Radiolabelling of the histamine liberating sesquiterpene lactone, thapsigargin

Critical roles of hydrophobicity and orientation of side chains for inactivation of sarcoplasmic reticulum Ca2+-ATPase with thapsigargin and thapsigargin analogs

Thapsigargin (Tg), a specific inhibitor of sarco/endoplasmic Ca(2+)-ATPases (SERCA), binds with high affinity to the E2 conformation of these ATPases. SERCA inhibition leads to elevated calcium levels in the cytoplasm, which in turn induces apoptosis. We present x-ray crystallographic and intrinsic fluorescence data to show how Tg and chemical analogs of the compound with modified or removed side chains bind to isolated SERCA 1a membranes. This occurs by uptake via the membrane lipid followed by insertion into a resident intramembranous binding site with few adaptative changes. Our binding data indicate that a balanced hydrophobicity and accurate positioning of the side chains, provided by the central guaianolide ring structure, defines a pharmacophore of Tg that governs both high affinity and access to the protein-binding site. Tg analogs substituted with long linkers at O-8 extend from the binding site between transmembrane segments to the putative N-terminal Ca(2+) entry pathway. The long chain analogs provide a rational basis for the localization of the linker, the presence of which is necessary for enabling prostate-specific antigen to cleave peptide-conjugated prodrugs targeting SERCA of cancer cells (Denmeade, S. R., Jakobsen, C. M., Janssen, S., Khan, S. R., Garrett, E. S., Lilja, H., Christensen, S. B., and Isaacs, J. T. (2003) J. Natl. Cancer Inst. 95, 990-1000). Our study demonstrates the usefulness of a simple in vitro system to test and direct development toward the formulation of new Tg derivatives with improved properties for SERCA targeting. Finally, we propose that the Tg binding pocket may be a regulatory site that, for example, is sensitive to cholesterol.

Effects of thapsigargin and cyclopiazonic acid on sarcoplasmic reticulum Ca2+ uptake, spontaneous force oscillations and myofilament Ca2+ sensitivity in skinned rat ventricular trabeculae

Thapsigargin (TG) and cyclopiazonic acid (CPA) have been reported to be potent inhibitors of the sarcoplasmic reticulum (SR) Ca2+ uptake in isolated SR vesicles and cells. We have examined the effect of TG and CPA on (1) the Ca2+ uptake by the SR in saponin-skinned rat ventricular trabeculae, using the amplitude of the caffeine-induced contraction to estimate the Ca2+ content loaded into the SR, (2) the spontaneous Ca2+ oscillations at pCa 6.6 using force oscillation as the indicator, and (3) the myofilament Ca2+ sensitivity in Triton X-100-treated preparations. Inhibition of Ca2+ loading by TG and CPA increased with time of exposure to the inhibitor over 18-24 min. TG and CPA produced half inhibition of Ca2+ loading at 34.9 and 35.7 microM respectively, when 18-24 min were allowed for diffusion. The spontaneous force oscillations were more sensitive to the inhibitors: 10 microM TG and 30 microM CPA both abolished the oscillations in this time. The myofilament Ca2+ sensitivity was not affected by 10 and 300 microM TG or CPA. The results show that the concentrations of TG and CPA necessary to inhibit the SR Ca2+ uptake of skinned ventricular trabeculae are much higher than the reported values for single intact myocytes. One reason for this may be slow diffusion of the inhibitors into the multicellular trabecula preparation.

Toxicodynamics of tumour promoters of mouse skin. III. Specific binding of the tumour promoter thapsigargin as measured by the cold-acetone filter assay

A method is described for measuring rapid, specific, and saturable binding of the skin irritant and tumour-promoting secretagogue thapsigargin (sesquiterpene lactone) to the microsomal fraction from mouse brain. Employing the tritium-labelled compound its apparent dissociation constant, Kd, and the maximal amount of binding Bmax are shown to be 9.8 nM and 1.9 pmol/mg protein respectively. Such a Kd for thapsigargin is similar to (a) its IC50 value for inhibiting Ca2+ uptake in the microsomal fraction from rat brain and (b) its EC50 values for inducing a rise in the cytoplasmic Ca2+ concentration of human platelets and histamine release from rat peritoneal mast cells. A positive correlation is found between the binding affinities of thapsigargin, thapsitranstagin, and trilobolide, their potencies as secretagogues and their lipophilicities. This correlation does not extend to the skin-irritant activities of the compounds thus emphasizing that their mechanism of action is unlike that of 12-O-tetradecanoylphorbol 13-acetate.