporated zygotes were observed among ssODN homology arm lengths, irrespective of the gRNA (gRNA1 and gRNA2). The proportion of blastocysts carrying a point mutation with or without the wild-type sequence and indels was significantly higher in the ssODN20 group (i.e., the group with a ssODN homology arm of 20 bp) than in the ssODN60 group (gRNA1: 25.7% vs. 5.4% and gRNA2: 45.5% vs. 5.9%, p < .05). In conclusion, the CRISPR/Cas9 delivery with ssODN via electroporation is feasible for the generation of point mutations in porcine embryos. Further studies are required to improve the efficiency and accuracy of the homology-directed repair.

Effects of green tea polyphenol on the quality of canine semen after long-term storage at 5°C.

The aim of the present study was to determine the effects of green tea polyphenol on the quality of canine semen after long-term storage at 5°C. The supplementation of a Tris-egg yolk extender with polyphenol (0.5, 0.75, or 1mg/mL) increased the motility and viability of sperm preserved for four weeks at 5°C.

Long-term preservation of chilled canine semen using vitamin C in combination with green tea polyphenol.

Vitamin C and green tea polyphenol are known to have antioxidant effects. The aim of this study was to evaluate the quality of canine semen after preservation with diluents containing vitamin C and polyphenol at 5 degree C for 4 weeks. In experiment 1, we investigated the effects of vitamin C combined with polyphenol supplementation on chilled semen quality. The addition of vitamin C (0.5 or 1 mM) with 0.75 mg per mL polyphenol to semen extender provided significantly higher percentages of sperm motility and viability during cold storage compared to unsupplemented semen. In experiment 2, we determined the optimal working concentration of vitamin C in the semen extender by comparison of a range of concentrations between 0.1 and 20 mM. Supplementation of 0.5 mM vitamin C plus polyphenol yielded the highest percentages of sperm motility and viability; however, there was no beneficial effect on the plasma membrane and acrosomal integrity of the spermatozoa.