胰腺
生物
两栖动物
内分泌系统
平菇
背景(考古学)
Triturus公司
解剖
肠内分泌细胞
绿背蜱
内科学
内分泌学
再生(生物学)
细胞生物学
生态学
古生物学
激素
医学
作者
Ryosuke Morozumi,Kazuko Okamoto,Eriko Enomoto,Yasumasa Tsukamoto,Mitsuki Kyakuno,Nanoka Suzuki,Ichiro Tazawa,Nobuaki Furuno,Hajime Ogino,Yasuhiro Kamei,Masatoshi Matsunami,Shuji Shigenobu,Kenichi Suzuki,Hitoshi Uemasu,Noriyuki Namba,Toshinori Hayashi
摘要
Abstract Background The pancreas exhibits diverse structures and roles across vertebrates. The pancreas has evolved to include both endocrine and exocrine cells, a change that occurred during the transition from fish to amphibian. This event emphasizes the evolutionary significance of amphibians. However, research has focused predominantly on anuran amphibians, with urodeles, such as newts, remaining underexplored. In this study, we investigated the development of the pancreas using Pleurodeles waltl as a model species of urodele. Results The newt pancreas consists of a single organ with exocrine tissue characterized by acinar structures and endocrine tissue forming islets. Notably, the newt possesses unique pancreas‐like tissues on their intestines. We found that disruption of the newt Pancreatic and Duodenal Homeobox (Pdx) 1 gene resulted in an underdeveloped pancreas. Conversely, disruption of the Pdx2 paralog in newt had no significant impact on pancreatic development. Conclusion The newt pancreas shows a morphology similar to that of the mammalian pancreas, which includes both exocrine and endocrine tissues. These results highlight the intermediate evolutionary position of the newt in the context of the evolution of pancreatic development. Our findings indicate that characterization of the newt pancreas will be crucial for understanding the evolutionary progression of pancreatic function in vertebrates.
科研通智能强力驱动
Strongly Powered by AbleSci AI