Comparative potency of some extended peptide chain members of the RFamide neuropeptide family,assessed on the hearts of<Emphasis Type="Italic"> Busycon canaliculatum</Emphasis> and<Emphasis Type="Italic"> Buccinum undatum</Emphasis>

Twenty different RFamide neuropeptide analogues were examined for their relative potencies on the ventricles of Busycon canaliculatum and Buccinum undatum and on the atrium of Busycon to determine the essential requirements for activity at the RFamide receptor. None of the neuropeptide studies was inhibitory to natural cardiac rhythmicity or to FMRFamide (Phe-Met-Arg-Phe-NH₂) or FLRFamide (Phe-Leu-Arg-Phe-NH₂) responses. Two tripeptides studied were completely without effect, indicating that a minimum of four amino acids in the peptide chain length was essential for any activity. The original parent tetrapeptide FMRFamide was surprisingly less potent than many of the extended chain peptides such as the penta, hepta and decapeptides. These RFamide neuropeptides were strongly inotropic on both ventricles and the atrium, while on the latter they were strongly chronotropic despite several of these peptides being of a non-molluscan origin. Chain length seems to be of little importance for activity at the receptor. Surprisingly, SCP_B (small cardioactive Peptide B) was not very effective in either Busycon or Buccinum ventricle. What was also clear was that the configuration of the carboxyl terminal was important for activity. Two neuropeptides in this study possessed an Arg-Met carboxyl terminal and were much less effective than FMRFamide, suggesting that an Arg-Phe terminal is most effective in receptor activation.Abbreviations Ala alanine - Arg arginine - Asn asparagine - Asp aspartic acid - FLRFamide Phe-Leu-Arg-Phe-NH₂ - FMRFamide Phe-Met-Arg-Phe-NH₂ - Glu glutamic acid - Gly glycine - His histidine - Leu leucine - LMS leucomyosuppressin - Met methionine - Nle norleucine - Phe phenylalanine - Pro proline - SCP_B Small cardioactive peptide B - Ser serine - Thr threonine - Trp tryptophan - Tyr tyrosine - Val valineCommunicated by G. HeldmaierPart of this work was presented at the Society for Experimental Biology 1999 Annual conference (Huddart et al. 1999)     

Calcium dependency and the effect of calcium antagonists on molluscan proboscis smooth muscles from the whelk,Buccinum undatum

In all four proboscis muscles of the whelk Buccinum undatum, the potassium-induced depolarization response was acutely dependent upon extracellular calcium, being eliminated in calcium-free conditions. The responses to acetylcholine were found to be partly dependent upon intracellular calcium. Responses to the peptides phenylalanine-methionine-arginine-phenylalanine-NH₂ and phenylalanine-leucine-arginine-phenylalanine-NH₂ were much more resistant to calcium-free conditions and appeared to engage the excitation-contraction coupling mechanism by mobilizing stored intracellular calcium. Sucrose-gap studies of radular retractor muscles showed that the organic calcium “antagonist” nifedipine enhanced potassium-induced depolarization responses, initiating spike-like action potentials and associated fast twitch activity. The inorganic calcium antagonist gadolinium exerted concentration-dependent inhibitory actions on these muscles. Basal tonus and fast twitch activity in response to potassium-induced depolarization were eliminated as were the spike-like action potentials of the membrane electrical response. The inorganic calcium “antagonist” cadmium greatly enhanced potassium-induced contractures in all four muscles, and on its own it induced tonic force and fast twitches in all the muscles. It seems likely that cadmium may have displaced stored intracellular calcium to induce myofilament activation. While these molluscan smooth muscles appear to possess calcium channels with fast and slow characteristics, their behaviour and pharmacological manipulation is very different from their more well known mammalian transient and long-lasting channel counterparts.     

