Skip to main content
SpringerLink
Log in

Treatment of Gaucher disease with an enzyme inhibitor

  • Papers
  • Published:
Glycoconjugate Journal Aims and scope Submit manuscript

Abstract

The hypothesis is offered predicting that Caucher patients could be treated with a drug that slows the synthesis of glucosylceramide, the lipid that accumulates in this disorder. The present therapeutic approach involves augmenting the defective enzyme, glucosylceramide β-glucosidase, with exogenous β-glucosidase isolated from human tissue. This spectacularly expensive mode of treatment should be replaceable with a suitable enzyme inhibitor that simply slows formation of the lipid and matches the rate of synthesis with the rate of the defective, slowly working β-glucosidase. Several drugs that possess this ability are available, the best known of which is 1-phenyl-2-decanoylamino-3-morpholino-1-propanol (PDMP), a designer inhibitor that resembles the synthase's substrate and product. PDMP has been found to be effective in mice, rats, fish, and a wide variety of cultured cells. Its use, at suitable dosages, seems to be harmless, although long-term tests have not been made. The lack of suitable animal models of Gaucher disease has made it difficult to test the hypothesis adequately, but PDMP does rapidly lower the levels of glucosylceramide in normal animal tissues and the animals evidently do well with the lowered levels of glucosylceramide and its more complex glycolipid metabolites.

This is a preview of subscription content, log in via an institution to check access.

Access this article

Log in via an institution

Price excludes VAT (USA)
Tax calculation will be finalised during checkout.

Instant access to the full article PDF.

Institutional subscriptions

Similar content being viewed by others

Abbreviations

PDMP:

1-phenyl-2-decanoylamino-3-morpholino-1-propanol

GlcCer:

glucosylceramide

i.p.:

intraperitoneal

References

  1. Inokuchi J, Radin NS (1987)J Lipid Res 28: 565–71.

    Google Scholar 

  2. Shukla A, Radin NS (1991)J Lipid Res 32: 713–22.

    Google Scholar 

  3. Shukla G, Shukla A, Inokuchi J, Radin NS (1991)Biochim Biophys Acta 1083: 101–8.

    Google Scholar 

  4. Sundaram KS, Lev M (1984)J Neurochem 42: 577–81.

    Google Scholar 

  5. Fenderson BA, Ostrander GK, Hausken Z, Radin NS, Hakomori S (1992)Exp Cell Res 198: 362–66.

    Google Scholar 

  6. Inokuchi J, Mason I, Radin NS (1987)Cancer Lett 38: 23–30.

    Google Scholar 

  7. Shukla A, Shukla GS, Radin NS (1992)Am J Physiol 262: F24–29.

    Google Scholar 

  8. Datta SC, Radin NS (1988)Lipids 23: 508–10.

    Google Scholar 

  9. Zador IZ, Deshmukh GD, Kunkel R, Johnson K, Radin NS, Shayman, JA (1993)J Clin Invest 91: 797–803.

    Google Scholar 

  10. Shiran A, Brenner B, Laor A, Tatarsky I (1993)Cancer 72: 219–24.

    Google Scholar 

  11. Inokuchi J, Momosaki K, Shimeno H, Nagamatsu A, Radin NS (1989)J Cell Physiol 141: 573–83.

    Google Scholar 

  12. Svensson M, Lindstedt R, Radin NS, Svanborg C (1994)Infect Immun 62: 4404–10.

    Google Scholar 

  13. Abe A, Radin NS, Shayman JA, Wotring LL, Zipkin RE, Sivakumar R, Ruggieri JM, Carson KG, Ganem B (1995)J Lipid Res 36: 611–21.

    Google Scholar 

  14. Radin NS, Shayman JA, Inokuchi J (1993) InAdvances in Lipid Research: Sphingolipids in Signaling, Part B (Bell RM, Hannun YA, Merrill AH, eds), Vol. 28, pp. 183–213. Orlando: Academic Press.

    Google Scholar 

  15. Radin NS, Shayman JA (1993) InNeuroProtocols: A Companion to Methods in Neurosciences (Fisher SK, Bleasdale JE, eds), Vol. 3, pp. 145–55. Orlando: Academic Press.

    Google Scholar 

  16. Hospattankar V, Vunnam RR, Radin NS (1982)Lipids 17: 538–43.

    Google Scholar 

  17. Daniels LB, Coyle PJ, Glew RH, Radin NS, Labow RS (1982)Arch Neurol 39: 550–56.

    Google Scholar 

  18. Platt FM, Neises GR, Karlsson GB, Dwek RA, Butters TD (1994)J Biol Chem 269: 27108–14.

    Google Scholar 

  19. Vanderjagt DJ, Fry DE, Glew RH (1994)Biochem J 300: 309–15.

    Google Scholar 

  20. Datta SC, Radin NS (1988)Biochem Biophys Res Commun 152: 155–60.

    Google Scholar 

  21. Datta SC, Snider RM, Radin NS (1986)Biochim Biophys Acta 877: 387–98.

    Google Scholar 

  22. Rosenwald AG, Pagano RE (1994)J Lipid Res 35: 1232–40.

    Google Scholar 

Download references

Author information

Authors and Affiliations

  1. Mental Health Research Institute and Division of Nephrology MSRBII, University of Michigan, 1550 W. Medical Centre Drive, 48109-0676, Ann Arbor, MI, USA

    Norman S. Radin

Authors
  1. Norman S. Radin
    View author publications

    You can also search for this author in PubMed Google Scholar

Rights and permissions

Reprints and permissions

About this article

Cite this article

Radin, N.S. Treatment of Gaucher disease with an enzyme inhibitor. Glycoconjugate J 13, 153–157 (1996). https://doi.org/10.1007/BF00731489

Download citation

  • Received:

  • Revised:

  • Issue Date:

  • DOI: https://doi.org/10.1007/BF00731489

Keywords

Search

Navigation