Incomplete mitophagy in the mevalonate kinase-deficient Saccharomyces cerevisiae and its relation to the MKD-related autoinflammatory disease in humans

“…These processes are not completed; therefore, damaged mitochondria may not be recycled and may generate cellular metabolic dysfunction. Understanding this mechanism may help researchers decipher the nonspecific autoinflammatory response observed in patients with MKD [ 111 , 112 ].…”

“…More recently, it has been shown that mitophagy during prolonged respiratory growth is strongly impaired in yeast cells lacking Get1/2, a transmembrane complex mediating the insertion of tail-anchored (TA) proteins into the ER membrane [ 123 ]. The connection between ER and mitochondria also could be made through this Get1/2 complex and the complex FAR that Dr. Kanki’s team highlighted [ 56 , 112 ]. We must now understand how these two complexes interact and the mechanisms involved in regulating mitophagy through the key protein Atg32.…”

Mitophagy in Yeast: Decades of Research

“…These processes are not completed; therefore, damaged mitochondria may not be recycled and may generate cellular metabolic dysfunction. Understanding this mechanism may help researchers decipher the nonspecific autoinflammatory response observed in patients with MKD [ 111 , 112 ].…”

“…More recently, it has been shown that mitophagy during prolonged respiratory growth is strongly impaired in yeast cells lacking Get1/2, a transmembrane complex mediating the insertion of tail-anchored (TA) proteins into the ER membrane [ 123 ]. The connection between ER and mitochondria also could be made through this Get1/2 complex and the complex FAR that Dr. Kanki’s team highlighted [ 56 , 112 ]. We must now understand how these two complexes interact and the mechanisms involved in regulating mitophagy through the key protein Atg32.…”

Mitophagy in Yeast: Decades of Research