posted on 2012-05-18, 00:00authored byLada Klaić, Richard I. Morimoto, Richard B. Silverman
The natural product celastrol (1) possesses
numerous beneficial therapeutic properties and affects numerous cellular
pathways. The mechanism of action and cellular target(s) of celastrol,
however, remain unresolved. While a number of studies have proposed
that the activity of celastrol is mediated through reaction with cysteine
residues, these observations have been based on studies with specific
proteins or by in vitro analysis of a small fraction
of the proteome. In this study, we have investigated the spatial and
structural requirements of celastrol for the design of suitable affinity
probes to identify cellular binding partners of celastrol. Although
celastrol has several potential sites for modification, some of these
were not synthetically amenable or yielded unstable analogues. Conversion
of the carboxylic acid functionality to amides and long-chain analogues,
however, yielded bioactive compounds that induced the heat shock response
(HSR) and antioxidant response and inhibited Hsp90 activity. This
led to the synthesis of biotinylated celastrols (23 and 24) that were used as affinity reagents in extracts of human
Panc-1 cells to identify Annexin II, eEF1A, and β-tubulin as
potential targets of celastrol.