Amra Mrakovic scite author profile

Lysosomes provide a niche for molecular digestion and are a convergence point for endocytic trafficking, phagosome maturation and autophagy. Typically, lysosomes are small, globular organelles that appear punctate under the fluorescence microscope. However, activating agents like phorbol esters transform macrophage lysosomes into tubular lysosomes (TLs), which have been implicated in retention of pinocytic uptake and phagosome maturation. Moreover, dendritic cells exposed to lipopolysaccharides (LPSs) convert their punctate class II major histocompatibility complex compartment, a lysosomerelated organelle, into a tubular network that is thought to be involved in antigen presentation. Other than a requirement for microtubules and kinesin, little is known about the molecular mechanisms that drive lysosome tubulation. Here, we show that macrophage cell lines readily form TLs after LPS exposure, with a requirement for the Rab7 GTPase and its effectors RILP (Rab7-interacting lysosomal protein) and FYCO1 (coiled-coil domain-containing protein 1), which respectively modulate the dynein and kinesin microtubule motor proteins. We also show that Arl8B, a recently identified lysosomal GTPase, and its effector SKIP, are also important for TL biogenesis. Finally, we reveal that TLs are significantly more motile than punctate lysosomes within the same LPS-treated cells. Therefore, we identify the first molecular regulators of lysosome tubulation and we show that TLs represent a more dynamic lysosome population.

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Vac14 Protein Multimerization Is a Prerequisite Step for Fab1 Protein Complex Assembly and Function

Alghamdi

Mrakovic

et al. 2013

Journal of Biological Chemistry

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Vac14 protein multimerization is a prerequisite step for Fab1 protein complex assembly and function

Alghamdi¹,

Ho²,

Mrakovic³

et al. 2023

Preprint

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<p>Phosphatidylinositol 3,5-bisphosphate (PtdIns(3,5)P2) helps control various endolysosome functions including organelle morphology, membrane recycling, and ion transport. Further highlighting its importance, PtdIns(3,5)P2 misregulation leads to the development of neurodegenerative diseases like Charcot-Marie-Tooth disease. The Fab1/PIKfyve lipid kinase phosphorylates PtdIns(3)P into PtdIns(3,5)P2 whereas the Fig4/Sac3 lipid phosphatase antagonizes this reaction. Interestingly, Fab1 and Fig4 form a common protein complex that coordinates synthesis and degradation of PtdIns(3,5)P2 by a poorly understood process. Assembly of the Fab1 complex requires Vac14/ArPIKfyve, a multimeric scaffolding adaptor protein that coordinates synthesis and turnover of PtdIns(3,5)P2. However, the properties and function of Vac14 multimerization remain mostly uncharacterized. Here we identify several conserved C-terminal motifs on Vac14 required for self-interaction and provide evidence that Vac14 likely forms a dimer. We also show that monomeric Vac14 mutants do not support interaction with Fab1 or Fig4, suggesting that Vac14 multimerization is likely the first molecular event in the assembly of the Fab1 complex. Finally, we show that cells expressing monomeric Vac14 mutants have enlarged vacuoles that do not fragment after hyperosmotic shock, which indicates that PtdIns(3,5)P2 levels are greatly abated. Therefore, our observations support an essential role for the Vac14 homocomplex in controlling PtdIns(3,5)P2 levels.</p> <p> </p>

show abstract

Vac14 protein multimerization is a prerequisite step for Fab1 protein complex assembly and function

Alghamdi¹,

Ho²,

Mrakovic³

et al. 2023

Preprint

View full text Add to dashboard Cite

show abstract

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Amra Mrakovic

Rab7 and Arl8 GTPases are Necessary for Lysosome Tubulation in Macrophages

Vac14 Protein Multimerization Is a Prerequisite Step for Fab1 Protein Complex Assembly and Function

Vac14 protein multimerization is a prerequisite step for Fab1 protein complex assembly and function

Vac14 protein multimerization is a prerequisite step for Fab1 protein complex assembly and function

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