NAD⁺ and SIRT3 control microtubule dynamics and reduce susceptibility to antimicrotubule agents
2014
Harkcom, William T. | Ghosh, Ananda K. | Sung, Matthew S. | Matov, Alexandre | Brown, Kevin D. | Giannakakou, Paraskevi | Jaffrey, Samie R.
Nicotinamide adenine dinucleotide (NAD ⁺) is an endogenous enzyme cofactor and cosubstrate that has effects on diverse cellular and physiologic processes, including reactive oxygen species generation, mitochondrial function, apoptosis, and axonal degeneration. A major goal is to identify the NAD ⁺-regulated cellular pathways that may mediate these effects. Here we show that the dynamic assembly and disassembly of microtubules is markedly altered by NAD ⁺. Furthermore, we show that the disassembly of microtubule polymers elicited by microtubule depolymerizing agents is blocked by increasing intracellular NAD ⁺ levels. We find that these effects of NAD ⁺ are mediated by the activation of the mitochondrial sirtuin sirtuin-3 (SIRT3). Overexpression of SIRT3 prevents microtubule disassembly and apoptosis elicited by antimicrotubule agents and knockdown of SIRT3 prevents the protective effects of NAD ⁺ on microtubule polymers. Taken together, these data demonstrate that NAD ⁺ and SIRT3 regulate microtubule polymerization and the efficacy of antimicrotubule agents.
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