Identification of the Drosophila and Tribolium receptors for the recently discovered insect RYamide neuropeptides

One year ago, we discovered a new family of insect RYamide neuropeptides, which has the C-terminal consensus sequence FFXXXRYamide, and which is widely occurring in most insects, including the fruitfly Drosophila melanogaster and the red flour beetle Tribolium castaneum (F. Hauser et al., J. Proteome Res. 9 (2010) 5296–5310). Here, we identify a Drosophila G-protein-coupled receptor (GPCR) coded for by gene CG5811 and its Tribolium GPCR ortholog as insect RYamide receptors. The Drosophila RYamide receptor is equally well activated (EC₅₀, 1 × 10⁻⁹ M) by the two Drosophila RYamide neuropeptides: RYamide-1 (PVFFVASRYamide) and RYamide-2 (NEHFFLGSRYamide), both contained in a preprohormone coded for by gene CG40733. The Tribolium receptor shows a somewhat higher affinity to Tribolium RYamide-2 (ADAFFLGPRYamide; EC₅₀, 5 × 10⁻⁹ M) than to Tribolium RYamide-1 (VQNLATFKTMMRYamide; EC₅₀, 7 × 10⁻⁸ M), which might be due to the fact that the last peptide does not completely follow the RYamide consensus sequence rule. There are other neuropeptides in insects that have similar C-terminal sequences (RWamide or RFamide), such as the FMRFamides, sulfakinins, myosuppressins, neuropeptides F, and the various short neuropeptides F. Amazingly, these neuropeptides show no cross-reactivity to the Tribolium RYamide receptor, while the Drosophila RYamide receptor is only very slightly activated by high concentrations (>10⁻⁶ M) of neuropeptide F and short neuropeptide F-1, showing that the two RYamide receptors are quite specific for activation by insect RYamides, and that the sequence FFXXXRYamide is needed for effective insect RYamide receptor activation. Phylogenetic tree analyses and other amino acid sequence comparisons show that the insect RYamide receptors are not closely related to any other known insect or invertebrate/vertebrate receptors, including mammalian neuropeptide Y and insect neuropeptide F and short neuropeptide F receptors. Gene expression data published in Flybase (www.flybase.org) show that the Drosophila CG5811 gene is significantly expressed in the hindgut of adult flies, suggesting a role of insect RYamides in digestion or water reabsorption.     

The action of RFamide neuropeptides on molluscs, with special reference to the gastropods Buccinum undatum and Busycon canaliculatum

The ever-growing RFamide neuropeptide superfamily has members in all animal phyla. Their effects in molluscs, on both smooth and cardiac muscle as well as on neurons, has been studied in detail. These neuropeptides exert a variety of functions: excitatory, inhibitory or even biphasic. Firstly, the literature on the excitatory effect of the RFamide neuropeptides on molluscan muscle and neurons has been reviewed, with greater emphasis and examples from the gastropods Buccinum undatum and Busycon canaliculatum. The peptides seem to be potent activators of contraction, sometimes generating slow tonic force and other times twitch activity. Secondly, the literature on the inhibitory effect of the superfamily has been reviewed. These peptides can exert an inhibitory effect, hyperpolarizing the cells rather than depolarizing them. Thirdly, the neuropeptides may play a variety of other roles, such as contributing to the regulation or maturation process of the animals. There have been cases recorded of RFamide neuropeptides acting as potent venoms in members of the Conus sp. The pathway of action of these multiple roles, their interaction with the parent neurotransmitters acetylcholine and serotonin, as well as the calcium dependency of the RFamide neuropeptides has been discussed, again with special reference to the above mentioned gastropods. A better understanding of the mode of action, the effects, and the importance of the RFamide neuropeptides on molluscan physiology and pharmacology has been attempted by reviewing the existing literature, recognizing the importance of the RFamide neuropeptide actions on molluscs.     

Action and immunoreactivity of neuropeptides in the buccal neuromuscular system of a prosobranch mollusc,Rapana thomasiana

Summary In a prosobranch mollusc, Rapana thomasiana, the catch-relaxing peptide H-Ala-Met-Pro-Met-Leu-Arg-Leu-NH₂ (CARP) was found to depress the contraction of the radula protractor and retractor elicited by electrical stimulations. The action of CARP was in contrast to that of other neuropeptides, H-Phe-Met-Arg-Phe-NH₂ (FMRFamide) and H-Phe-Leu-Arg-Phe-NH₂ (FLRFamide), which enhanced the contraction of the radula protractor and retractor, respectively. By immunohistochemical examinations, FMRFamide-like immunoreactive neurons were found on the rostral side of the right buccal ganglion and the caudal side of the left ganglion, where some CARP-like immunoreactive neurons were also distributed, indicating a possible coexistence of FMRFamide and CARP. FMRFamide- and CARP-like immunoreactivities were also detected in the neuropile of buccal ganglia, radula nerves arising from the ganglia, and nerve fibers in the radula muscles. The present results suggest that FMRFamide- and CARP-like peptides are involved in the regulation of the contraction of the radula muscles.     

