Experimental gliomas in mice using the Sleeping Beauty (SB) transposon system: neuropathologic aspects

The SB transposon system has been used as an insertional mutagen to study tumor development. This novel system involves the mobilization of a transposon (e.g. T2/onc) by a tranposase source (e.g. Rosa26‐SB11) in transgenic mice. We serially sectioned FFPE brains from 154 mice and identified 15 infiltrating gliomas that morphologically resembled small cell astrocytomas, as well as one PNET. The gliomas involved cerebral hemispheres (n=8) or posterior fossa (n=7). The tumors demonstrated remarkable infiltration of underlying brain parenchyma with secondary structuring (i.e. subpial, perivascular and perineuronal aggregation); round to oval cells with irregular nuclear contours, scant cell processes and variable mitotic activity (median 4/10 hpf, range 2–9); and pseudopalisading necrosis (n=5). Endothelial proliferation and calcification were absent. Immunohistochemical stains for GFAP and S100 strongly labeled reactive astrocytes, but minimal immunoreactivity was also seen in occasional small tumor cells. In 14 of 15 mice the genotype was T2/onc/SB11 positive; three mice were p19 Arf +/− , one mouse was p19 Arf −/− and one was Blm −/− . The PNET filling the third ventricle was identified in a control mouse homozygous mutant for p19 Arf , but transgenic only for the T2/Onc concatomer. This tumor, in contrast to the gliomas, demonstrated uniform synaptophysin staining and did not label with GFAP or S100.These results demonstrate that the SB transposon system is a valid model to study gliomagenesis in mice.