Interaction of GM2 Activator Protein with Glycosphingolipids

Yoichiro Hama,Yu-Teh Li,Su-Chen Li

doi:10.1074/jbc.272.5.2828

Abstract

GM2 activator protein is a protein cofactor that has been shown to stimulate the enzymatic hydrolysis of both GalNAc and NeuAc from GM2 (Wu, Y. Y., Lockyer, J. M., Sugiyama, E., Pavlova, N.V., Li, Y.-T., and Li, S.-C. (1994) J. Biol. Chem. 269, 16276-16283). To understand the mechanism by which GM2 activator stimulates the hydrolysis of GM2, we examined the interaction of this activator protein with GM2 as well as with other glycosphingolipids by TLC overlay and Sephacryl S-200 gel filtration. The TLC overlay analysis unveiled the binding specificity of GM2 activator, which was not previously revealed. Under the conditions optimal for the activator protein to stimulate the hydrolysis of GM2 by beta-hexosaminidase A, GM2 activator was found to bind avidly to acidic glycosphingolipids, including gangliosides and sulfated glycosphingolipids, but not to neutral glycosphingolipids. The gangliosides devoid of sialic acids, such as asialo-GM1 and asialo-GM2, and the GM2 derivatives whose carboxyl function in the NeuAc had been modified by methyl esterification or reduction, were only very weakly bound to GM2 activator. These results indicate that the negatively charged sugar residue or sulfate group in gangliosides is one of the important sites recognized by GM2 activator. For comparison, we also studied in parallel the complex formation between glycosphingolipids and saposin B, a separate activator protein with broad specificity to stimulate the hydrolysis of various glycosphingolipids. We found that saposin B bound to neutral glycosphingolipids and gangliosides equally well, and there was an exceptionally strong binding to sulfatide. In contrast to previous reports, we found that GM2 activator formed complexes with GM2 and other gangliosides in different proportions depending on the ratio between the activator protein and the ganglioside in the incubation mixture prior to gel filtration. We were not able to detect the specific binding of GM2 activator to GM2 when GM2 was mixed with GM1 or GM3. Thus, the specificity or the mode of action of GM2 activator cannot be simply explained by its interaction with glycosphingolipids based on complex formation. The binding of GM2 activator to a wide variety of negatively charged glycosphingolipids may indicate that this activator protein has functions other than assisting the enzymatic hydrolysis of GM2.

Highlights

Human GM2 activator has been isolated from kidney [4], brain [6], and liver [7]
We have studied in parallel the interaction of glycosphingolipids with saposin B, a nonspecific activator protein that has been reported to stimulate the enzymatic hydrolysis of a wide variety of glycosphingolipids [12]
Interaction of GM2 Activator with Gangliosides in Micellar Forms—Since the results of the TLC overlay experiment showed the preferential binding of GM2 activator to the anionic glycosphingolipids, we subsequently examined the interactions between the GM2 activator and the the gangliosides in aqueous medium using Sephacryl S-200 gel filtration to separate the protein-lipid complexes

Summary

Introduction

Human GM2 activator has been isolated from kidney [4], brain [6], and liver [7]. This activator has been shown to be very specific in stimulating the hydrolysis of GalNAc from GM2 by ␤-hexosaminidase A [1, 4, 7]. Through the studies of complex formation between GM2 activator and glycosphingolipids using electrophoresis, isoelectric focusing, and ultracentrifugation [4, 10], Conzelmann and Sandhoff [4] postulated that the action of GM2 activator is to extract a single GM2 molecule from its micelles to form a water-soluble protein-lipid complex (1:1 ratio), which serves as the true substrate for ␤-hexosaminidase A. This hypothesis, is not supported by two simple facts: (a) The water-soluble tetrasaccharide derived from GM2 cannot be hydrolyzed by ␤-hexosaminidase A in the presence or absence of the activator [8] and (b) saposin B, another activator protein whose action is to solubilize glycosphingolipids, does not stimulate the hydrolysis of GM2 by ␤-hexosaminidase A. By TLC overlay, GM2 activator was found to bind to various negatively

Methods

Results

Conclusion