Skip to main content
Article
Are the traditional medical uses of Muricidae molluscs substantiated by their pharmacological properties and bioactive compounds?
Marine Drugs
  • Kirsten Benkendorff, Dr, Southern Cross University
  • David Rudd, Flinders University
  • Bijayalakshmi Devi Nongmaithem, Southern Cross University
  • Lei Liu, Southern Cross University
  • Fiona Young, Flinders University
  • Vicki Edwards, Flinders University
  • Catharine Avila, Southern Cross University
  • Catherine A Abbott, Flinders University
Document Type
Article
Publication Date
1-1-2015
Peer Reviewed
Peer-Reviewed
Abstract
Marine molluscs from the family Muricidae hold great potential for development as a source of therapeutically useful compounds. Traditionally known for the production of the ancient dye Tyrian purple, these molluscs also form the basis of some rare traditional medicines that have been used for thousands of years. Whilst these traditional and alternative medicines have not been chemically analysed or tested for efficacy in controlled clinical trials, a significant amount of independent research has documented the biological activity of extracts and compounds from these snails. In particular, Muricidae produce a suite of brominated indoles with anti-inflammatory, anti-cancer and steroidogenic activity, as well as choline esters with muscle-relaxing and pain relieving properties. These compounds could explain some of the traditional uses in wound healing, stomach pain and menstrual problems. However, the principle source of bioactive compounds is from the hypobranchial gland, whilst the shell and operculum are the main source used in most traditional remedies. Thus further research is required to understand this discrepancy and to optimise a quality controlled natural medicine from Muricidae.
Citation Information

Benkendorff, K, Rudd, D, Nongmaithem, BD, Liu, L, Young, F, Edwards, V, Avila, C & Abbott, CA 2015, 'Are the traditional medical uses of Muricidae molluscs substantiated by their pharmacological properties and bioactive compounds?', Marine Drugs, vol. 13, no.8, pp. 5237-5275.

Article available on Open Access