Neuropeptides and photic behavior in Cnidaria

Peptides of the RFamide family occur in neurosecretory cells of all nervous systems of Cnidaria so far studied. Photoreceptive organs – if evolved in a cnidarian species – are always associated with neural cells showing RFamide immunoreactivity. Experimental evidence for the function of RFamides and other neuropeptides in nervous systems and photoreceptive organs is, however, scarce or lacking. RFamide and LWamide immunoreactivity were surveyed in photoreceptive organs of the hydromedusa Cladonema radiatum, in rhopalia of the scyphozoan Aurelia aurita, and in rhopalia of the cubomedusa Tripedalia cystophora. A possible function of neuropeptides in transmission of photic stimuli was assayed by analysing photic behavior in Tripedalia, which has highly developed eyes, and in the simply constructed planula of the hydroid Hydractinia echinata, in which the mode of light perception is unknown. In both species, light orientation was effectively prevented by RFamides administered to the animals in micromolar concentration. In contrast, among four other neuropeptides occurring in the larva of Hydractinia, only one interfered with phototaxis and then only at 10× higher concentrations. Planulae depleted of bioactive peptideamides also lost phototaxis while still locomotorily active. The results support the hypothesis that one possible function of RFamides in Cnidaria is to transmit photic stimuli to epitheliomuscular targets.     

Responses of two proboscis muscles of Neptunea antiqua (mollusca) to some calcium antagonist drugs

1. Both the radular retractor (RR) and radular sac (RS) muscles of Neptunea antiqua depend upon [Ca]₀ to raise the internal calcium concentration of the contractile elements to activation level.2. The K- and ACh-induced responses of the muscles were strongly inhibited in calcium-free seawater.3. Calcium antagonist drugs were more inhibitory on ACh-induced responses than on K-responses suggesting a dichotomy of calcium channel activities modulated by these agonists.4. The calcium ionophore A23187 enhanced ACh-induced responses of both muscles but was without effect on K-induced responses.5. The responses of these Neptunea muscles to calcium antagonist drugs show some similarities but also differences to those of Buccinum muscles and are quite unlike the excitation induced by organic antagonists in similar muscles of the American whelk Busycon canaliculatum.     

The calcium requirement for functional vesicle development and nitrogen fixation by Frankia strains EAN1pec and CpI1

A calcium requirement was shown for both vesicle development and nitrogenase activity by Frankia strains EAN1_pec and CpI1. Washing cells with EGTA or EDTA inhibited both vesicle development and nitrogenase activity. The inhibition of both was reversed by the addition of calcium. A variety of agents known to affect calcium-dependent biological processes, such as a Ca-ATPase inhibitor, Ca-channel blockers, Ca-ionophores, calmodulin antagonists and the local anaesthetics, tetracaine and dibucaine, inhibited nitrogenase activity. Respiratory studies showed that a CN-insensitive respiration process occurred only under nitrogen derepressing conditions. Respiration by NH₄Cl-grown cells was completely inhibited by KCN while N₂-grown cells were inhibited by only 70%. Removal of calcium ions by EGTA or by the addition of dibucaine or tetracaine blocked the CN-insensitive respiration. This CN-insensitive respiration may be involved in protecting nitrogenase inside the vesicles from oxygen.Abbreviations EDTA ethylenediaminetetraacetic acid - EGTA ethyleneglycol-bis-( amino-ethyl ether) N,N¹-tetraacetic acid - GI germination inhibitor - MOPS 3-[N-morpholino] propane sulfonic acid - PCMBS p-chloromercuribenzene sulphonate - TMB 8,8-(diethylamino)-octyl-3,4,5-trimethoxybenzoate     

Distribution of serotonin (5-HT) and its receptors in the insect brain with focus on the mushroom bodies: lessons from Drosophila melanogaster and Apis mellifera

