Quantum optical phenomenon in the brain challenges conventional view of amyloid in Alzheimer's (2024)

Quantum optical phenomenon in the brain challenges conventional view of amyloid in Alzheimer's (1)

A unique quantum effect in biology could be the key to understanding a common marker of Alzheimer's, raising questions about current assumptions of the disease and informing the search for a cure.

Amyloid fibrils are fibrous protein structures in the brain that are associated with Alzheimer's disease and dementia, among other neurodegenerative disorders. They are often the canonical target for experimental treatments for these diseases—usually in the form of drugs that seek to reduce the quantity of amyloids or prevent more from forming.

But many people who test positive for significant amounts of amyloid don't develop dementia at all, and so far, treatment regimens that target amyloid have not been successful. Another known indicator of Alzheimer's is the so-called allostatic load, a general term for the cumulative burden of chronic wear-and-tear on the body. The more oxidative stress, the higher the load and the higher risk of dementia.

Previously, a group of researchers found that a certain quantum effect—single-photon superradiance—could survive the turbulent environment of the human body in networks of the amino acid tryptophan, and could potentially mitigate oxidative stress in the body.

Now that group, led by Dr. Philip Kurian, principal investigator and founding director of the Quantum Biology Laboratory at Howard University in Washington, D.C., has established that these tryptophan networks have an even stronger ability to harness superradiant effects in amyloid fibrils than in the structures they studied previously.

The result, published in Frontiers in Physics, has prominent implications for the role of amyloid in Alzheimer's disease.

"Our previous experimental confirmation of single-photon superradiance in protein fibers encouraged us to examine other neurobiological architectures, including amyloid fibrils," said Kurian.

"While the superradiant enhancement of the quantum yield we saw previously was modest though detectable, our predicted superradiant enhancement for amyloid fibrils is enormous, up to five times the quantum yield of an individual tryptophan molecule. This finding has the potential to transform available treatments for dementia, and to revolutionize our understanding of information processing throughout the web of life."

Oxidative stress, a contributing factor linked with Alzheimer's, occurs when the body produces a large number of free radicals, which can emit damaging, high-energy UV photons. Single-photon superradiance is a quantum phenomenon where a collective network of molecules can very efficiently absorb these high-energy light particles and re-emit them at a lower, safer energy.

Quantum optical phenomenon in the brain challenges conventional view of amyloid in Alzheimer's (2)

Because many amyloid fibrils have a very high density of tryptophans arranged in multiple helices, their ability to absorb damaging photons and downconvert the energy—photoprotection—is much stronger than anyone suspected before.

This could suggest that amyloid, rather than being a cause of Alzheimer's, is actually the body's adaptive response to a stressful environment that is awash with a higher proportion of UV photons from free radicals.

"The Kurian group has made an outstanding scientific contribution in elucidating the potential role of amyloid fibrils in mitigating oxidative stress and photophysical damage," said Professor Lon Schneider, director of the USC California Alzheimer's Disease Center, who was not involved in the research.

"This work has profound implications for understanding the pathophysiology of Alzheimer's disease, as researchers generally work under the assumption that amyloid must be the proper target for treatment. On the contrary, Kurian's work suggests that, rather than a cause of the disease, amyloid aggregation and fibril formation are a protective response."

The next step is to validate this prediction experimentally, but Kurian also wants colleagues in biology and neuroscience to start thinking more broadly about how quantum perspectives are an essential part of the life sciences.

"We want to help others see that the interactions of light and quantum matter have significant relevance to all living systems," he said.

The first author on the paper, Mr. Hamza Patwa, is a 2024 Barry Goldwater Scholar and a senior undergraduate intern in the Quantum Biology Laboratory.

"For me," he said, "this work represents what true science is supposed to be. To make such a cognitive leap, one has to be versed in several different disciplines: open quantum systems, computational biology, and photophysics. It has taught me that science doesn't always have to be separated into mutually exclusive categories.

"When we try to use tools from whichever subfields are necessary to solve a problem, this is where the awesome explanatory power of science is revealed."

