Spatial deconstruction of the plasma membrane

Endothelial type I interferon signaling modulates the vascular response to ischemic brain injury

Kavli Affiliate: Roderick MacKinnon

| Authors: Venkata Shiva Mandala, Chen Zhao, Qiuying Chen, Steven Gross, Jacob B Geri and Roderick MacKinnon

| Summary:

The plasma membrane of cells is known to be heterogeneous with regards to the spatial distribution of proteins and lipids. The segregation of molecular species in the cell membrane into specific domains permits different biological pathways to function independently. But the nature of these domains and how they are organized is unclear. Here we perform fluorescence microscopy on plasma membrane sheets to show that most proteins occur in protein-rich domains, while other regions of the cell membrane are relatively protein-free. We show that this organization is at least partially preserved in plasma membrane-derived vesicles that lack cytoskeletal elements, and then demonstrate biochemical separation of the protein-rich and protein-poor domains using density centrifugation. The isolation of these spatial domains allows us to study their composition using analytical methods. Most types of proteins and ordered lipids including cholesterol are enriched in the protein-rich domains, indicating preferential self-assembly between specific proteins and lipids

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