The monoterpene (-)-carvone: a novel agonist of TRPV1 channels.

(-)-Carvone is an antinociceptive monoterpene found as the main active constituent of essential oils obtained from plants of the genus Mentha. Here, we have investigated the pharmacology of this monoterpene in dorsal root ganglia (DRG) neurons and TRPV1-expressing HEK293 cells. (-)-carvone at pharmacological active concentrations did not reveal significant cytotoxicity to the cells used in this study, as investigated by neutral red and propidium iodide flow cytometry assays. In calcium imaging experiments 1 mM (-)-carvone increased the cytosolic calcium levels in DRG neurons from 120.6 ± 5.0 nM (basal) to 310.7 ± 23.1 nM (P < 0.05). These effects were completely abolished when neurons were preincubated with calcium-free bath solution or ruthenium-red (5 µM) and capsazepine (10 µM), suggesting the possibility of TRPV1 channel-activation by (-)-carvone. Activity of (-)-carvone on TRPV1 channels was further investigated in HEK293 cells expressing recombinant human TRPV1 channels revealing dose-dependent calcium transients with an EC(50) of 1.3 ± 0.2 mM (Hill coefficient = 2.5). In conclusion, we show for the first time the ability of (-)-carvone to induce increases in cytosolic calcium concentration through TRPV1 activation.

The Antitumor Activity of Piplartine: A Review.

Cancer is a worldwide health problem with high mortality in children and adults, making searching for novel bioactive compounds with potential use in cancer treatment essential. Piplartine, also known as piperlongumine, is an alkamide isolated from Piper longum Linn, with relevant therapeutic potential. Therefore, this review covered research on the antitumor activity of piplartine, and the studies reported herein confirm the antitumor properties of piplartine and highlight its possible application as an anticancer agent against various types of tumors. The evidence found serves as a reference for advancing mechanistic research on this metabolite and preparing synthetic derivatives or analogs with better antitumor activity in order to develop new drug candidates.

Evaluation of the sesquiterpene (-)-alpha-bisabolol as a novel peripheral nervous blocker.

Essential oils are natural, complex and multi-component systems composed mainly of terpenes in addition to some other non-terpenes compounds that are widely used to prevent and treat human diseases. (-)-alpha-Bisabolol is an unsaturated monocyclic sesquiterpene alcohol found as the major constituent of many essential oils, like the German chamomile (Chamomilla recutita (L.) Rauschert), a plant reported to reduce the perception of acute pain and used for centuries for their medicinal properties. Recently, our group demonstrated the antinociceptive-like effect promoted by other terpenes could be associated with the decreased peripheral nerve excitability. Therefore, this study investigated the pharmacological activities of (-)-alpha-bisabolol on mice peripheral nervous system observing the changes on the compound action potential (CAP) characteristics. Using modified single sucrose-gap method in mice sciatic nerves, we acquired CAP recordings in the absence and presence of (-)-alpha-bisabolol (0.5, 1, 5 and 10mM). We observed that this sesquiterpene was able to reduce the neuronal excitability in a concentration-dependent manner, although, such effects were not reversed when the nerve was submitted to wash out. Assessing CAP parameters of depolarization and repolarization, we noticed similarities between (-)-alpha-bisabolol and lidocaine but not with 4-aminopyridine that are considered good blockers for sodium and potassium voltage-gated channels, respectively. Additionally, we also characterized the non-use-dependent profile of (-)-alpha-bisabolol action, in contrast to lidocaine. Thus, we suggested that decreased nervous excitability elicited by (-)-alpha-bisabolol might be caused by an irreversible blockade of voltage-dependent sodium channels.

Distinct effects of carvone analogues on the isolated nerve of rats.

Carvone (p-mentha-6,8-dien-2-one) is a monoterpene ketone found as the main active component of various essential oils. It is obtained by distillation and occurs naturally as the enantiomers (+)- and (-)-carvone. Our group have shown that the in vivo antinociceptive activity of (-)-carvone is impaired with decreased nerve excitability. To better characterize the neuropharmacology of such a monoterpene, we investigated the profile of several carvone analogues to establish a structure-function relationship related to the compound action potential (CAP) inhibitory effect. We performed ex vivo assays to evaluate the effects of (+)- and (-)-carvone, carvacrol, (-)-carveol, and limonene on CAP characteristics using a modified single sucrose-gap method. Our results demonstrated that (-)-carvone was less potent (IC(50)=10.7+/-0.07 mM) in reducing nerve excitability than its enantiomer, (+)-carvone (IC(50)=8.7+/-0.1mM), although they shared a similar mode of action, since their effects were partially extinguished by nerve washing and also by reduction of depolarization velocity, probably as a result of voltage-gated sodium channel blockades. In a structure-activity relationship study, we demonstrated that hydroxyl groups in the (-)-carveol and carvacrol molecules enhanced the CAP blocking-effect, while the absence of oxygen moiety in (+)-limonene resulted in the effect being almost abolished. Therefore, inhibition of CAP conduction in peripheral nerves by monoterpenes could expand our understanding concerning the pharmacology of such natural bioactive compounds. Moreover, activation or inhibition of nerve excitability with these tested monoterpenes can be achieved by altering their chemical structures, and this can lead to further implications for target-directed drug design.