Integrated Compound Profiling
Screens Identify the
Mitochondrial Electron Transport Chain as the Molecular Target of
the Natural Products Manassantin, Sesquicillin, and Arctigenin
- Publication date
- Publisher
Abstract
Phenotypic compound screens can be used to identify novel
targets
in signaling pathways and disease processes, but the usefulness of
these screens depends on the ability to quickly determine the target
and mechanism of action of the molecules identified as hits. One fast
route to discovering the mechanism of action of a compound is to profile
its properties and to match this profile with those of compounds of
known mechanism of action. In this work, the Novartis collection of
over 12,000 pure natural products was screened for effects on early
zebrafish development. The largest phenotypic class of hits, which
caused developmental arrest without necrosis, contained known electron
transport chain inhibitors and many compounds of unknown mechanism
of action. High-throughput transcriptional profiling revealed that
these compounds are mechanistically related to one another. Metabolic
and biochemical assays confirmed that all of the molecules that induced
developmental arrest without necrosis inhibited the electron transport
chain. These experiments demonstrate that the electron transport chain
is the target of the natural products manassantin, sesquicillin, and
arctigenin. The overlap between the zebrafish and transcriptional
profiling screens was not perfect, indicating that multiple profiling
screens are necessary to fully characterize molecules of unknown function.
Together, zebrafish screening and transcriptional profiling represent
sensitive and scalable approaches for identifying bioactive compounds
and elucidating their mechanism of action