CYP2C76 deficiency is embryonic lethal in cynomolgus macaques: The potential role of CYP2C76 in early embryogenesis.

Cynomolgus macaques are an important primate species for drug metabolism studies; however cynomolgus CYP2C76, an important drug-metabolizing enzyme, accounts for drug metabolism differences to humans, so that CYP2C76-null animals might show drug-metabolizing properties more similar to humans. In this study, attempts were made to produce CYP2C76-null animals by assisted reproduction technology. Oocytes and sperm collected from the heterozygotes for the null allele (c.449TG > A) were subjected to intracytoplasmic sperm injection, and the embryos produced were cultured in vitro through the blastocyst stage. Preimplantation genetic diagnosis using a biopsied portion of the blastocyst revealed that none of the 32 blastocysts analyzed were homozygotes. In contrast, 2 of the 20 embryos analyzed were homozygotes at the 8-cell stage, indicating that CYP2C76-null embryos most likely stop developing between the 8-cell and blastocyst stage. By polymerase chain reaction, expression of CYP2C76 mRNA was detected in oocytes and blastocysts, but not in 2-, 4-, 8-, or 16/32-cell stage embryos. Metabolic assays showed that CYP2C76 metabolized progesterone. These results indicated that CYP2C76 null was likely embryonic lethal, suggesting its potential role during early embryogenesis in cynomolgus macaques.

Development of a new device for artificial insemination in cynomolgus macaques.

In cynomolgus macaques, an important animal species for biomedical research, efficient reproduction has been hampered partly due to the difficulties of artificial insemination (AI) using straw tubes developed for humans or farm animals, because cynomolgus macaques have a complex cervical canal structure. In this study, taking into consideration the unique structure of the macaque cervical canal, we developed a novel device for AI, comprised of a syringe and an outer cylinder. At 24 and 48 h after using this device to inject semen into one female, viable sperm were observed in the oviduct where the sperm meets the oocytes. We then attempted AI using this new device on 10 females that were at pre-ovulation, and pregnancy was successful in three animals (30% pregnancy rate). These results show that the newly developed device can be used for AI in cynomolgus macaques.

Rapid Absorption of Dry-Powder Intranasal Oxytocin.

PURPOSE: To probe the suitability of a dry-powder oxytocin formulation containing a carrier (µco™; SNBL, Ltd.) for intranasal (IN) administration to treat post-partum hemorrhage in the developing world. Specifically, to investigate (1) whether IN administration can achieve rapid systemic absorption in cynomolgus monkeys, and (2) whether the formulation exhibits sufficient physical and chemical stability. This study was conducted to support Merck for Mothers, Merck's 10-year global initiative to end preventable maternal deaths. METHODS: A partial-crossover pharmacokinetic (PK) study in cynomolgus monkeys (n = 6) was utilized to compare in vivo absorption of dry-powder IN oxytocin at three dose levels against an IM injection of an aqueous oxytocin formulation. Particle size distribution, delivered dose and chemical assay were monitored over a 12 month stability study. RESULTS: IN administration of oxytocin resulted in short (5 min) Tmax and good dose linearity in AUC and Cmax over the dose range tested (10-80 IU per animal). The relative bioavailability (BA) of IN oxytocin to IM injection was approximately 12%. The 80 IU formulation exhibited good physical stability and consistent dosing. After 12 months at 30°C/65%RH, pouched samples retained 86.0% of their original assay value. CONCLUSIONS: The PK and stability data suggests that IN administration of oxytocin formulated in the µco™ carrier may represent a viable option for rapid systemic absorption in humans and a product compatible with resource-scarce regions.