<p>The physical properties of cellular membranes are influenced by protein and lipid interactions. In situ proximity labeling interactomic methods are well suited to characterize these dynamic and often fleeting interactions. Yet, available methods require distinct chemistries for proteins and lipids. Here we establish a singlet oxygen-based photocatalytic proximity labeling platform (POCA) that reports intracellular interactomes for both proteins and lipids using cell-penetrant photosensitizer reagents. Cholesterol-directed POCA captured known and unprecedented cholesterol-binding proteins, including protein complexes sensitive to intracellular cholesterol levels and proteins uniquely captured by physiologically relevant lipoprotein uptake. Protein-directed POCA accurately mapped intracellular membrane complexes, defined sterol-dependent changes to the interactome of the cholesterol transport protein Aster-B and revealed singlet oxygen-mediated domain-specific Aster crosslinking. More broadly, we find that POCA is a versatile interactomics platform that is straightforward to implement, using the readily available HaloTag system, fulfilling unmet needs in intracellular singlet oxygen-based proximity labeling proteomics.</p><p></p>

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Photosensitizer proximity labeling captures the lipid and protein interactomes

  • Andrew P. Becker,
  • Elijah Biletch,
  • John Paul Kennelly,
  • Soon-Gook Hong,
  • Ashley R. Julio,
  • Miranda Villanueva,
  • Rohith T. Nagari,
  • Daniel W. Turner,
  • Nikolas R. Burton,
  • Tomoyuki Fukuta,
  • Liujuan Cui,
  • Xu Xiao,
  • Zaid Vellani,
  • Alexander Nguyen,
  • Julia J. Mack,
  • Peter Tontonoz,
  • Keriann M. Backus

摘要

The physical properties of cellular membranes are influenced by protein and lipid interactions. In situ proximity labeling interactomic methods are well suited to characterize these dynamic and often fleeting interactions. Yet, available methods require distinct chemistries for proteins and lipids. Here we establish a singlet oxygen-based photocatalytic proximity labeling platform (POCA) that reports intracellular interactomes for both proteins and lipids using cell-penetrant photosensitizer reagents. Cholesterol-directed POCA captured known and unprecedented cholesterol-binding proteins, including protein complexes sensitive to intracellular cholesterol levels and proteins uniquely captured by physiologically relevant lipoprotein uptake. Protein-directed POCA accurately mapped intracellular membrane complexes, defined sterol-dependent changes to the interactome of the cholesterol transport protein Aster-B and revealed singlet oxygen-mediated domain-specific Aster crosslinking. More broadly, we find that POCA is a versatile interactomics platform that is straightforward to implement, using the readily available HaloTag system, fulfilling unmet needs in intracellular singlet oxygen-based proximity labeling proteomics.