AI Article Synopsis
- The lectin DVL from Dioclea violacea seeds exhibits significant antitumor effects on the U87 human glioma cell line, reducing cell number and viability in a dose- and time-dependent manner.
- DVL treatment leads to changes in cell morphology and impairs migration while inducing autophagy without triggering apoptosis, which contrasts with the effects of ConA.
- Mechanistically, DVL affects key signaling pathways by decreasing the phosphorylation of proteins like Akt and mTORC1, indicating a selective inhibitory action on glioma cells while leaving primary astrocytes unharmed.
Article Abstract
The antitumor activity of DVL, a lectin purified from Dioclea violacea seeds, on the U87 human glioma cell line was evaluated and compared with Canavalia ensiformis lectin (ConA). Treatment with DVL (10-100 μg/mL; 24-96 h) induced alterations in cell morphology, decreased cell numbers and clonogenic survival in a time- and concentration-dependent manner. DVL caused significant decreases in cell viability and impaired cell migration. Mechanistically, DVL treatment (12 h) disrupted mitochondrial electrochemical gradient, without ROS accumulation or caspase activation. In the absence of apoptosis, DVL (30-100 μg/mL), instead, induced autophagy, as detected by acridine orange staining and cleavage of LC3I. Inhibition of autophagy with 3-Methyladenine (3-MA) and Chloroquine partially abrogated DVL, but not ConA, cytotoxicity. The modulation of signaling pathways that orchestrate autophagic and cell survival processes were analyzed. DVL (30-100 μg/mL) decreased Akt, mTORC1 and ERK1/2 phosphorylation and augmented JNK(p54) and p38 phosphorylation. DVL was more potent than ConA for most parameters analyzed. Even though both lectins showed cytotoxicity to glioma cells, they spared primary astrocyte cultures. The results suggest a selective antiglioma activity of DVL by inhibiting U87 glioma cell migration and proliferation and inducing cell death, partially associated with autophagy, and likely involving Akt and mTORC1 dephosphorylation.
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| http://dx.doi.org/10.1016/j.ijbiomac.2019.04.203 | DOI Listing |
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