Objective: To test whether splicing overlapping extension(SOE) method can be a tool for obtaining rare fusion gene's transcripts and to study the tumorigenic capacity of a novel fusion gene AML1-MTG16.
Methods: SOE method was used to obtain AML1- MTG16 fusion gene's transcripts. MTG16, AML1-MTG16 and AML1-MTG16 without III,VI conserved domains of MTG16 segment were inserted into pEGFP- C1,pDsRed-N1 vector respectively,then transfected NIH3T3 cell line by lipofection. Forty-eight hours later, the transfected cells were examined by laser-scanning confocal microscopy. Stable transfected cells were obtained by G418 500ug/ul selection for one month. Growth curve, soft agar colonies formation tumorigenesis in nude mice were done to compare the difference between stable transfected cells.
Results: Recombined AML1-MTG16 by SOE contained its CDS. NIH3T3 expressing AML1-MTG16 had a faster proliferation in medium, colony growth in soft agar. AML1-MTG16 expression cells also induced tumors formation following injection into nude mouse. MTG16,AML1-MTG16 and AML1-MTG16 without III,VI conserved domains of MTG16 were colocalized in the nucleus of cotransfected NIH3T3 cells under the examination of laser-scanning confocal microscope.
Conclusion: SOE is an effective method to get rare fusion gene's transcripts. AML1-MTG16 plays an important role in leukemogenesis. MTG16 may also have a carcinogenic property within the AML1-MTG16 fusion gene. Carcinogenic property of AML1-MTG16 is restricted to its localization in the nuclear matrix. N terminal of MTG16 may play an important part in the carcinogenic activity of AML1-MTG16.