[Practices and challenges of joint education at two medical schools utilizing online pharmacology role-playing].

The pharmacology role-play, in which students impersonate medical personnel and patients to explain illness and drug treatment, is one of the active learning of pharmacology. However, until now, it has been carried out only within one facility, and has not been carried out between different multi-facility facilities with a larger scale. However, the spread of COVID-19 infection in 2020 was a turning point that drastically changed the way of medical school education centered on traditional face-to-face lectures. Above all, remote real-time lessons using Zoom etc. have the advantage that about 300 students can be conducted at multiple facilities without having to gather them in one place at the same time. With the Korona-ka as a strange currency, the infrastructure has been set up to carry out joint education in pharmacological role-playing between different multi-institutions. We are the first in Japan to conduct a pharmacology role-play jointly by Fujita Medical University and Aichi Medical University, so we would like to introduce the contents.

UBIAD1 Plays an Essential Role in the Survival of Pancreatic Acinar Cells.

UbiA prenyltransferase domain-containing protein 1 (UBIAD1) is a vitamin K2 biosynthetic enzyme. We previously showed the lethality of this enzyme in UBIAD1 knockout mice during the embryonic stage. However, the biological effects of UBIAD1 deficiency after birth remain unclear. In the present study, we used a tamoxifen-inducible systemic UBIAD1 knockout mouse model to determine the role of UBIAD1 in adult mice. UBIAD1 knockout resulted in the death of the mice within about 60 days of administration of tamoxifen. The pancreas presented with the most prominent abnormality in the tamoxifen-induced UBIAD1 knockout mice. The pancreas was reduced remarkably in size; furthermore, the pancreatic acinar cells disappeared and were replaced by vacuoles. Further analysis revealed that the vacuoles were adipocytes. UBIAD1 deficiency in the pancreatic acinar cells caused an increase in oxidative stress and autophagy, leading to apoptotic cell death in the tamoxifen-induced UBIAD 1 knockout mice. These results indicate that UBIAD1 is essential for maintaining the survival of pancreatic acinar cells in the pancreas.