More information:Hamza Patwa et al, Quantum-enhanced photoprotection in neuroprotein architectures emerges from collective light-matter interactions, Frontiers in Physics (2024). DOI: 10.3389/fphy.2024.1387271

Provided byHoward University

Citation:Quantum optical phenomenon in the brain challenges conventional view of amyloid in Alzheimer's (2024, August 28)retrieved 2 September 2024from https://phys.org/news/2024-08-quantum-optical-phenomenon-brain-conventional.html

This document is subject to copyright. Apart from any fair dealing for the purpose of private study or research, no part may be reproduced without the written permission. The content is provided for information purposes only.

Quantum optical phenomenon in the brain challenges conventional view of amyloid in Alzheimer's (2024)
Top Articles
Chefs share favorite soul food recipes to kick off for Black History Month
Blackeye Peas Recipe (Vegan)
Arkansas Gazette Sudoku
What Auto Parts Stores Are Open
Dr Lisa Jones Dvm Married
Tx Rrc Drilling Permit Query
The Idol - watch tv show streaming online
Ashlyn Peaks Bio
THE 10 BEST River Retreats for 2024/2025
2021 Tesla Model 3 Standard Range Pl electric for sale - Portland, OR - craigslist
Day Octopus | Hawaii Marine Life
Notisabelrenu
Evil Dead Rise Showtimes Near Regal Columbiana Grande
Saberhealth Time Track
National Weather Service Denver Co Forecast
New Stores Coming To Canton Ohio 2022
Candy Land Santa Ana
Whitefish Bay Calendar
623-250-6295
Ein Blutbad wie kein anderes: Evil Dead Rise ist der Horrorfilm des Jahres
Wbiw Weather Watchers
Baja Boats For Sale On Craigslist
Hannaford To-Go: Grocery Curbside Pickup
Routing Number For Radiant Credit Union
[PDF] PDF - Education Update - Free Download PDF
Yugen Manga Jinx Cap 19
Reser Funeral Home Obituaries
Macu Heloc Rate
University Of Michigan Paging System
Avatar: The Way Of Water Showtimes Near Maya Pittsburg Cinemas
Harrison County Wv Arrests This Week
§ 855 BGB - Besitzdiener - Gesetze
Giantbodybuilder.com
Strange World Showtimes Near Atlas Cinemas Great Lakes Stadium 16
Scottsboro Daily Sentinel Obituaries
Tugboat Information
Craigs List Palm Springs
How To Upgrade Stamina In Blox Fruits
Mid America Irish Dance Voy
Nba Props Covers
Craigslist - Pets for Sale or Adoption in Hawley, PA
Gym Assistant Manager Salary
Kb Home The Overlook At Medio Creek
What to Do at The 2024 Charlotte International Arts Festival | Queen City Nerve
Citizens Bank Park - Clio
St Vrain Schoology
The Blackening Showtimes Near Ncg Cinema - Grand Blanc Trillium
Displacer Cub – 5th Edition SRD
Acuity Eye Group - La Quinta Photos
The top 10 takeaways from the Harris-Trump presidential debate
Read Love in Orbit - Chapter 2 - Page 974 | MangaBuddy
32 Easy Recipes That Start with Frozen Berries
Latest Posts
Article information

Author: Moshe Kshlerin

Last Updated:

Views: 6208

Rating: 4.7 / 5 (57 voted)

Reviews: 80% of readers found this page helpful

Author information

Name: Moshe Kshlerin

Birthday: 1994-01-25

Address: Suite 609 315 Lupita Unions, Ronnieburgh, MI 62697

Phone: +2424755286529

Job: District Education Designer

Hobby: Yoga, Gunsmithing, Singing, 3D printing, Nordic skating, Soapmaking, Juggling

Introduction: My name is Moshe Kshlerin, I am a gleaming, attractive, outstanding, pleasant, delightful, outstanding, famous person who loves writing and wants to share my knowledge and understanding with you.