Stories about: Charcot-Marie-Tooth

Maintaining mitochondria in neurons: A new lens for neurodegenerative disorders

cartoon of mitochondria being transported in neurons - part of mitostasis
In some neurons, mitochondria must travel several feet along an axon. (Elena Hartley illustration)

Tom Schwarz, PhD, is a neuroscientist at Boston Children’s Hospital’s F.M. Kirby Neurobiology Center, focusing on the cell biology of neurons. Tess Joosse is a biology major at Oberlin College. This article is condensed from a recent review article by Schwarz and Thomas Misgeld (Technical University of Munich).

Like all cells, the neurons of our nervous system depend on mitochondria to generate energy. Mitochondria need constant rejuvenation and turnover, and that’s especially true in neurons because of their high energy needs for signaling and “firing.” Mitochondria are especially abundant at presynaptic sites — the tips of axons that form synapses or junctions with other neurons and release neurotransmitters.

But the process of maintaining mitochondrial number and quality, known as mitostasis, also poses particular challenges in neurons. Increasingly, mitostasis is providing a helpful lens for understanding neurodegenerative disorders. Problems with mitostasis are implicated in Parkinson’s disease, Alzheimer’s disease, ALS, autism, stroke, multiple sclerosis, hypoxia and more.

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With no time to lose, parents drive CMT4J gene therapy forward

CMT4J
Talia Duff’s disorder, CMT4J, is a rare form of Charcot-Marie-Tooth. It has been modeled in mice that will soon undergo a test of gene therapy, largely through her parents’ behind-the-scenes work.

In honor of Rare Disease Day (Feb. 28), we salute “citizen scientists” Jocelyn and John Duff.

When Talia Duff was born, her parents realized life would be different, but still joyful. They were quickly adopted by the Down syndrome parent community and fell in love with Talia and her bright smile.

But when Talia was about four, it was clear she had a true problem. She started losing strength in her arms and legs. When she got sick, which was often, the weakness seemed to accelerate.

Talia was initially diagnosed with chronic inflammatory demyelinating polyradiculoneuropathy (CIDP), an autoimmune disease in which the body attacks its own nerve fibers. Treated with IV immunoglobulin infusions to curb the inflammation, she seemed to grow stronger — but only for a time. Adding prednisone, a steroid, seemed to help. But it also caused bone loss, and Talia began having spine fractures.

“We tried a lot of different things, but she never got 100 percent better,” says Regina Laine, NP, who has been following Talia in Boston Children’s Hospital’s Neuromuscular Center the past several years, together with Basil Darras, MD.That’s when we decided to readdress the possibility that it was genetic.”

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