scholarly journals ABCA1 causes an asymmetric cholesterol distribution to regulate intracellular cholesterol homeostasis

2021 ◽  
Author(s):  
Fumihiko Ogasawara ◽  
Kazumitsu Ueda
Keyword(s):  
Endoplasmic Reticulum ◽  
Plasma Membrane ◽  
Cholesterol Level ◽  
Cholesterol Homeostasis ◽  
Contact Site ◽  
Cell Plasma Membrane ◽  
Cellular Cholesterol ◽  
Outer Leaflet ◽  
Cell Plasma ◽  
Intracellular Cholesterol

AbstractCholesterol is a major and essential component of the mammalian cell plasma membrane (PM) and the loss of cholesterol homeostasis leads to various pathologies. Cellular cholesterol uptake and synthesis are regulated by a cholesterol sensor in the endoplasmic reticulum (ER). However, it remains unclear how the PM cholesterol level is sensed. Here we show that the sensing depends on ATP-binding cassette A1 (ABCA1) and Aster-A, which cooperatively maintain the asymmetric transbilayer cholesterol distribution in the PM. ABCA1 translocates (flops) cholesterol from the inner to the outer leaflet of the PM to maintain a low inner cholesterol level. When the inner cholesterol level exceeds a threshold, Aster-A is recruited to the PM-ER contact site to transfer cholesterol to the ER. These results show unknown synergy between ABCA1 and Aster-A in intracellular cholesterol homeostasis.

scholarly journals Programmed cortical ER collapse drives selective ER degradation and inheritance in yeast meiosis

2021 ◽  
Vol 220 (12) ◽  
Author(s):  
George Maxwell Otto ◽  
Tia Cheunkarndee ◽  
Jessica Mae Leslie ◽  
Gloria Ann Brar
Keyword(s):  
Endoplasmic Reticulum ◽  
Plasma Membrane ◽  
Cellular Functions ◽  
Cell Plasma Membrane ◽  
Developmentally Regulated ◽  
Selective Autophagy ◽  
Selective Degradation ◽  
Cell Plasma ◽  
Membrane Tethering ◽  
Yeast Meiosis

The endoplasmic reticulum (ER) carries out essential and conserved cellular functions, which depend on the maintenance of its structure and subcellular distribution. Here, we report developmentally regulated changes in ER morphology and composition during budding yeast meiosis, a conserved differentiation program that gives rise to gametes. A subset of the cortical ER collapses away from the plasma membrane at anaphase II, thus separating into a spatially distinct compartment. This programmed collapse depends on the transcription factor Ndt80, conserved ER membrane structuring proteins Lnp1 and reticulons, and the actin cytoskeleton. A subset of ER is retained at the mother cell plasma membrane and excluded from gamete cells via the action of ER–plasma membrane tethering proteins. ER remodeling is coupled to ER degradation by selective autophagy, which relies on ER collapse and is regulated by timed expression of the autophagy receptor Atg40. Thus, developmentally programmed changes in ER morphology determine the selective degradation or inheritance of ER subdomains by gametes.

Stimulation of Tumor-Specific Immunity Using Tumor Cell Plasma Membrane Antigen

Methods ◽  
1997 ◽  
Vol 12 (2) ◽  
pp. 155-164 ◽  
Author(s):  
Matthew F Mescher ◽  
Elena Savelieva
Keyword(s):  
Plasma Membrane ◽  
Tumor Cell ◽  
Cell Plasma Membrane ◽  
Specific Immunity ◽  
Cell Plasma ◽  
Stimulation Of

PROTEIN KINASE ACTIVITY ASSOCIATED WITH THE FAT CELL PLASMA MEMBRANE

1981 ◽  
Vol 9 (2) ◽  
pp. 232P-232P
Author(s):  
G. J. Belsham ◽  
R. W. Brownsey ◽  
R. M. Denton
Keyword(s):  
Plasma Membrane ◽  
Protein Kinase ◽  
Kinase Activity ◽  
Protein Kinase Activity ◽  
Fat Cell ◽  
Cell Plasma Membrane ◽  
Cell Plasma

Gastrointestinal Cell Plasma Membrane Wounding and Resealing In Vivo

1989 ◽  
Vol 96 (5) ◽  
pp. 1238-1248 ◽  
Author(s):  
Paul L. McNeil ◽  
Susumu Ito
Keyword(s):  
Plasma Membrane ◽  
Cell Plasma Membrane ◽  
Cell Plasma

scholarly journals A murine model of Charcot-Marie-Tooth disease 4F reveals a role for the C-terminus of periaxin in the formation and stabilization of Cajal bands

2018 ◽  
Vol 3 ◽  
pp. 20 ◽  
Author(s):  
Diane L. Sherman ◽  
Peter J. Brophy
Keyword(s):  
Plasma Membrane ◽  
Schwann Cell ◽  
Laminin Receptor ◽  
Cell Plasma Membrane ◽  
Charcot Marie Tooth ◽  
Charcot Marie Tooth Disease ◽  
C Terminus ◽  
Cell Plasma ◽  
Inherited Neuropathies ◽  
Tooth Disease

Charcot-Marie-Tooth (CMT) disease comprises up to 80 monogenic inherited neuropathies of the peripheral nervous system (PNS) that collectively result in demyelination and axon degeneration. The majority of CMT disease is primarily either dysmyelinating or demyelinating in which mutations affect the ability of Schwann cells to either assemble or stabilize peripheral nerve myelin. CMT4F is a recessive demyelinating form of the disease caused by mutations in the Periaxin (PRX) gene. Periaxin (Prx) interacts with Dystrophin Related Protein 2 (Drp2) in an adhesion complex with the laminin receptor Dystroglycan (Dag). In mice the Prx/Drp2/Dag complex assembles adhesive domains at the interface between the abaxonal surface of the myelin sheath and the cytoplasmic surface of the Schwann cell plasma membrane. Assembly of these appositions causes the formation of cytoplasmic channels called Cajal bands beneath the surface of the Schwann cell plasma membrane. Loss of either Periaxin or Drp2 disrupts the appositions and causes CMT in both mouse and man. In a mouse model of CMT4F, complete loss of Periaxin first prevents normal Schwann cell elongation resulting in abnormally short internodal distances which can reduce nerve conduction velocity, and subsequently precipitates demyelination. Distinct functional domains responsible for Periaxin homodimerization and interaction with Drp2 to form the Prx/Drp2/Dag complex have been identified at the N-terminus of Periaxin. However, CMT4F can also be caused by a mutation that results in the truncation of Periaxin at the extreme C-terminus with the loss of 391 amino acids. By modelling this in mice, we show that loss of the C-terminus of Periaxin results in a surprising reduction in Drp2. This would be predicted to cause the observed instability of both appositions and myelin, and contribute significantly to the clinical phenotype in CMT4F.

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