Marc Sylvester scite author profile

Lysosomes are major sites for intracellular, acidic hydrolase-mediated proteolysis and cellular degradation. The export of low-molecular-weight catabolic end-products is facilitated by polytopic transmembrane proteins mediating secondary active or passive transport. A number of these lysosomal transporters, however, remain enigmatic. We present a detailed analysis of MFSD1, a hitherto uncharacterized lysosomal family member of the major facilitator superfamily. MFSD1 is not N-glycosylated. It contains a dileucine-based sorting motif needed for its transport to lysosomes. Mfsd1 knockout mice develop splenomegaly and severe liver disease. Proteomics of isolated lysosomes from Mfsd1 knockout mice revealed GLMP as a critical accessory subunit for MFSD1. MFSD1 and GLMP physically interact. GLMP is essential for the maintenance of normal levels of MFSD1 in lysosomes and vice versa. Glmp knockout mice mimic the phenotype of Mfsd1 knockout mice. Our data reveal a tightly linked MFSD1/GLMP lysosomal membrane protein transporter complex.

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Identification of Phosphorylation-Dependent Interaction Partners of the Adapter Protein ADAP using Quantitative Mass Spectrometry: SILAC vs ¹⁸O-Labeling

Lange

Sylvester

Schümann

et al. 2010

J. Proteome Res.

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The immune adapter protein ADAP (adhesion and degranulation promoting adapter protein) plays an important role in integrin-dependent migration and adhesion processes as a consequence of T cell stimulation. ADAP undergoes multiple phosphorylation events during T cell receptor (TCR) or chemokine receptor stimulation. The role of individual phosphotyrosines for protein complex formation and the regulation of cellular adhesion are still under debate. Here, we use peptide pull-down assays and quantitative mass spectrometry to identify interaction partners of site-specifically phosphorylated ADAP sequences. Phosphotyrosine peptide motifs covering Y595, Y625, and Y771 and the corresponding nonphosphorylated sequences were covalently coupled to agarose beads and incubated with Jurkat T cell lysates. For unambiguous differentiation between phosphorylation-specific and nonspecific protein interaction, we employed two different isotope labeling techniques: stable isotope labeling of amino acids in cell culture (SILAC) and enzymatic (18)O-labeling, both in combination with high-resolution mass spectrometry. In addition to previously known SH2 domain-based interactions of ADAP with SLP76, we identified novel ADAP interaction partners - such as the Ras GTPase activating protein - which belong to the larger TCR proximal signaling complex. The results show that both isotope labeling techniques are well suited for distinguishing phosphorylation-specific peptide-protein interactions from the background.

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Coordination of capsule assembly and cell wall biosynthesis in Staphylococcus aureus

et al. 2019

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The Gram-positive cell wall consists of peptidoglycan functionalized with anionic glycopolymers, such as wall teichoic acid and capsular polysaccharide (CP). How the different cell wall polymers are assembled in a coordinated fashion is not fully understood. Here, we reconstitute Staphylococcus aureus CP biosynthesis and elucidate its interplay with the cell wall biosynthetic machinery. We show that the CapAB tyrosine kinase complex controls multiple enzymatic checkpoints through reversible phosphorylation to modulate the consumption of essential precursors that are also used in peptidoglycan biosynthesis. In addition, the CapA1 activator protein interacts with and cleaves lipid-linked CP precursors, releasing the essential lipid carrier undecaprenyl-phosphate. We further provide biochemical evidence that the subsequent attachment of CP is achieved by LcpC, a member of the LytR-CpsA-Psr protein family, using the peptidoglycan precursor native lipid II as acceptor substrate. The Ser/Thr kinase PknB, which can sense cellular lipid II levels, negatively controls CP synthesis. Our work sheds light on the integration of CP biosynthesis into the multi-component Gram-positive cell wall.

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Time-Resolved Quantitative Phosphoproteomics: New Insights into Angiotensin-(1–7) Signaling Networks in Human Endothelial Cells

et al. 2012

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Angiotensin-(1-7) [Ang-(1-7)] is an endogenous ligand of the Mas receptor and induces vasodilation, positive regulation of insulin, and antiproliferative and antitumorigenic activities. However, little is known about the molecular mechanisms behind these biological properties. Aiming to identify proteins involved in the Ang-(1-7) signaling, we performed a mass spectrometry-based time-resolved quantitative phosphoproteome study of human aortic endothelial cells (HAEC) treated with Ang-(1-7). We identified 1288 unique phosphosites on 699 different proteins with 99% certainty of correct peptide identification and phosphorylation site localization. Of these, 121 sites on 79 proteins had their phosphorylation levels significantly changed by Ang-(1-7). Our data suggest that the antiproliferative activity of Ang-(1-7) is due to the activation or inactivation of several target phosphoproteins, such as forkhead box protein O1 (FOXO1), mitogen-activated protein kinase 1 (MAPK), proline-rich AKT1 substrate 1 (AKT1S1), among others. In addition, the antitumorigenic activity of Ang-(1-7) is at least partially due to FOXO1 activation, since we show that this transcriptional factor is activated and accumulated in the nucleus of A549 lung adenocarcinoma cells treated with Ang-(1-7). Moreover, Ang-(1-7) triggered changes in the phosphorylation status of several known downstream effectors of the insulin signaling, indicating an important role of Ang-(1-7) in glucose homeostasis. In summary, this study provides new concepts and new understanding of the Ang-(1-7) signal transduction, shedding light on the mechanisms underlying Mas activation.

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Marc Sylvester

The RNA‐binding protein hnRNPU regulates the sorting of microRNA‐30c‐5p into large extracellular vesicles

The lysosomal transporter MFSD1 is essential for liver homeostasis and critically depends on its accessory subunit GLMP

Identification of Phosphorylation-Dependent Interaction Partners of the Adapter Protein ADAP using Quantitative Mass Spectrometry: SILAC vs ¹⁸O-Labeling

Coordination of capsule assembly and cell wall biosynthesis in Staphylococcus aureus

Time-Resolved Quantitative Phosphoproteomics: New Insights into Angiotensin-(1–7) Signaling Networks in Human Endothelial Cells

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About

Marc Sylvester

The RNA‐binding protein hnRNPU regulates the sorting of microRNA‐30c‐5p into large extracellular vesicles

The lysosomal transporter MFSD1 is essential for liver homeostasis and critically depends on its accessory subunit GLMP

Identification of Phosphorylation-Dependent Interaction Partners of the Adapter Protein ADAP using Quantitative Mass Spectrometry: SILAC vs 18O-Labeling

Coordination of capsule assembly and cell wall biosynthesis in Staphylococcus aureus

Time-Resolved Quantitative Phosphoproteomics: New Insights into Angiotensin-(1–7) Signaling Networks in Human Endothelial Cells

Contact Info

Product

Resources

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Identification of Phosphorylation-Dependent Interaction Partners of the Adapter Protein ADAP using Quantitative Mass Spectrometry: SILAC vs ¹⁸O-Labeling