Publication List English

2021/10/31
Generation of a Transgenic Zebrafish Line for In Vivo Assessment of Hepatic Apoptosis

2021/08/19
Patient-Derived Cancer Xenograft Zebrafish Model (PDXZ) for Drug Discovery Screening and Personalized Medicine

2021/07/09
Quality Control Protocol for Zebrafish Developmental Toxicity Studies

2020/10/13
Gap junction protein beta 4 plays an important role in cardiac function in humans, rodents, and zebrafish

2020/05/28
A novel orexin antagonist from a natural plant was discovered using zebrafish behavioural analysis

tGeneration of a Transgenic Zebrafish Line for In Vivo Assessment of Hepatic Apoptosis

                     
2021/10/31

Aina Higuchi,Eri Wakai ,Tomoko Tada ,Junko Koiwa,Yuka Adachi,Takashi Shiromizu,Hidemasa Goto,Toshio Tanaka andYuhei Nishimura

Pharmaceuticals 2021, 14(11), 1117; https://doi.org/10.3390/ph14111117
Received: 20 October 2021 / Accepted: 29 October 2021 / Published: 31 October 2021

Abstract
Hepatic apoptosis is involved in a variety of pathophysiologic conditions in the liver, including hepatitis, steatosis, and drug-induced liver injury. The development of easy-to-perform and reliable in vivo assays would thus greatly enhance the efforts to understand liver diseases and identify associated genes and potential drugs. In this study, we developed a transgenic zebrafish line that was suitable for the assessment of caspase 3 activity in the liver by using in vivo fluorescence imaging. The larvae of transgenic zebrafish dominantly expressed Casper3GR in the liver under control of the promoter of the phosphoenolpyruvate carboxykinase 1 gene. Casper3GR is composed of two fluorescent proteins, tagGFP and tagRFP, which are connected via a peptide linker that can be cleaved by activated caspase 3. Under tagGFP excitation conditions in zebrafish that were exposed to the well-characterized hepatotoxicant isoniazid, we detected increased and decreased fluorescence associated with tagGFP and tagRFP, respectively. This result suggests that isoniazid activates caspase 3 in the zebrafish liver, which digests the linker between tagGFP and tagRFP, resulting in a reduction in the Forster resonance energy transfer to tagRFP upon tagGFP excitation. We also detected isoniazid-induced inhibition of caspase 3 activity in zebrafish that were treated with the hepatoprotectants ursodeoxycholic acid and obeticholic acid. The transgenic zebrafish that were developed in this study could be a powerful tool for identifying both hepatotoxic and hepatoprotective drugs, as well as for analyzing the effects of the genes of interest to hepatic apoptosis.

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