November 2, 2024

COVID-19 Can Cause Brain Cells To Fuse – Leading to Chronic “Long COVID” Neurological Symptoms

SARS-CoV-2, the virus that triggers COVID-19, has been detected in the brains of individuals with long COVID months after their preliminary infection.
Picture of merged neurons (yellow) expressing Spike S fusogen from the SARS-CoV-2 virus and the human receptor hACE2. Credit: The Authors
” We discovered COVID-19 causes nerve cells to go through a cell combination procedure, which has not been seen before,” Professor Hilliard stated.
” After neuronal infection with SARS-CoV-2, the spike S protein ends up being present in nerve cells, and when neurons fuse, they do not pass away. They either start firing synchronously, or they stop functioning entirely.”
As an example, Professor Hilliard likened the function of nerve cells to that of wires connecting switches to the lights in a kitchen area and a restroom.
” Once blend happens, each switch either turns on both the kitchen and bathroom lights at the exact same time, or neither of them,” he stated.
” Its bad news for the 2 independent circuits.”
Images were taped 24 h after transfecting hippocampal neurons with p15 and GFP. Each frame represents the optimum strength forecast, with GFP strength adjusted to facilitate the visualization of recently appearing GFP-positive nerve cells.
The discovery offers a potential explanation for relentless neurological results after a viral infection.
” In the current understanding of what occurs when an infection gets in the brain, there are two outcomes– either cell death or swelling,” Dr. Martinez-Marmol stated.
” But weve revealed a 3rd possible outcome, which is neuronal combination.”
Dr. Martinez-Marmol stated many viruses cause cell blend in other tissues, however likewise infect the nervous system and might be causing the same problem there.
” These infections include HIV, rabies, Japanese encephalitis, measles, herpes simplex infection, and Zika virus,” he stated.
” Our research study exposes a new system for the neurological occasions that occur during a viral infection.
” This is possibly a major cause of neurological illness and scientific signs that is still untouched.”
The scientists acknowledge the collective efforts of Professor Lars Ittner and Associate Professor Yazi Ke from Macquarie University, Associate Professor Giuseppe Balistreri from University of Helsinki, and Associate Professor Kirsty Short and Professor Frederic Meunier from The University of Queensland.
The research study was released in Sciences Advances.
Recommendation: “SARS-CoV-2 infection and viral fusogens cause neuronal and glial blend that jeopardizes neuronal activity” by Ramón Martínez-Mármol, Rosina Giordano-Santini, Eva Kaulich, Ann-Na Cho, Magdalena Przybyla, Md Asrafuzzaman Riyadh, Emilija Robinson, Keng Yih Chew, Rumelo Amor, Frédéric A. Meunier, Giuseppe Balistreri, Kirsty R. Short, Yazi D. Ke, Lars M. Ittner and Massimo A. Hilliard, 7 June 2023, Sciences Advances.DOI: 10.1126/ sciadv.adg2248.

Researchers discovered that infections like SARS-CoV-2 can cause brain cells to fuse, leading to chronic neurological symptoms. This procedure, where nerve cells either begin firing together or quit working entirely, offers a new perspective on the long-lasting impacts of viral infections on the brain and might use to other infections that infect the nerve system. Credit: The Authors
Scientists have found viruses such as SARS-CoV-2 can trigger brain cells to fuse, starting breakdowns that lead to chronic neurological symptoms.
Researchers at The University of Queensland have found infections such as SARS-CoV-2 can cause brain cells to fuse, starting breakdowns that cause persistent neurological signs.
Teacher Massimo Hilliard and Dr. Ramon Martinez-Marmol from the Queensland Brain Institute have actually checked out how viruses alter the function of the nerve system.

Researchers found that viruses like SARS-CoV-2 can cause brain cells to fuse, leading to chronic neurological symptoms. This procedure, where neurons either begin firing together or stop working completely, offers a brand-new perspective on the long-term results of viral infections on the brain and might apply to other infections that infect the nervous system. Credit: The Authors
Images were taped 24 h after transfecting hippocampal neurons with p15 and GFP. Each frame represents the optimum strength forecast, with GFP strength changed to assist in the visualization of recently appearing GFP-positive nerve cells.