Function and evolution of sterile sex organs in cryptically dioecious Petasites tricholobus (Asteraceae).

BACKGROUND AND AIMS: Why are sterile anthers and carpels retained in some flowering plants, given their likely costs? To address this question, a cryptically dioecious species, Petasites tricholobus, in which male and female plants each have two floret types that appear pistillate and hermaphroditic, was studied. The aim was to understand the function of sterile hermaphroditic florets in females. In addition, the first examination of functions of sterile female structures in male plants was conducted in the hermaphroditic florets on males of this species. These female structures are exceptionally large in this species despite being sterile. METHODS: Differences in floret morphology between the sex morphs were documented and the possible functions of sterile sex organs investigated using manipulative experiments. Tests were carried out to find out if sterile female structures in male florets attract pollinators and if they aid in pollen dispersal, also to find out if the presence and quantity of sterile hermaphroditic florets in females increase pollinator attraction and reproductive success. To investigate what floret types provide nectar, all types of florets were examined under a scanning electron microscope to search for nectaries. KEY RESULTS: The sterile female structures in male florets did not increase pollinator visits but were essential to secondary pollen presentation, which significantly enhanced pollen dispersal. Sterile pistillate florets on male plants did not contribute to floral display and disappeared in nearly half of the male plants. The sterile hermaphroditic florets on female plants attracted pollinators by producing nectar and enhanced seed production. CONCLUSIONS: The presence of female structures in male florets and hermaphroditic florets on female plants is adaptive despite being sterile, and may be evolutionarily stable. However, the pistillate florets on male plants appear non-adaptive and are presumably in decline. Differential fates of the sterile sex organs in the species are determined by both the historical constraints and the ecological functions.

Use-dependent block of voltage-gated Cav2.1 Ca2+ channels by petasins and eudesmol isomers.

Migraine is a frequent and often disabling disease. Treatment is unsatisfactory in many patients. A disturbed dynamic balance between excitatory and inhibitory signal processing with enhanced cortical activity probably underlies common forms of migraine. Presynaptic voltage-gated Ca(2+) channels are critical determinants of neurotransmitter release and also contribute to trigeminovascular signal transduction. Because clinical evidence exists for migraine-prophylactic actions of Petasites hybridus extracts, we investigated whether petasins comprising the main constituents of the extract inhibit currents through presynaptic Ca(v)2.1 channels expressed in Xenopus laevis oocytes. P. hybridus extract (0.02 mg/ml), petasin, neopetasin, isopetasin, S-petasin, and iso-S-petasin (50 microM) were weak tonic blockers of Ca(v)2.1-mediated barium currents (I(Ba)) during infrequent depolarizations (0.1 Hz), but their inhibitory potency increased at higher stimulation rates (1 Hz), indicating preferential block of open and/or inactivated channels. Sulfur-containing compounds (S-petasin, Iso-S-petasin) were the most potent significantly promoting the accumulation of Ca(v)2.1 channel in inactivated states during pulse trains (I(Ba) decrease during 1-Hz pulse trains: control, 45%, S-petasin, 79%; iso-S-petasin, 80%). For the Eucalyptus williamsiania sesquiterpenes alpha- and gamma-eudesmol, a comparable use-dependent inhibition was found in addition to a tonic block component. Alpha-eudesmol and petasins accelerated the voltage-dependent inactivation of Ca(v)2.1 channels during depolarizations. We demonstrate that S-petasin, iso-S-petasin, and eudesmol are Ca(v)2.1 channel inhibitors preferentially acting as use-dependent channel blockers and with the sulfur-containing substituent in position 3 of the petasins serving as important functional feature. The Ca(v)2.1-inhibitory properties of these petasins may contribute to migraine-prophylactic properties described for P. hybridus extracts.

Migraine preventive therapy: current and emerging treatment options.

In this paper we review new treatment options for migraine prevention. We start with an overview about migraine and then briefly discuss current indications for migraine prevention and new and emerging preventive medications.