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Enzyme could help prevent neurodegenerative diseases – study

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Scientists have identified a missing link that can help protect the brain from ageing and may play a role in preventing neurodegenerative diseases.

Nicotinamide nucleotide adenylyl transferase 2NMNAT2 is a vital provider of nicotinamide adenine dinucleotide for the brain. NAD has been studied intensively for its regenerative properties and is sometimes referred to as the “fountain of youth.”

The new research, led by Hui-Chen Lu, professor and director of the Linda and Jack Gill Center for Biomolecular Science at IU, alongside graduate students Sen Yang and Zhen Xian Niou, at College of Arts and Sciences, Indiana University, found that NMNAT2, provides energy to axons independent of the mitochondria.

It does this by propelling glycolysis, a process in which glucose is broken down to produce energy. This gives axons enough energy to carry out nerve impulses to the brain and other parts of the body, keeping them healthy and functional. The enzyme can play a critical role in fending off neurodegenerative diseases like ALS, Alzheimer’s, Huntington’s and Parkinson’s as people age.

Axons are long, thin fibers that connect nerve cells and allow them to communicate with each other. Axons are typically one micrometer in diameter­ — several times thinner than a human hair — making them vulnerable and easily damaged by inflammation, trauma, reduced blood flow to the brain and infection. Often, axon damage is the first sign of neurodegenerative disease, but their protection can delay neurodegeneration.

Axons quickly convey information throughout the entire body, a process of traveling long distances within an extremely short time scale that requires significant amounts of energy. However, the mitochondria, widely known as the cellular powerhouse, are in relatively sparse density in axons.

Hui-Chen Lu, professor and director of the Linda and Jack Gill Center for Biomolecular Science at IU Bloomington. Photo: Gill Center for Biomolecular Science

Professor Lu commented: “This new finding showcases the importance of neuron-intrinsic glycolysis in supporting axonal transport, essential for the establishment and maintenance of neuronal circuitry.

“With this information, the next step could be designing drugs to target NMNAT2 to boost its expression or activity in pre-symptomatic stages of neurodegeneration.”L

Lu’s laboratory has studied NMNAT2 extensively, publishing research in 2017 which found that caffeine, along with 23 other compounds, can increase the body’s production of NMNAT2. In 2016, Lu published a study that found those with higher levels of NMNAT2 had greater resistance to cognitive decline as they aged.

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