Visualization of Connexin 43-positive cells of glioma and the periglioma zone by means of intravenously injected monoclonal antibodies.

The selectivity of monoclonal antibodies against the E2 extracellular fragment of connexin 43 (Cx43) for a glioma focus was studied in in vivo experiments on animals with intracranial C6 glioma. Antibodies labeled with two alternative labels, the radioisotope (125)I and the fluorophore Alexa 660, were intravenously injected to rats with 18-day gliomas. Seventy-two hours after injection, (125)I-labeled antibodies accumulated in the hemisphere where the glioma was located to a concentration of 0.27 ± 0.01% of the injected dose per gram of wet weight, which exceeded their accumulation in the liver, spleen, and other organs. Fluorescent-labeled antibodies against the Cx43 fragment E2 specifically visualized cells in the peritumoral astroglial bank (a zone of active invasion of glioma cells). Double immunofluorescent visualization using antibodies against the Cx43 fragment E2 and glial fibrillar acidic protein (GFAP) showed that only a small proportion of the cells that bound the antibodies injected into the blood circulation were reactive astrocytes, whereas most of these cells were GFAP-negative and morphologically corresponded to astroblasts. These results suggest that antibodies against the extracellular Cx43 fragment E2 can be used for targeted transport of diagnostic and therapeutic drugs to the peritumoral invasion zone of high-grade gliomas.

Gene Encoding Chitinase 3-Like 1 Protein (CHI3L1) is a Putative Oncogene.

An important task in understanding oncogenesis is the identification of those genes whose copy number and expression increase during tumorigenesis. Previously, in an effort to identify genes which could be used as molecular markers for glial tumors, we compared gene expression in glioblastoma to the normal brain cells. Among the genes with the most pronounced increased expression in tumors there was CHI3L1, encoding the secreted chitinase 3-like 1 protein (also known as HC gp-39 or YKL-40). Expression of CHI3L1 was found increased significantly in various tumors in comparison with corresponding normal tissues. Here we show that CHI3L1 can decrease the doubling time of 293 cells. We have also demonstrated that CHI3L1 allows the anchorage-independent growth in soft agar and, in addition, stable CHI3L1 expression made 293 cells tumorigenic: these cells stimulate the initiation of tumors after their xenograft transplantation into the Wistar rat brains. Thus, the overexpression of CHI3L1 is likely to be critical in the development of some tumors and when we gain more information about mechanisms of CHI3L1 oncogenicity, it could be used as one of the potential targets for anticancer therapy.