Abstract
Purified human glucocerebrosidase isolated from placenta was modified with [14C]-iodoacetic acid without reduction and digested with both protease-V8 at pH 4.0 followed byα-chymotrypsin at pH 7.5. The majority of radioactivity was found in a peptide that contained the [14C]-carboxymethylated-cysteine identified as CM-Cys18. Direct sequencing of the N-terminus of the intact labeled protein confirmed the modification of Cys18. For identification of disulfide bond-containing peptides, another portion of glucocerebrosidase was alkylated with nonlabeled iodoacetic acid and then digested with protease V8 andα-chymotrypsin as before. Twenty-eight HPLC fragments were collected. These purified peaks were then reduced withβ-mercaptoethanol followed by S-carboxymethylation with [14C]-iodoacetic acid. Three peptides among these 28 peptides generated two radioactive daughter peptides. These peptides were sequenced and the position of the radioactive CM-cysteines identified. The locations of these disulfides are Cys4-Cys16, Cys23-Cys342, and Cys126-Cys248. Attempts to reproduce the free sulfhydryl labeling experiments using the glucocerebrosidase isolated from Ceredase proved unsuccessful. No label was incorporated by this enzyme prior to reduction. This result suggests that the form of the protein used in the clinic differs from the native protein.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Aerts, J. M. F., Donker-Koopman, W. E., Murray, G. J., Barranger, J. A., Trager, J. M., and Schram, A. W. (1986).Anal. Biochem. 154, 655.
Bahnson, A. B., Nimgaonkar, M., Fei, Y., Boggs, S. S., Robbins, P. D., Ohashi, T., Dunigan, J., Li, J., Ball, E. D., and Barranger, J. A. (1994).Gene Therapy 1(3), 176.
Brady, R. O., Kanfer, J. N., and Shapiro, D. (1985).Biochem. Biophys. Res. Commun. 18, 221.
Burman, S., Wellner, D., Chait, B., Chaudhary, T., and Breslow, E. (1989).Proc. Natl. Acad. Sci. USA 86, 429.
Crestfield, A. M., Moore, A., and Stein, W. H. (1963).J. Biol. Chem. 238, 622.
Dinur, F., Osiecki, K. M., Legler, G., Gatt, S., Desnick, R. J., and Grabowski, G. A. (1986).Proc. Natl. Acad. Sci. USA 83, 1660.
Furbish, F. S., Blair, J. S., Pentchev, P. G., and Brady, R. O. (1977).Proc. Natl. Acad. Sci. USA 74, 3560.
Ginns, E. I., Choudary, P. V., Martin, B. M., Winfield, S., Stubblefield, B., Mayor, J., Merkle-Lehman, D., Murray, G. J., Bowers, L. A., and Barranger, J. A. (1984).Biochem. Biophys. Res. Commun. 123, 574.
Heinrickson, R. L., Stein, W. H., Crestfield, A. M., and Moore, S. (1965).J. Biol. Chem. 240, 2961.
Hong, C. M., Ohashi, T., Yu, X. J., Weiler, S., and Barranger, J. A. (1990).DNA Cell Biol. 9, 233.
Huggins, C., Tapley, D. F., and Jensen, E. V. (1951).Nature 167, 592.
Lockridge, O., Adkins, S., and LaDu, B. N. (1987).J. Biol. Chem. 262, 12945.
Marchand, F. (1907).Muench. Med. Wochenschr. 54, 1102.
Matthews, B. W. (1987).Biochemistry 26, 6885.
Morita, N., Shimizu-Hashimoto, A., Yamaguchi, M., and Nokihara, K. (1992).J. Protein Chem. 11, 362.
Morrison, T. G., Peeples, M. E., and McGinnes, L. W. (1987).Proc. Natl. Acad. Sci. USA 84, 1020.
Murray, G. J., and Jin, F.-S. (1995).J. Histochem. Cytochem. 43, 149–158.
Murray, G. J., Youle, S. E. G., Zirzow, G. C., and Barranger, J. A. (1985).Anal. Biochem. 147, 301.
Nimgaonkar, M., Bahnson, A., Boggs, S., Ball, E. D., and Barranger, J. A. (1994).Gene Therapy 1(3), 201.
O'Farrell, P. H. (1975).J. Biol. Chem. 250, 4007.
Ohashi, T., Boggs, S., Robbins, P., Bahnson, A., Patrene, K., Wei, F.-S., Wei, J.-F., Li, J., Lucht, L., Fei, Y., Clark, S., Kimak, M., He, P., Mowery-Rushton, P. and Barranger, J. A. (1992).Proc. Natl. Acad. Sci. USA 89, 11332.
Pantonilano, M. W., Ladner, R. C., Bryan, P. N., Rollence, M. C., Wood, J. F., and Poulos, T. L. (1987).Biochemistry 26, 2077.
Patrick, A. (1965).Biochem. J. 97, 17C.
Perry, L. J., and Wetzel, R. (1984).Science 226, 555.
Sorge, J., West, C., Westwood, B., and Beutler, F. (1985).Proc. Natl. Acad. Sci. USA 82, 7289.
Strasberg, P. M., Lowden, J. A., and Mahuran, D. (1982).Can. J. Biochem. 60, 1025.
Takasaki, S., Murray, G. J., Furbush, F. S., Brady, R. O., Barranger, J. A., and Kobata, A. (1984).J. Biol. Chem. 259, 10112.
Tsuji, S., Choudary, P. V., Martin, B. M., Winfield, S., Barranger, J. A., and Ginns, E. I. (1986).J. Biol. Chem. 261, 50.
Villafranca, J. E., Howell, E. E., Oateley, S. J., Xuong, N., and Kraut, J. (1987).Biochemistry 26, 2182.
Webster, D. M., and Thompson, E. O. P. (1982).Aust. J. Biol. Sci. 35, 125.
Wells, J. A., and Powers, D. B. (1986).J. Biol. Chem. 261, 6564.
Willemsen, R., Van Dongen, J. M., Ginns, E. I., Sips, H. J., Schram, A. W., Tager, J. M., Barranger, J. A., and Reuser, A. J. J. (1987).J. Neurol. 234, 44.
Zhang, D., and Liang, S. (1993).J. Protein Chem. 12, 735.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Lee, Y., Kinoshita, H., Radke, G. et al. Position of the sulfhydryl group and the disulfide bonds of human glucocerebrosidase. J Protein Chem 14, 127–137 (1995). https://doi.org/10.1007/BF01980324
Received:
Published:
Issue Date:
DOI: https://doi.org/10.1007/BF01980324