Degradation of Membrane-bound Ganglioside GM2 by β-Hexosaminidase A
According to a recent hypothesis, glycosphingolipids originating from the plasma membrane are degraded in the acidic compartments of the cell as components of intraendosomal and intralysosomal vesicles and structures. Since most previous in vitro investigations used micellar ganglioside GM2 as subst...
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| Published in | The Journal of biological chemistry Vol. 276; no. 16; p. 12685 |
|---|---|
| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
American Society for Biochemistry and Molecular Biology
20.04.2001
|
| Online Access | Get full text |
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| Abstract | According to a recent hypothesis, glycosphingolipids originating from the plasma membrane are degraded in the acidic compartments
of the cell as components of intraendosomal and intralysosomal vesicles and structures. Since most previous in vitro investigations used micellar ganglioside GM2 as substrate, we studied the degradation of membrane-bound ganglioside GM2 by
water-soluble β-hexosaminidase A in the presence of the GM2 activator protein in a detergent-free, liposomal assay system.
Our results show that anionic lipids such as the lysosomal components bis(monoacylglycero)phosphate or phosphatidylinositol
stimulate the degradation of GM2 by β-hexosaminidase A up to 180-fold in the presence of GM2 activator protein. In contrast,
the degradation rate of GM2 incorporated into liposomes composed of neutral lysosomal lipids such as dolichol, cholesterol,
or phosphatidylcholine was significantly lower than in negatively charged liposomes. This demonstrates that both, the GM2
activator protein and anionic lysosomal phospholipids, are needed to achieve a significant degradation of membrane-bound GM2
under physiological conditions. The interaction of GM2 activator protein with immobilized membranes was studied with surface
plasmon resonance spectroscopy at an acidic pH value as it occurs in the lysosomes. Increasing the concentration of bis(monoacylglycero)phosphate
in immobilized liposomes led to a significant drop of the resonance signal in the presence of GM2 activator protein. This
suggests that in the presence of bis(monoacylglycero)phosphate, which has been shown to occur in inner membranes of the acidic
compartment, GM2 activator protein is able to solubilize lipids from the surface of immobilized membrane structures. |
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| AbstractList | According to a recent hypothesis, glycosphingolipids originating from the plasma membrane are degraded in the acidic compartments
of the cell as components of intraendosomal and intralysosomal vesicles and structures. Since most previous in vitro investigations used micellar ganglioside GM2 as substrate, we studied the degradation of membrane-bound ganglioside GM2 by
water-soluble β-hexosaminidase A in the presence of the GM2 activator protein in a detergent-free, liposomal assay system.
Our results show that anionic lipids such as the lysosomal components bis(monoacylglycero)phosphate or phosphatidylinositol
stimulate the degradation of GM2 by β-hexosaminidase A up to 180-fold in the presence of GM2 activator protein. In contrast,
the degradation rate of GM2 incorporated into liposomes composed of neutral lysosomal lipids such as dolichol, cholesterol,
or phosphatidylcholine was significantly lower than in negatively charged liposomes. This demonstrates that both, the GM2
activator protein and anionic lysosomal phospholipids, are needed to achieve a significant degradation of membrane-bound GM2
under physiological conditions. The interaction of GM2 activator protein with immobilized membranes was studied with surface
plasmon resonance spectroscopy at an acidic pH value as it occurs in the lysosomes. Increasing the concentration of bis(monoacylglycero)phosphate
in immobilized liposomes led to a significant drop of the resonance signal in the presence of GM2 activator protein. This
suggests that in the presence of bis(monoacylglycero)phosphate, which has been shown to occur in inner membranes of the acidic
compartment, GM2 activator protein is able to solubilize lipids from the surface of immobilized membrane structures. |
| Author | Konrad Sandhoff Thorsten Lemm Norbert Werth Gundo Wilkening Christina G. Schuette |
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| Title | Degradation of Membrane-bound Ganglioside GM2 by β-Hexosaminidase A |
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