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August 14, 2024: Decoding the Chemistry Behind Alzheimer鈥檚 Disease Therapies

NextGen Discovery Series | Michael R. Nichols, PhD

"Decoding the Chemistry Behind Alzheimer鈥檚 Disease Therapies"

Speaker: Michael R. Nichols, Ph.D. Professor, Department of Chemistry & Biochemistry, Director of the biochemistry and biotechnology program, University of 欧美日b大片-St. Louis, President of the American Society for Neurochemistry

Date: Wednesday, August 14, 2024, noon-1 p.m.

Locations:

  • UMSL Millennium Student Center, The Chamber (lunch is provided for the first 50 attendees)
  • MU NextGen Building, Atkins Seminar Room (lunch is provided for the first 50 attendees)
  • Or join via Zoom

 

Recording

 

Description

Alzheimer鈥檚 disease is the sixth leading cause of death in both 欧美日b大片 and the broader U.S. A recent report found that the number of 欧美日b大片ans living with Alzheimer鈥檚 will exceed 130,000 by 2025, and over 11 million Americans report caring for a friend or loved one with AD. Not everyone will get the condition and it鈥檚 clear there are genetic factors at play, but identifying its precise causes remains one of the world鈥檚 great scientific challenges.

In the past few years, the FDA has approved new drugs that represent an important step forward by targeting the pathophysiology of the disease rather than the symptoms alone. Unfortunately, these drugs can only slow the process of cognitive decline.

Dr. Michael Nichols at the University of 欧美日b大片-St. Louis is helping to push this field forward by focusing on the biochemistry of Alzheimer鈥檚. His lab targets the amyloid beta (A尾) protein, which is known to initiate the disease by depositing in the brain, and their studies focus on A尾-stimulated inflammation pathways. 

 

60-Second Preview

 

Protein aggregation and accumulation is a key aspect of Alzheimer鈥檚 disease

The aggregation and accumulation of amyloid beta protein (A尾) is widely considered to be the cause of Alzheimer鈥檚 disease (AD), while aggregated tau protein is associated with the clinical manifestations of AD. The two proteins are the most outstanding pathological features of the disease and can be observed as fiber/filament-like structures in the brain as senile plaques (A尾)&苍产蝉辫;and neurofibrillary tangles (tau). A longstanding effort in my laboratory has been to define the conditions that influence A尾 aggregation and identify the biophysical features that trigger biological activity. A major part of this has been to study formation of soluble aggregation intermediates and their properties. We have discovered over the course of many years that A尾42 protofibrils have numerous unique properties that encourage interactions with immune cells. The overall data indicates A尾42 protofibrils readily interact with, and are rapidly taken up, by brain immune cells. Furthermore, A尾42 protofibrils trigger early and robust inflammation via cell-surface receptors and intracellular pathways. Those, and additional findings, demonstrate numerous mechanisms by which A尾42 directly interacts with immune cells of the brain. In two separate additional projects, we have developed a sensitive and selective antibody to A尾42 protofibrils and, are further exploring the details of A尾42-stimulated inflammation. The rationale is to better understand how A尾42 creates a toxic inflammatory environment in the brain during the course of AD.

 

欧美日b大片 the Speaker

is a Professor in the University of 欧美日b大片-St. Louis (UMSL) Chemistry & Biochemistry Department and the Director of the UMSL Biochemistry & Biotechnology Program. He also currently serves as President of the . He earned a BS in Chemistry from Lindenwood College and a PhD in Chemistry & Biochemistry at Purdue University. Following a postdoctoral fellowship in the Department of Neuroscience at Mayo Clinic Jacksonville, he began his career at UMSL in the Fall of 2004. His research focuses on the biochemistry of Alzheimer鈥檚 disease (AD). Specifically, he researches the biophysics of the amyloid-尾 protein (A尾) and the mechanisms by which A尾 impacts immune cells and inflammatory pathways.

 

The Discovery Series

The NextGen Precision Health Discovery Series provides learning opportunities for UM System faculty and staff across disciplines, the statewide community and our other partners to learn about the scope of precision health research and identify potential collaborative opportunities. The series consists of monthly lectures geared toward a broad multidisciplinary audience so all can participate and appreciate the spectrum of precision health efforts. 

Information about this upcoming talk, including continuing education, is available below.

For questions about this event or any others in the Discovery Series, please reach out to Veronica Lemme at lemmev@health.missouri.edu.

 

Reviewed 2024-09-25