The spike protein binds to so-called ACE2 receptors, which are particularly abundant in these regions. "This may make these tissues especially vulnerable to the long-term accumulation of spike ...
Summary: A new study reveals that the SARS-CoV-2 spike protein remains in brain-protective tissues and skull bone marrow for years after infection, potentially driving long COVID’s neurological ...
These proteins attach themselves to ACE2 receptors, which are particularly prevalent in these regions. “This may make these tissues especially vulnerable to the long-term accumulation of spike protein ...