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Home NEWS Science News Health

Researchers find immune component to rare neurodegenerative disease

Bioengineer by Bioengineer
July 21, 2021
in Health
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Niemann-Pick disease type C, long thought to be tied to cholesterol metabolism, may eventually be treated with immune inhibitors

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Credit: Ting-Ting Chu

UT Southwestern researchers have identified an immune protein tied to the rare neurodegenerative condition known as Niemann-Pick disease type C. The finding, made in mouse models and published online in Nature, could offer a powerful new therapeutic target for Niemann-Pick disease type C, a condition that was identified more than a century ago but still lacks effective treatments.

“Niemann-Pick disease has never been considered an immune disorder,” says study leader Nan Yan, Ph.D., associate professor of immunology and microbiology. “These findings put it in a whole new light.”

Niemann-Pick disease type C, which affects about 1 in every 150,000 people worldwide, has long been considered a disease of cholesterol metabolism and distribution, a topic well-studied at UT Southwestern, where faculty members Michael Brown, M.D., and Joseph Goldstein, M.D., won the Nobel Prize in 1985 for their discovery of low-density lipoprotein (LDL) receptors, which led to the development of statin drugs.

When the Npc1 gene is mutated, cholesterol isn’t sent where it’s needed in cells, causing the progressive decline in motor and intellectual abilities that characterize Niemann-Pick. Yan’s lab, which doesn’t study cholesterol metabolism, made its discovery by chance while researching an immune protein known as STING, short for stimulator of interferon genes.

STING is a critical part of the body’s defense against viruses, typically relying on another protein known as cyclic GMP-AMP synthase (cGAS) to sense DNA and turn on immune genes to fight off viral invaders. The cGAS enzyme was identified at UT Southwestern.

STING journeys to different organelles to perform various tasks before it ends up in lysosomes, which serve as cellular garbage dumps. Disposal of STING is critical for an appropriate immune response, explains Yan; research from his lab and others has shown that when STING isn’t properly discarded, it continues to signal immune cells, leading to a variety of autoimmune conditions.

To determine what proteins interact with STING as it travels through cells, Yan and his colleagues used a technique called proximity labeling, which causes other proteins around a protein of interest to glow. After analyzing their data, Yan’s team was surprised to find that STING interacts with a protein that’s located on the surface of lysosomes and is produced by the Npc1 gene.

Because STING had never been implicated in Niemann-Pick disease type C, Yan and his team investigated whether it might play a role. The researchers removed the gene for STING from mice in which the Npc1 gene had also been deleted. Deleting Npc1 typically causes progressive problems in motor function, but animals with both the Npc1 and Sting genes deleted remained healthy.

Further research suggested that the protein produced by Npc1 has a binding site for STING that allows it to enter lysosomes for disposal. When the protein produced by Npc1 is missing, STING remains in cells, propagating Niemann-Pick disease type C. When Yan and his colleagues analyzed cells from human Niemann-Pick disease type C patients, they found that several immune-stimulating genes were overactive, as would be expected if STING disposal was defective.

In addition, Yan found that STING signaling is activated independently of cGAS in Niemann-Pick disease. This expands STING biology beyond its conventional role in host defense against infection.

Yan says that his lab and others are investigating the use of experimental drugs that inhibit STING to treat various autoimmune conditions. These compounds may also be useful for Niemann-Pick disease type C.

“If we can demonstrate that these compounds are effective in our animal models,” Yan says, “we may be able to offer an effective therapy to Niemann-Pick disease patients.”

###

Other UTSW researchers who contributed to this study include Ting-Ting Chu, Xintao Tu, Kun Yang, Jianjun Wu, Joyce J. Repa, and a variety of other UT Southwestern experts in neuroscience and cholesterol biology. This study also relied on technical support from UTSW’s Whole Brain Microscopy, Proteomics Core, Live Cell Imaging Core and Transgenic Core facilities.

This work is supported by National Institutes of Health, Cancer Prevention and Research Institute of Texas, the Burroughs Wellcome Fund, and the Ara Parseghian Medical Research Foundation.

Brown, a Regental Professor, holds the W. A. (Monty) Moncrief Distinguished Chair in Cholesterol and Arteriosclerosis Research and the Paul J. Thomas Chair in Medicine. Goldstein, a Regental Professor, holds the Julie and Louis A. Beecherl, Jr. Distinguished Chair in Biomedical Research and the Paul J. Thomas Chair in Medicine. Yan is the Rita C. and William P. Clements, Jr. Scholar in Medical Research.

About UT Southwestern Medical Center

UT Southwestern, one of the premier academic medical centers in the nation, integrates pioneering biomedical research with exceptional clinical care and education. The institution’s faculty has received six Nobel Prizes, and includes 25 members of the National Academy of Sciences, 16 members of the National Academy of Medicine, and 13 Howard Hughes Medical Institute Investigators. The full-time faculty of more than 2,800 is responsible for groundbreaking medical advances and is committed to translating science-driven research quickly to new clinical treatments. UT Southwestern physicians provide care in about 80 specialties to more than 117,000 hospitalized patients, more than 360,000 emergency room cases, and oversee nearly 3 million outpatient visits a year.
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