Our research explores the fundamental processes within our cells that regulate the immune response to viral infections. We focused on autophagy, a cellular recycling process that removes damaged components, and its connection to mitochondria, the powerhouses of our cells.
We made the discovery that when autophagy is absent, damaged mitochondria accumulate within cells. This buildup of dysfunctional mitochondria leads to an increase in reactive oxygen species (ROS), also known as free radicals, which in turn amplifies the body's antiviral alarm system. This heightened state of alert makes cells more resistant to viral infection. This foundational work revealed a new way in which our cells control the immune response to viruses and has since been replicated by multiple other labs and the techniques developed have since been used for assessing accumulation of damaged mitochondria.
Furthermore, our investigations have shown that with age, the process of autophagy becomes less efficient, leading to increased mitochondrial stress and a hyper-inflammatory response to infections like the flu. This may explain why elderly individuals often experience more severe outcomes from infections, not because their bodies can't fight the virus, but because the resulting inflammation causes significant damage. This research provides a new framework for understanding age-related changes in immunity and the development of chronic inflammation.

Autophagy and mitochondrial stress