The biogenic amine serotonin (5-hydroxytryptamine, 5-HT) plays a key role in regulating and modulating various physiological and behavioral processes in both protostomes and deuterostomes. The specific functions of serotonin are mediated by its binding to and subsequent activation of membrane receptors. The vast majority of these receptors belong to the superfamily of G-protein-coupled receptors. We report here the in vivo expression pattern of a recently characterized 5-HT₁ receptor of the honeybee Apis mellifera (Am5-HT_1A) in the mushroom bodies. In addition, we summarize current knowledge on the distribution of serotonin and serotonin receptor subtypes in the brain and specifically in the mushroom bodies of the fruit fly Drosophila melanogaster and the honeybee. Functional studies in these two species have shown that serotonergic signaling participates in various behaviors including aggression, sleep, circadian rhythms, responses to visual stimuli, and associative learning. The molecular, pharmacological, and functional properties of identified 5-HT receptor subtypes from A. mellifera and D. melanogaster will also be summarized in this review.     

Voltage-dependent calcium current in dissociated smooth muscle cells of the buccal mass of Aplysia

Summary Isolated smooth muscle cells of the buccal mass of Aplysia contracted in response to depolarization elicited by a patch electrode in whole-cell configuration. With cesium-containing pipet solution and tetraethylammonium and 4-aminopyridine in the external solution depolarization elicited inward current. The voltage-dependent inward current was blocked completely by lanthanum (10 mmol·1^-1), inhibited 80–90% by nifedipine (1 mol·l^-1), and was dependent upon extracellular calcium. These results showed that the voltage-dependent inward current was due to activation of voltage-dependent calcium channels (VDCaCH). Minimal depolarization to begin activating VDCaCH was-60 to-30 mV. Inward current peaked within 8 ms and then decreased rapidly to a lower level of relatively non-inactivating current. The initial peak current could be mostly inactivated by a depolarization to-20 mV for 500 ms. Nifedipine reduced both the peak current and the relatively non-inactivating current. Nifedipine inhibited high potassium-elicited contractions of both intact and dissociated muscle. These results suggested that VDCaCH mediates calcium influx which triggers contraction in molluscan smooth muscle fibers.Abbreviations ACh acetylcholine - ATP adenosine triphosphate - EGTA ethyleneglycol-bis(-aminoethyl ether) N,N,N,N-tetraacetic acid - GTP guanosine triphosphate - HEPES N-2-hydroxyethylpiperazine-N-2-ethane sulfonic acid - MCG metacerebral giant cell - RNI relatively non-inactivating - SCP small cardioactive peptide - TEA-4AP-IO external solution containing Instant Ocean, tetraethylammonium chloride, and 4-aminopyridine (described in Methods) - TEA tetraethylammonium chloride - VDCaCH voltagedependent calcium channel - 4-AP 4-aminopyridine - 5-HT 5-hydroxytryptamine or serotonin     

Calcium and calmodulin inhibitor effects on the growth of carrot (Daucus carota L.) and radish (Raphanus sativus L.) in nutrient culture

Growth of carrot and radish seedlings in nutrient culture was inhibited by pretreatment with three calmodulin inhibitors. There was little selective effect on specific organs, shoots, tap root and fibrous roots over a range of concentrations. Although pretreatment with CaCl₂ (0.5 mM) did not affect growth of untreated seedlings, it partially reduced the inhibitory effects of trifluoperazine over the concentration range 0.01–0.05 mM. Trifluoperazine reduced the growth of GA₃-treated seedlings but did not overcome the modifying effect of GA₃ in favouring shoot/root ratio; ABA exacerbated its inhibitory effect on overall seedling growth and particularly on tap root development.Abbreviations GA₃ gibberellic acid - ABA abscisic acid - CaCl₂ calcium chloride - GAs gibberellins - Tfp trifluoperazine     

Electromechanical uncoupling in a molluscan muscle examined by the sucrose gap technique

