Characterizing neuroinvasion and neuropathology of SARS-CoV-2 by using AC70 human ACE2 transgenic mice

Abstract

ABSTRACTCOVID-19 presents with a plethora of neurological signs and symptoms despite being characterized as a respiratory disease, including seizures, anxiety, depression, amnesia, attention deficits, and alterations in consciousness. The olfactory nerve is widely accepted as the neuroinvasive route by which the etiological agent SARS-CoV-2 enters the brain, but the trigeminal nerve is an often-overlooked additional route. Based on this consensus, we initially conducted a pilot experiment investigating the olfactory nerve route of SARS-CoV-2 neuroinvasion via intranasal inoculation in AC70 human ACE2 transgenic mice. Notably, we found that the trigeminal ganglion is an early and highly efficient site of viral replication, which then rapidly spread widely throughout the brain where neurons were primarily targeted. Despite the extensive viral infection across the brain, obvious evidence of tissue pathology including inflammatory infiltration, glial activation, and apoptotic cell deaths were not consistently observed, albeit inflammatory cytokines were significantly induced. However, the expression levels of different genes related to neuronal function, including the neurotransmitter dopamine pathway as well as synaptic function, and markers of neuronal damage were altered as compared to mock-infected mice. Our findings suggest that the trigeminal nerve can be a neuroinvasive route complementary to the olfactory nerve and that the ensuing neuroinvasion presented a unique neuropathological profile. This study provides insights into potential neuropathogenic mechanisms utilized by coronaviruses.IMPORTANCECOVID-19 presents with extrapulmonary signs and symptoms, the most notable of which involve the central nervous system, such as seizures and alterations in consciousness, and can eventually lead to death if severe enough. Some neurological signs and symptoms may continue to persist in some patients even after the resolution of active viral infection in the form of post-acute sequelae. Since the trigeminal nerve is a commonly under-studied route of entry into the brain in studies of coronaviruses and the neuropathogenic mechanisms of COVID-19 are not entirely elucidated, there is a need to thoroughly investigate this route of neuroinvasion. The significance of our research is in providing insights into the possible routes of SARS-CoV-2 neuroinvasion as well as the discovery of potential neuropathogenic mechanisms which may help guide the development of novel medical countermeasures.