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Suggesting that Viral Infection Can Promote the Spread of Protein Aggregates in the Brain


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#1 reason

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Posted 27 October 2021 - 10:11 AM


There is an ongoing debate over whether or not persistent viral infection plays an important role in the development of Alzheimer's disease. That is largely focused on the function of the immune system, given the demonstrated relevance of chronic inflammation and microglial dysfunction to the progression of neurodegenerative conditions. Here, however, researchers provide in vitro evidence to support the hypothesis that viral infection can promote the spread of misfolded proteins between cells in the brain. Aggregates of misfolded or otherwise harmfully modified proteins such as amyloid-β, α-synuclein, and tau are involved in many neurodegenerative conditions. Exactly how these proteins spread as the condition progresses is an area of considerable interest in the research community.

Transmission of aggregates could involve direct cell-to-cell contact, the release of "naked" aggregates into extracellular space or packaging in vesicles, which are tiny bubbles surrounded by a lipid envelope that are secreted for communication between cells. "The precise mechanisms of transmission are unknown. However, it is an obvious guess, that aggregate exchange by both direct cell contact and via vesicles depends on ligand-receptor interactions. This is because in both scenarios, membranes need to make contact and fuse. This is facilitated when ligands are present that bind to receptors on the cell surface and then cause the two membranes to fuse."

Researchers investigated the intercellular transfer of either prions or aggregates of tau proteins, as they occur in similar form in prion diseases or Alzheimer's disease and other "tauopathies". Mimicking what happens as a result of viral infection, the researchers induced cells to produce viral proteins that mediate target cell binding and membrane fusion. Two proteins were chosen as prime examples: SARS-CoV-2 spike protein S, which stems from the virus causing COVID-19, and vesicular stomatitis virus glycoprotein VSV-G, which occurs in a pathogen that infects cattle and other animals. Moreover, cells expressed receptors for these viral proteins, namely the LDL receptor family, which act as docking ports for VSV-G, and human ACE2, the receptor for the spike protein.

"We could show that the viral proteins are incorporated both into the cellular membrane and into the extracellular vesicles. Their presence increased protein aggregate spreading between cells, both by direct cell contact or by extracellular vesicles. The viral ligands mediated an effective transfer of aggregates into recipient cells, where they induced new aggregates. The ligands act like keys that unlock the recipient cells and thus sneak in the dangerous cargo. Certainly, our cellular models do not replicate the many aspects of the brain with its very specialized cell types. However, independent of the tested cell type producing the pathologic aggregates, the presence of viral ligands clearly increased the spreading of misfolded proteins to other cells. All in all, our data suggests that viral ligand-receptor interactions can in principle affect transmission of pathologic proteins."

"The brains of patients suffering from neurodegenerative diseases sometimes contain certain viruses. They are suspected to cause inflammation or to have a toxic effect, thus accelerating neurodegeneration. However, viral proteins could also act differently: They could increase intercellular spreading of protein aggregates already ongoing in neurodegenerative diseases like Alzheimer's. Of course, this needs further studies with neurotropic viruses. Clearly, the impact of viral infections on neurodegenerative diseases deserves in-depth investigation."

Link: https://www.dzne.de/...rodegeneration/


View the full article at FightAging
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#2 Hip

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Posted 27 October 2021 - 04:17 PM

I once had some email chat with one of the leading researchers for the herpes simplex theory of Alzheimer's.

 

People with certain mutations in their APOE gene have a risk of herpes simplex virus entering the brain, and causing a persistent low-level infection in the brain tissues, which linked to Alzheimer's. This researcher told me that they find it very hard to get any money for their herpes simplex Alzheimer's research, because leading scientists in the Alzheimer's field do not believe in the infectious pathogen theory of Alzheimer's, so block all their research grant applications. 

 

It's terrible that so few scientists subscribe to the chronic pathogenic infection theory of chronic diseases and cancers, when there is so much evidence to show that pathogens are associated with nearly every chronic disease and cancer you can think of. 


Edited by Hip, 27 October 2021 - 04:18 PM.


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