Curcumin and derivatives function through protein phosphatase 2A and presenilin orthologues in .

Natural compounds often have complex molecular structures and unknown molecular targets. These characteristics make them difficult to analyse using a classical pharmacological approach. Curcumin, the main curcuminoid of turmeric, is a complex molecule possessing wide-ranging biological activities, cellular mechanisms and roles in potential therapeutic treatment, including Alzheimer's disease and cancer.

Employing Dictyostelium as an Advantageous 3Rs Model for Pharmacogenetic Research.

Increasing concern regarding the use of animals in research has triggered a growing need for non-animal research models in a range of fields. The development of 3Rs (replacement, refinement, and reduction) approaches in research, to reduce the reliance on the use of animal tissue and whole-animal experiments, has recently included the use of Dictyostelium. In addition to not feeling pain and thus being relatively free of ethical constraints, Dictyostelium provides a range of distinct methodological advantages for researchers that has led to a number of breakthroughs.

Bitter tastant responses in the amoeba Dictyostelium correlate with rat and human taste assays.

Treatment compliance is reduced when pharmaceutical compounds have a bitter taste and this is particularly marked for paediatric medications. Identification of bitter taste liability during drug discovery utilises the rat in vivo brief access taste aversion (BATA) test which apart from animal use is time consuming with limited throughput. We investigated the suitability of using a simple, non-animal model, the amoeba Dictyostelium discoideum to investigate taste-related responses and particularly identification of compounds with a bitter taste liability.