👤 Martin Bähler

Mitochondrial dynamics are important for cellular health and include morphology, fusion, fission, vesicle formation, transport and contact formation with other organelles. Myosin XIX (Myo19) is an actin-based motor, which competes with TRAK1/2 adaptors of microtubule-based motors for binding to the outer mitochondrial membrane receptors Mitochondrial Rho GTPases 1/2 (Miro). Currently, it is poorly understood how Myo19 contributes to mitochondrial dynamics. Here, we report on a Myo19-deficient mouse model and the ultrastructure of the mitochondria from cells of Myo19-deficient mice and HEK cells, Miro-deficient HEK cells and TRAK1-deficient HAP1 cells. Myo19-deficient mitochondria in MEFs and HEK cells have morphological alterations in the inner mitochondrial membrane with reduced numbers of malformed cristae. In addition, mitochondria in Myo19-deficient cells showed fewer ER-mitochondria contact sites (ERMCSs). In accordance with the ultrastructural observations, Myo19-deficient MEFs had lower oxygen consumption rates and a reduced abundance of OXPHOS supercomplexes. The simultaneous loss of Miro1 and Miro 2 led to a comparable mitochondria phenotype and reduced ERMCSs as observed upon the loss of Myo19. However, the loss of TRAK1 caused only a reduction in the number of cristae, but not ERMCSs. These results demonstrate that both actin- and microtubule-based motors regulate cristae formation, but only Myo19 and its membrane receptor Miro regulate ERMCSs. Show less

The actin-based motor myosin-19 (Myo19) exerts force on mitochondrial membrane receptors Miro1/2, influencing endoplasmic reticulum (ER)-mitochondria contact sites and mitochondrial cristae structure. The mitochondrial intermembrane bridging (MIB) complex connects the outer and inner mitochondrial membranes at the cristae junction through the mitochondrial contact site and cristae organization system (MICOS). However, the interaction between Myo19, Miro1 and Miro2 (hereafter Miro1/2), and the MIB-MICOS complex in cristae regulation remains unclear. This study investigates the roles of Miro1/2 and metaxin 3 (Mtx3), a MIB complex component, in linking Myo19 to MIB-MICOS. We show that Miro1/2 interact with Myo19 and the MIB complex but not with Mtx3. Their mitochondrial membrane anchors are not essential for MIB interaction or cristae structure. However, Mtx3 is crucial for the connection between MIB-MICOS and the Myo19 and Miro1/2 proteins. Deleting Miro1/2 mimics the effects of Myo19 deficiency on ER-mitochondria contacts and cristae structure, whereas Mtx3 deletion does not. Notably, the loss of Myo19 and Miro1/2 alters mitochondrial lipid composition, reducing cardiolipin and its precursors, suggesting Myo19 and Miro1/2 influence cristae indirectly via lipid transfer at ER-mitochondria contact sites. Show less

Juvenile CLN3 disease is a recessively inherited paediatric neurodegenerative disorder, with most patients homozygous for a 1-kb intragenic deletion in CLN3. The btn1 gene is the Schizosaccharomyces pombe orthologue of CLN3. Here, we have extended the use of synthetic genetic array (SGA) analyses to delineate functional signatures for two different disease-causing mutations in addition to complete deletion of btn1. We show that genetic-interaction signatures can differ for mutations in the same gene, which helps to dissect their distinct functional effects. The mutation equivalent to the minor transcript arising from the 1-kb deletion (btn1 Show less

Myosin XIX (Myo19) is an actin-based motor that competes with adaptors of microtubule-based motors for binding to the outer mitochondrial transmembrane proteins Miro1 and Miro2 (collectively Miro, also known as RhoT1 and RhoT2, respectively). Here, we investigate which mitochondrial and cellular processes depend on the coordination of Myo19 and microtubule-based motor activities. To this end, we created Myo19-deficient HEK293T cells. Mitochondria in these cells were not properly fragmented at mitosis and were partitioned asymmetrically to daughter cells. Respiratory functions of mitochondria were impaired and ROS generation was enhanced. On a cellular level, cell proliferation, cytokinesis and cell-matrix adhesion were negatively affected. On a molecular level, Myo19 regulates focal adhesions in interphase, and mitochondrial fusion and mitochondrially associated levels of fission protein Drp1 and adaptor proteins dynactin and TRAK1 at prometaphase. These alterations were due to a disturbed coordination of Myo19 and microtubule-based motor activities by Miro. Show less

Mitochondrial distribution in cells is critical for cellular function and proper inheritance during cell division. In mammalian cells, mitochondria are transported predominantly along microtubules by kinesin and dynein motors that bind indirectly via TRAK1 and TRAK2 to outer mitochondrial membrane proteins Miro1 and Miro2 (Miro1/2). Here, using proximity labelling, we identified Miro1/2 as potential binding partners of myosin XIX (Myo19). Interaction studies show that Miro1 binds directly to a C-terminal fragment of the Myo19 tail region and that Miro1/2 recruit the Myo19 tail Show less

Yeasts provide an excellent genetically tractable eukaryotic system for investigating the function of genes in their biological context, and are especially relevant for those conserved genes that cause disease. We study the role of Show less