AI Article Synopsis
- A study analyzed protein changes in glioblastoma cell lines treated with wild-type TP53 and the chemotherapy SN38, identifying galectin-1 as negatively regulated by these treatments.
- High levels of galectin-1 were consistently found in various glioma cell lines and a murine tumor model, indicating its prevalent expression at the tumor edges.
- The findings suggest that galectin-1 could serve as a significant biomarker and therapeutic target for glioblastoma, highlighting the usefulness of proteomic analysis in cancer research.
Article Abstract
Global protein analysis of treated and untreated glioblastoma cell lines was performed. Proteomic analysis revealed the identity of proteins that were significantly modulated by the treatment with wild-type TP53 and the cytotoxic chemotherapy SN38. In particular, galectin-1 was found to be negatively regulated by transfection with TP53 and further down-regulated by SN38. Expression level changes were confirmed by Western blot. Subsequent analysis of several high-grade glioma cell lines demonstrated very high levels of galectin-1, regardless if the cell lines contained mutant or wild-type TP53. High expression of galectin-1 in a human orthotopic murine tumor model was also detected by immunohistochemistry and revealed a consistent pattern of preferential expression in peripheral or leading tumor edges. Further examination of galectin-1 expression through microarray analysis in tumor materials from patients confirmed galectin-1 as a valuable biomarker and possible therapeutic target. These results demonstrate the utility of using proteomic approaches to interrogate and identify potential useful targets for cancer therapy by evaluating specific tumor responses, either positive or negative, to various therapies.
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| http://dx.doi.org/10.1021/pr060302l | DOI Listing |
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