Summary Membrane potential and tension ofBusycon radular protractor muscles were studied by sucrose gap methods.Excitation-contraction (EC) coupling was examined in response to acetylcholine (ACh) and high K which depolarized the fibres and induced tension, but without action potential firing. Potassium depolarization did not follow predictions expected from the Nernst equation at low and very high K levels, and maximum tension was found at about 100 mM K. EC coupling was very sensitive to [Ca]_o. Ca-free media eliminated K- and ACh-induced tension but with normal depolarization, showing full electromechanical uncoupling.Ionophore A23187 enhanced K- and ACh-induced responses and X-537A enhanced ACh responses, demonstrating acute dependence of activation on [Ca]_o in this muscle. The calcium antagonists nifedipine and nisoldipine reduced tension in the muscle only at very high concentrations, and both agents slightly reduced K- and ACh-induced depolarization.Verapamil reduced K- and ACh-induced tension but paradoxically it enhanced the depolarizing actions of these agents leading to electromechanical uncoupling. Abscisic acid (ABA) enhanced ACh- and K-induced tension and simultaneously enhanced their depolarizing actions. Ionophores and ABA appear to enhance calcium influx which may secondarily influence sodium influx.Calcium antagonists have no consistent actions on this muscle, suggesting that calcium channel activity of the radular protractor may be different from that seen in mammalian visceral muscles.Abbreviations ABRM Anterior byssus retractor muscle - ACh acetylcholine - ABA abscisic acid - EC excitation-contraction - SR sarcoplasmic reticulum - EGTA ethylene-diamine-tetraacetic acid     

High content of polyunsaturated fatty acids in muscle phospholipids of a fast runner,the European brown hare (Lepus europaeus)

To investigate both seasonal changes and possible intracorporal gradients of phospholipid fatty acid composition, skeletal muscles (n=124), hearts (n=27), and livers (n=34) from free-living brown hares (Lepus europaeus) were analyzed. Phospholipids from both skeletal muscles and heart had a high degree of unsaturation with 66.8±0.63% and 65.7±0.5% polyunsaturated fatty acids, respectively. This is the highest proportion of polyunsaturated fatty acids reported in any mammalian tissue. Polyunsaturated fatty acid content in skeletal muscles was 2.3% greater in winter compared to summer (F_1,106=17.7; P=0.0001), which may reflect thermoregulatory adjustments. Arachidonate (C20:4n-6) showed the greatest seasonal increase (+2.5%; F=7.95; P=0.0057). However, there were no pronounced differences in polyunsaturated fatty acid content between skeletal muscles from different locations in the body (m. iliopsoas, m. longissimus dorsi and m. vastus). Total muscle phospholipid polyunsaturated fatty acid content was correlated with polyunsaturated fatty acid content in triacyglycerols from perirenal white adipose tissue depots (r²=0.61; P=0.004). Polyunsaturated fatty acids were enriched in muscle phospholipids (56.8–73.6%), compared to white adipose tissue lipids (20.9–61.2%), and liver phospholipids (25.1–54.2%). We suggest that the high degree of muscle membrane unsaturation is related to hare-specific traits, such as a high maximum running speed.Abbreviations BMR basal metabolic rate - DPA docosapentaenoic acid - DHA docosahexaenoic acid - FA fatty acid - MUFA monounsaturated fatty acid - PC principal component - PUFA polyunsaturated fatty acid - SFA saturated fatty acid - UI unsaturation index - WAT white adipose tissueCommunicated by: G. Heldmaier     

RFamide neuropeptide actions on the molluscan heart

FMRFamide and the related tetrapeptide FLRFamide are highly excitatory in molluscan non-cardiac smooth muscle. They are also exceptionally excitatory in the atrium and internally perfused ventricle of Busycon canaliculatum. These two peptides, usually thought of as classic molluscan cardio-acceleratory agents are in fact simply two members of a large and ever growing superfamily, the RFamide family, whose phylogenetic distribution has been so elegantly mapped by Walker. Members of this family, often with extended peptide chains (e.g. penta, hepta and decapeptides), stretch in their known distribution from the cnidaria to the chordates. The effects of some of the members of this superfamily (FMRFamide. FLRFamide, YMRFamide, TNRNFLRFamide, SDPFLRFamide, LMS) were examined. The neuropeptides were found to be very potent at very low concentrations (10(-9) M) in the ventricle of both Buccinium and Busycon. Other neuropeptides (HFMRdFamide, SCPb, NLERFamide and pEGRFamide) were found to be without any effect. The Ca2+ dependency of these neuropeptides was also tested. The peptides appear to induce contraction of the ventricles by release of Ca2+ from internal pools. The neuropeptides appear to stimulate contraction in these cardiac muscles through a completely different pathway to Serotonin (the main excitatory neurotransmitter for the cardiac muscle). When the peptides were applied together with Serotonin an additive effect was observed clearly indicating the release of Ca2+ through different pathways. The nature of the RFamide receptor was also tested. It appears that the RFamide neuropeptides mobilize the 2nd messenger IP3 (Inositol trisphosphate), since the IP3 blocker Neomycin Sulphate inhibited the response of the neuropeptides.     

