The role of the C-terminal tail region as a plug to regulate XKR8 lipid scramblase.

XK-related 8 (XKR8), in complex with the transmembrane glycoprotein basigin, functions as a phospholipid scramblase activated by the caspase-mediated cleavage or phosphorylation of its C-terminal tail. It carries a putative phospholipid translocation path of multiple hydrophobic and charged residues in the transmembrane region. It also has a crucial tryptophan at the exoplasmic end of the path that regulates its scrambling activity.

Regulation of phospholipid distribution in the lipid bilayer by flippases and scramblases.

Cellular membranes function as permeability barriers that separate cells from the external environment or partition cells into distinct compartments. These membranes are lipid bilayers composed of glycerophospholipids, sphingolipids and cholesterol, in which proteins are embedded. Glycerophospholipids and sphingolipids freely move laterally, whereas transverse movement between lipid bilayers is limited.

The tertiary structure of the human Xkr8-Basigin complex that scrambles phospholipids at plasma membranes.

Xkr8-Basigin is a plasma membrane phospholipid scramblase activated by kinases or caspases. We combined cryo-EM and X-ray crystallography to investigate its structure at an overall resolution of 3.8 Å.

Flippase and scramblase for phosphatidylserine exposure.

In various biological processes, phosphatidylserine (PtdSer) that is normally sequestered to the inner leaflet of the plasma membrane (PM) is exposed to the cell surface. When platelets are activated, they expose PtdSer to activate the blood-clotting factors. Cells undergoing apoptosis and senescent neutrophils expose PtdSer that is recognized as an 'eat me' signal by phagocytes for clearance.

Phosphorylation-mediated activation of mouse Xkr8 scramblase for phosphatidylserine exposure.

The exposure of phosphatidylserine (PtdSer) to the cell surface is regulated by the down-regulation of flippases and the activation of scramblases. Xkr8 has been identified as a scramblase that is activated during apoptosis, but its exogenous expression in the mouse Ba/F3 pro B cell line induces constitutive PtdSer exposure. Here we found that this Xkr8-mediated PtdSer exposure occurred at 4 °C, but not at 20 °C, although its scramblase activity was observed at 20 °C.

Single-molecule analysis of phospholipid scrambling by TMEM16F.

Transmembrane protein 16F (TMEM16F) is a Ca-dependent phospholipid scramblase that translocates phospholipids bidirectionally between the leaflets of the plasma membrane. Phospholipid scrambling of TMEM16F causes exposure of phosphatidylserine in activated platelets to induce blood clotting and in differentiated osteoblasts to promote bone mineralization. Despite the importance of TMEM16F-mediated phospholipid scrambling in various biological reactions, the fundamental features of the scrambling reaction remain elusive due to technical difficulties in the preparation of a platform for assaying scramblase activity in vitro.