Establishment of a pancreatic cancer animal model using the pancreas-targeted hydrodynamic gene delivery method
Pancreatic cancer has a significantly poor prognosis; therefore, the development of effective treatments is an unmet clinical need. The major drawback in this field was the lack of useful model animals, which delayed the establishment of markers for early diagnosis and therapeutic options. The research group established an effective carcinogenesis method with wild-type rats by selectively introducing oncogenes into the pancreas, using the pancreas-targeted hydrodynamic gene delivery method that has been developed by the group.
The research group of Professor Kamimura in Niigata University have established a novel pancreatic carcinogenesis model in wild-type rats utilizing the pancreas-targeted selective hydrodynamic gene delivery method developed by their research group.
“The gene human pancreatic cancer-related gene transfer of the KRASG12D efficiently developed the pancreatic cancer,” says Prof. Kamimura. KRASG12D-induced pancreatic intraepithelial neoplasia lesions showed malignant transformation in the main pancreatic duct at four weeks and developed acinar-to-ductal metaplasia, which led to pancreatic ductal adenocarcinoma within five weeks and the gene combination of KRASG12D and YAP enhanced these effects.
In addition, the combination of oncogenes revealed the metastatic tumors in the liver, lymph nodes, etc., and invasive growth to the surrounding organ and tissues, mimicking the clinical course of human pancreatic cancer. The pancreas-targeted hydrodynamic gene delivery showed its efficacy in developing novel animal models and is promising methods for the organ specific gene therapy. Prof. Kamimura concluded that this pancreatic cancer model will speed up pancreatic cancer research for novel treatments and biomarkers for early diagnosis.
Glossary
1. Hydrodynamic gene delivery method
This method introduces a gene from a blood vessel of a target organ using physical force (water pressure) to express the target protein in the organ cells. Authors have reported the usefulness of this method for gene therapy for the liver cirrhosis etc., and developed organ-selective gene transfer methods such as for the liver and pancreas. and verified the procedure in large animals for clinical application (Kamimura K, et al. Mol Ther, 2009; Kamimura K, et al. Mol Ther, 2010; Yokoo T & Kamimura K, et al. Gene Ther, 2013; Kamimura K, et al. Mol Ther Nucleic Acids, 2013; Abe H & Kamimura K, et al. Mol Ther Nucleic Acids, 2016; Kobayashi Y & Kamimura K, et al. Mol Ther Nucleic Acids, 2016; Ogawa K & Kamimura K, et al. Mol Ther Nucleic Acids, 2017)
2. KRAS gene
A member of the ras family of oncogenes, which transmits cell proliferation signals to the cell nucleus and promotes cell proliferation. Mutations in this gene (e.g. KRASG12D) play an important role in promoting carcinogenesis.
3. YAP gene
The YAP (yes-associated protein) gene is one oncogene that functions in various human cancers. Involved in cell proliferation as a transcription factor, the YAP is also reported to be inhibited by the Hippo signaling pathway, which enables controlling organ size and suppressing tumors.
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Materials provided by Niigata University. Note: Content may be edited for style and length.
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