Unusual responses of proboscis muscles ofBusycon canaliculatum to some calcium antagonist agents

Summary K- and ACh-induced responses of the radular sac, odontophore retractor, and radular retractor muscles ofBusycon canaliculatum were found to be strongly dependent upon [Ca]₀. Diltiazem had strong positive inotropic and chronotropic actions on fast twitch activity in the odontophore retractor and radular protractor muscles. K-induced tonic force in these muscles was partly inhibited by diltiazem but only at very high concentrations. ACh responses in all muscles were eliminated by diltiazem. Nifedipine enhanced fast twitches and tonic force in response to high K, and induced persistent spontaneous fast twitch discharges. Nifedipine inhibited ACh-induced tonic force, but induced rhythmic bursts of fast twitches persisting long after nifedipine washout. Verapamil strongly inhibited K- and ACh-induced tonic force in all three muscles at high concentration, but stimulated fast twitch responses and converted ACh contractures into fast twitch activity. Sucrose gap studies showed that nifedipine and diltiazem reduced K- and ACh-induced tension and depolarization. Paradoxically, verapamil reduced K- and ACh-induced tension but significantly enhanced their induced depolarizations. Diltiazem, nifedipine and verapamil did not act like slow Ca channel antagonists in these muscles. This may reflect differences in channel structure between molluscs and mammals, or differences in the cellular calcium release pathways operated by such channels in molluscan and mammalian muscle. These Ca-ant-agonists appeared to act as agonists of fast twitch activity in these muscles and antagonists of the ACh-induced calcium release pathway for tonic force development.     

Relaxant effects of Schisandra chinensis and its major lignans on agonists-induced contraction in guinea pig ileum

In this study, the herbal extracts of Schisandra chinensis were demonstrated to inhibit the contractions induced by acetylcholine (ACh) and serotonin (5-HT) in guinea pig ileum, and the 95% ethanol extract was more effective than the aqueous extract. Analysis with High Performance Liquid Chromatography (HPLC) indicated that schisandrin, schisandrol B, schisandrin A and schisandrin B were the major lignans of Schisandra chinensis, and the ethanol extract contained higher amount of these lignans than the aqueous extract. All four lignans inhibited the contractile responses to ACh, with EC₂₀ values ranging from 2.2 ± 0.4 μM (schisandrin A) to 13.2 ± 4.7 μM (schisandrin). The effectiveness of these compounds in relaxing the 5-HT-induced contraction was observed with a similar magnitude. Receptor binding assay indicated that Schisandra lignans did not show significant antagonistic effect on muscarinic M3 receptor. In Ca²⁺-free preparations primed with ACh or KCl, schisandrin A (50 μM) attenuated the contractile responses to cumulative addition of CaCl₂ by 37%. In addition, schisandrin A also concentration-dependently inhibited ACh-induced contractions in Ca²⁺-free buffer. This study demonstrates that Schisandra chinensis exhibited relaxant effects on agonist-induced contraction in guinea pig ileum, with schisandrin, schisandrol B, schisandrin A and schisandrin B being the major active ingredients. The antispasmodic action of schisandrin A involved inhibitions on both Ca²⁺ influx through L-type Ca²⁺ channels and intracellular Ca²⁺ mobilization, rather than specific antagonism of cholinergic muscarinic receptors.     

Purification and characterization of two isozymes of polygalacturonase from Botrytis cinerea. Effect of calcium ions on polygalacturonase activity

The phytopathogenic fungus Botrytis cinerea produces a set of polygalacturonases (PGs) which are involved in the enzymatic degradation of pectin during plant tissue infection. Two polygalacturonases secreted by B. cinerea in seven-day-old liquid culture were purified to apparent homogeneity by chromatography. PG I was an exopolygalacturonase of molecular weight 65 kDa and pI 8.0 and PG II was an endopolygalacturonase of 52 kDa and pI 7.8. Enzymatic activity of PG I and PG II was partially inhibited by 1 mM CaCl₂, probably by calcium chelation of polygalacturonic acid, the substrate of the enzyme.     

