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Researchers Discover Lack Of A Protein Could Be The Key To Alzheimer’s Disease

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  1. The Good Doctor

    The Good Doctor Golden Member

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    A lack of a protein in the brain that keeps our tissues healthy as we age is linked to Alzheimer’s disease, according to recent research from The University of Texas Health Science Center at Houston (UTHealth).

    Early detection of the deficiency of Interleukin 33 (IL-33) with clinical interventions could help the brain age in a healthier way to prevent degenerative diseases, according to the paper, which was published today in Molecular Psychiatry.

    The findings showed that IL-33 was critical for removal of what senior author Yahuan Lou, PhD, described as “garbage” from brains, keeping cells healthier for a longer period of time, and helping minimize damage over time. Lou is a professor in the Department of Diagnostic and Biomedical Sciences at UTHealth School of Dentistry. Corresponding author is João L. de Quevedo, MD, PhD, professor in the Louis A. Faillace, MD, Department of Psychiatry and Behavioral Sciences at McGovern Medical School at UTHealth.

    “In the brain, normal neurons repair themselves by discarding abnormal proteins, similar to taking out the garbage,” Lou said. “Although neurons get older in humans beginning around 35 to 40 years of age, continuing to minimize the ‘garbage’ or damaged DNA and proteins that buildup in the organs allow neurons to stay healthy and function properly – even as we age.”

    During middle age, neurons in the brain undergo accelerated aging, which interferes with the body’s ability to detoxify or repair damaged DNA and proteins. This is known as oxidative damage.

    “Without those anti-aging processes, human neurons begin to die or no longer function correctly at a much higher rate by 60 to 65 years of age,” Lou said.

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    In most people with Alzheimer’s, symptoms first appear in their mid-60s and the brain disorder slowly destroys memory and thinking skills and eventually the ability to carry out the simplest tasks.

    According to the Centers for Disease Control and Prevention, 5.7 million Americans are estimated to be living with Alzheimer’s disease in 2018. It is the fifth leading cause of death for adults aged 65 years and older, and the sixth leading cause of death for all adults.

    According to the authors, an additional mechanism on the IL-33 molecule serves as a control agent and accelerates drainage of abnormal proteins from the brain, adding to previous studies that explain the importance of the molecule.

    The newly discovered mechanism is, as Lou described, a “sewage” system in the brain called the glymphatic system, which is composed of tiny spaces surrounding the veins that gets rid of brain debris. Defects in the glymphatic system, a waste clearance pathway for the central nervous system, would lead to the accumulation of abnormal proteins that are linked to Alzheimer’s disease in humans. The study unveils the importance of a molecule called aquaporin 4, a water “pump” in the brain that drives water to remove the waste surrounding the neuron close to blood vessel tubing in the brain. However, once the IL-33 gene is knocked out, these small “pumps” are no longer produced.

    Clinical application and next steps

    Lou said when these mechanisms are broken, the brain accelerates in aging, which leads to Alzheimer’s disease and death. Since this process largely starts at middle age, he proposes the period between adulthood and old age is a good time to review levels of IL-33 and other related biomarkers, such as those found in blood and urine, for early diagnosis of Alzheimer’s disease. Once the brain is in the degenerative state, it is too late to reverse damages.

    These screenings can become a preventive measure for patients with or without a history of degenerative disease.

    “For future patients that have inversely proportional levels of an increase in waste in the brain and a decreased level of IL-33, immediate intervention would be needed. This could consist of injecting IL-33 into the blood-brain barrier to increase circulation of the glymphatic system, while testing if the drainage of plaque proteins in the brain is effective,” Lou said.

    The therapeutic target is to keep the brain healthier while it’s still young to decrease the risk of degenerative brain diseases and reduce the brain’s aging process.

    “We cannot cure Alzheimer’s disease, but we can stop the progress or even prevent the disease at the very beginning,” Lou said.

    Other co-authors from UTHealth School of Dentistry include Jean Wu and Junbo Shim. Co-authors from McGovern Medical School include Ines Moreno-Gonzalez, PhD; William F. Glass II, MD, PhD; and Tatiana Barichello, PhD. Colin Carlock is a student at The University of Texas MD Anderson UTHealth Graduate School of Biomedical Sciences, where Barichello and de Quevedo are faculty members.

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