Abstract
Methanolic extracts of leaves, flowers, stems, bark, and other parts of representative
plants of the Myrtaceae, specifically of the Eucalyptus, Melaleuca, Thryptomena, Callistomen, Acmena, and Angophora genera, variously contain high levels of inhibitors of plant Ca2+-dependent protein kinase (CDPK) and of Ca2+-calmodulin-dependent myosin light chain kinase (MLCK). In terms of the protein kinase
inhibition unit (PKIU), defined as the amount in the standard protein kinase assays
causing 50% inhibition of protein kinase activity, these inhibitor levels ranged from
the non-detectable to 179,000 PKIU (gram fresh weight)-1 [(g FW)-1] and there was no consistent pattern of inhibitor distribution. A variety of other
plants tested had low or non-detectable levels of CDPK and MLCK inhibitors. Plants
of the Eucalyptus, Melaleuca, Angophora, and Grevillea genera contained inhibitors of the catalytic subunit of the cyclic AMP-dependent
protein kinase (cAK), inhibitor levels ranging from 20,000 to 9,600,000 PKIU (g FW)-1. In general, cAK inhibitor levels found in the Myrtaceae were mostly much higher
than levels of CDPK and MLCK inhibitors and reversed phase HPLC of such plant extracts
revealed a multiplicity of components associated with cAK inhibitory activity. These
in vitro screening procedures enable rapid detection and quantitation of levels of bioactive
plant defence compounds with medicinal potential.
Key words
Protein kinase inhibitors -
Eucalyptus
-
Melaleuca
-
Angophora
-
Grevillea
-
Thryptomena
-
Acmena
-
Callistomen
- Myrtaceae - Proteaceae - Leguminosae