Signalling molecules and blast pathogen attack activates rice OsPR1a and OsPR1b genes: A model illustrating components participating during defence/stress response

Recently the rice (Oryza sativa L.) OsPR1a and OsPR1b genes were primarily characterized against jasmonic acid, ethylene and protein phosphatase 2A inhibitors. The dicot PR1 are recognized as reliable marker genes in defence/stress responses, and we also propose OsPR1 as marker genes in rice, a model monocot crop genus. Therefore, to gain further insight into the expression/regulation of OsPR1 genes, we characterized their activation against signalling molecules such as salicylic acid (SA), abscisic acid (ABA) and hydrogen peroxide (H₂O₂), and the blast pathogen Magnaporthe grisea. Here, we report that SA and H₂O₂ strongly induced the mRNA level of both OsPR1 genes, whereas ABA was found to be moderately effective. These inductions were specific in nature and required a de novo synthesized protein factor. A potential interaction amongst the signalling molecules in modulating the expression of OsPR1 genes was observed. Moreover, a specific induction of OsPR1 expression in an incompatible versus compatible host-pathogen interaction was also found. Finally, based on our present and previous results, a model of OsPR1 expression/regulation has been proposed, which reveals their essential role in defence/stress responses in rice and use as potent gene markers.     

Examination of the role of FMRFamide-related peptides in the circadian clock of the cockroach Leucophaea maderae

The accessory medulla, the circadian clock of the cockroach Leucophaea maderae, is abundant in neuropeptides. Among these neuropeptides are the FMRFamide-related peptides (FaRPs), which generally share the C-terminal RFamide. As a first step toward understanding the functional role of FaRPs in the circadian clock of the cockroach, immunocytochemistry with antisera against various FaRPs, MALDI-TOF mass spectrometry, and injections of two FaRPs combined with running-wheel assays were performed. Prominent FMRFamide-like immunoreactivity was found in maximally four soma clusters associated with the accessory medulla and in most neuropils of the protocerebrum. By MALDI-TOF mass spectrometry, various extended FMRFamides of the cockroach L. maderae were partially identified in thoracic perisympathetic organs, structures known to accumulate extended FMRFamides in insects. By mass match, several of these peptides were also detected in the accessory medulla. Injections of FMRFamide and Pea-FMRFa-7 (DRSDNFIRF-NH₂) into the vicinity of the accessory medulla caused time-dependent phase-shifts of locomotor activity rhythms at circadian times 8, 18, and 4. Thus, our data suggest a role for the different FaRPs in the control of circadian locomotor activity rhythms in L. maderae.     

The role of extracellular calcium in pregnancy-induced attenuation of phenylephrine contraction in rat aorta with functional endothelium

The effect of pregnancy on the supply of calcium ions for the contractile responses of rat aortic rings to phenylephrine was investigated. The contractility of intact aortic rings from pregnant rats, compared with that of similar rings from non-pregnant rats, to phenylephrine and potassium chloride was significantly decreased. Contractions of rings from non-pregnant rats, pretreated with phenylephrine or potassium chloride, in response to calcium chloride were greater than those of similarly treated rings from pregnant rats. When the concentration of calcium chloride in the medium bathing the rings was reduced to 0.8 mmol·l^-1, the contractile response to phenylephrine was significantly (P<0.005) inhibited in rings from both pregnant and non-pregnant rats but to a greater extent in rings from non-pregnant rats. Contractions of aortic rings from pregnant rats in response to phenylephrine in calcium-free medium were similar to those of rings from non-pregnant rats, suggesting equal dependence on calcium from intracellular stores. The results suggest that pregnancy decreased the response to calcium influx into the aortic smooth muscle cells through both receptor-and voltage-operated calcium entry pathways. Since de-endothelialisation reversed the pregnancy-induced diminished contraction to phenylephrine, it is likely that pregnancy interferred with contractions induced by activation of receptors with phenylephrine through enhanced production of endothelium-derived relaxing factor(s).Abbreviations EC₅₀ concentration of drug producing 50% contraction - EDCF endothelium-derived contraction factor - EGTA ethyleneglycol-bis (-aminoethyl ether)-NN tetraacetic acid - PSS physiological salt solution - VSM vascular smooth muscle