25 research outputs found
Role for formin-like 1-dependent acto-myosin assembly in lipid droplet dynamics and lipid storage
Get PDFLipid droplets (LDs) are cellular organelles specialized in triacylglycerol (TG) storage undergoing homotypic clustering and fusion. In non-adipocytic cells with numerous LDs this is balanced by poorly understood droplet dissociation mechanisms. We identify non-muscle myosin IIa (NMIIa/MYH-9) and formin-like 1 (FMNL1) in the LD proteome. NMIIa and actin filaments concentrate around LDs, and form transient foci between dissociating LDs. NMIIa depletion results in decreased LD dissociations, enlarged LDs, decreased hydrolysis and increased storage of TGs. FMNL1 is required for actin assembly on LDs in vitro and for NMIIa recruitment to LDs in cells. We propose a novel acto-myosin structure regulating lipid storage: FMNL1-dependent assembly of myosin II-functionalized actin filaments on LDs facilitates their dissociation, thereby affecting LD surface-to-volume ratio and enzyme accessibility to TGs. In neutrophilic leucocytes from MYH9-related disease patients NMIIa inclusions are accompanied by increased lipid storage in droplets, suggesting that NMIIa dysfunction may contribute to lipid imbalance in man.Peer reviewe
Suitability of surface analytical methods for investigation of retardation and sticking properties of geological samples
No full textCombined geophysical and hydraulic methods for 3D mapping of fractures and siting rock caverns in granite
No full textPorosity and focused dissolution of granitic rocks in two study areas in southern Finland. Aspects of methodology:Dissertation
No full textPorosity and focused dissolution of granitic rocks in two study areas in southern Finland. Aspects of methodology:Dissertation
No full text
Suitability of surface analytical methods for investigation of retardation and sticking properties of geological samples
No full text
