AI Article Synopsis
- Glioblastoma (GBM) is a serious brain cancer with poor survival rates, prompting research into targeted treatments like the arazyme-interleukin-13 (AraA-IL13) fusion protein.
- Researchers designed and synthesized a chimeric gene for AraA-IL13, optimized its expression, and evaluated its characteristics but found it had no proteolytic activity or cytotoxic effects on GBM cell lines (U251 and T98G) even at high concentrations.
- The study concluded that the lack of activity may stem from structural issues in the protein, affecting its ability to function properly.
Article Abstract
Background And Purpose: Glioblastoma (GBM) is an aggressive and malignant brain cancer with the highest mortality and low survival rates. To discover a more specific and efficient treatment for GBM, we synthesized and examined the cytotoxic effect of arazyme-interleukin-13 () fusion protein on GBM cells.
Experimental Approach: At first, the chimeric gene in the pET28a (+) vector was designed and synthesized. After transformation into BL21 (DE3), the chimeric gene was verified by colony polymerase chain reaction. Expression optimization and purification of the AraA-IL13 fusion protein was performed and subsequently evaluated by 10% SDS-PAGE. The protein was purified and concentrated using the Amicon Ultra- 15 centrifugal filter unit. The presence of AraA-IL13 was investigated by the western blotting technique. The enzyme was evaluated for proteolytic activity after purification on skim milk agar. The cytotoxic effect of the AraA-IL13 fusion protein was evaluated by MTT assay on U251 and T98G cell lines .
Findings/results: The chimeric protein had no proteolytic activity on skim milk agar despite high expression. Furthermore, no cytotoxic effect of this fusion protein (up to 400 μg/mL) was observed on the U251 and T98G cell lines.
Conclusion And Implications: The lack of proteolytic activity and cytotoxic effect of AraA-IL13 may be due to the disruption of the three-dimensional structure of the protein or the large structure of the arazyme coupled with the ligand and the lack of proper folding of the arazyme to make the active site of the enzyme inaccessible.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11468163 | PMC |
| http://dx.doi.org/10.4103/RPS.RPS_92_23 | DOI Listing |
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