The Fluorinated NAD Precursors Enhance FK866 Cytotoxicity by Activating SARM1 in Glioblastoma Cells
Wei Ming He, Jian Yuan Yang, Zhi Ying Zhao, Weimin Xiao, Wan Hua Li, Yong Juan Zhao

TL;DR
This study shows that fluorinated NAD precursors, when combined with FK866, can significantly increase the death of glioblastoma cells by activating SARM1.
Contribution
The study introduces fluorinated NAD precursors as a novel way to enhance FK866's effectiveness in glioblastoma treatment.
Findings
F-NR, a fluorinated NAD precursor, enhances FK866's cytotoxicity in glioblastoma cells.
F-NR's metabolite F-NMN activates SARM1, contributing to increased cell death.
NAD depletion precedes ATP depletion and massive cell death in glioblastoma cells.
Abstract
In tackling the daunting challenge of glioblastoma, a severe form of brain tumor, researchers have been exploring ways to disrupt its abnormal energy production, focusing on a molecule called NAD. The drug FK866, known to deplete NAD, shows potential in curbing tumor growth but faces limitations when used alone. This study introduces a novel approach using fluorinated versions of NAD precursors, specifically a compound named F-NR, which when, combined with FK866, significantly boosts its effectiveness against glioblastoma cells. F-NR works by competing with the endogenous metabolism of NR, leading to reduced NAD levels and enhancing FK866’s ability to kill cancer cells. Another key finding is the role of SARM1, activated by one of F-NR’s metabolites, which contributes to the enhanced cell-killing effect. The sequence of events—NAD depletion followed by energy loss and ultimately,…
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Taxonomy
TopicsSirtuins and Resveratrol in Medicine · Calcium signaling and nucleotide metabolism · Autophagy in Disease and Therapy
