Author
Listed:
- Dominik Bulfon
(University of Graz)
- Johannes Breithofer
(University of Graz)
- Gernot F. Grabner
(Medical University of Graz)
- Nermeen Fawzy
(University of Graz)
- Anita Pirchheim
(Medical University of Graz)
- Heimo Wolinski
(University of Graz
University of Graz)
- Dagmar Kolb
(Medical University of Graz
Medical University of Graz)
- Lennart Hartig
(University of Graz)
- Martin Tischitz
(University of Graz)
- Clara Zitta
(University of Graz)
- Greta Bramerdorfer
(University of Graz)
- Achim Lass
(University of Graz
University of Graz)
- Ulrike Taschler
(University of Graz)
- Dagmar Kratky
(Medical University of Graz
BioTechMed-Graz)
- Peter Greimel
(Center for Brain Science)
- Robert Zimmermann
(University of Graz
University of Graz
BioTechMed-Graz)
Abstract
Bis(monoacylglycero)phosphate (BMP) is a major phospholipid constituent of intralumenal membranes in late endosomes/lysosomes, where it regulates the degradation and sorting of lipid cargo. Recent observations suggest that the Batten disease-associated protein CLN5 functions as lysosomal BMP synthase. Here, we show that transacylation reactions catalyzed by cytosolic and secreted enzymes enhance BMP synthesis independently of CLN5. The transacylases identified in this study are capable of acylating the precursor lipid phosphatidylglycerol (PG), generating acyl-PG, which is subsequently hydrolyzed to BMP. Extracellularly, acyl-PG and BMP are generated by endothelial lipase in cooperation with other serum enzymes of the pancreatic lipase family. The intracellular acylation of PG is catalyzed by several members of the cytosolic phospholipase A2 group IV (PLA2G4) family. Overexpression of secreted or cytosolic transacylases was sufficient to correct BMP deficiency in HEK293 cells lacking CLN5. Collectively, our observations suggest that functionally overlapping pathways promote BMP synthesis in mammalian cells.
Suggested Citation
Dominik Bulfon & Johannes Breithofer & Gernot F. Grabner & Nermeen Fawzy & Anita Pirchheim & Heimo Wolinski & Dagmar Kolb & Lennart Hartig & Martin Tischitz & Clara Zitta & Greta Bramerdorfer & Achim , 2024.
"Functionally overlapping intra- and extralysosomal pathways promote bis(monoacylglycero)phosphate synthesis in mammalian cells,"
Nature Communications, Nature, vol. 15(1), pages 1-17, December.
Handle:
RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-54213-1
DOI: 10.1038/s41467-024-54213-1
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