An ACE2/Mas-related receptor MrgE axis in dopaminergic neuron mitochondria

ACE2 plays a pivotal role in the balance between the pro-oxidative pro-inflammatory and the anti-oxidative antiinflammatory arms of the renin-angiotensin system. Furthermore, ACE2 is the entry receptor for SARS-CoV-2. Clarification of ACE2-related mechanisms is crucial for the understanding of COVID-19 and other oxidative stress and inflammation-related processes. In rat and monkey brain, we discovered that the intracellular ACE2 and its products Ang 1-7 and alamandine are highly concentrated in the mitochondria and bind to a new mitochondrial Mas-related receptor MrgE (MrgE) to produce nitric oxide. We found MrgE expressed in neurons and glia of rodents and primates in the substantia nigra and different brain regions. In the mitochondria, ACE2 and MrgE expressions decreased and NOX4 increased with aging. This new ACE2/MrgE/NO axis may play a major role in mitochondrial regulation of oxidative stress in neurons, and possibly other cells. Therefore, dysregulation of the mitochondrial ACE2/MrgE/NO axis may play a major role in neurodegenerative processes of dopaminergic neurons, where mitochondrial dysfunction and oxidative stress play a crucial role. Since ACE2 binds SARS-CoV-2 spike protein, the mitochondrial ACE2/MrgE/NO axis may also play a role in SARS-CoV-2 cellular effects.

Automated summary

ACE2 plays a crucial role in balancing oxidative stress and inflammation, especially in relation to SARS-CoV-2. The mitochondrial ACE2/MrgE/NO axis may play a significant role in regulating oxidative stress in neurons, contributing to neurodegenerative processes and potentially SARS-CoV-2 cellular effects.