cGMP-independent inhibition of integrin alphaIIbbeta3-mediated platelet adhesion and outside-in signalling by nitric oxide

We examined the influence of S-nitrosoglutathione (GSNO) on alpha(IIb)beta(3) integrin-mediated platelet adhesion to immobilised fibrinogen. GSNO induced a time- and concentration-dependent inhibition of platelet adhesion. Inhibition was cGMP-independent and associated with both reduced platelet spreading and protein tyrosine phosphorylation. To investigate the cGMP-independent effects of NO we evaluated integrin beta(3) phosphorylation. Adhesion to fibrinogen induced rapid phosphorylation of beta(3) on tyrosines 773 and 785, which was reduced by GSNO in a cGMP independent manner. Similar results were observed in suspended platelets indicating that NO-induced effects were independent of spreading-induced signalling. This is the first demonstration that NO directly regulates integrin beta(3) phosphorylation.     

Pig acute-phase protein levels after stress induced by changes in the pattern of food administration

A total of 240 pigs, 74 days old, half boars and half females, were included in a trial designed to assess the effect of the stress caused by changes in the pattern of food administration on the concentration of acute phase proteins (APP) and productive performance parameters. Half of the animals (pigs fed ad libitum, AL group) had free access to feed, while the rest were fed following a disorderly pattern (DIS group), in which animals had alternating periods of free access to feed and periods of no feeding, when food was removed from the feeder. The periods of free access to feed (two daily periods of 2-h duration) were randomly assigned, and varied from day to day. Total feed supplied per day was identical in both groups, and exceeded the minimal amount required for animals of these ages. Pen feed intake, individual body weights and the main positive pig APP pig major acute phase protein (Pig-MAP), haptoglobin, serum amyloid A (SAA), C-reactive protein (CRP), and the negative APP apolipoprotein A-I (ApoA-I) and transtherytin were determined every 2 weeks during the period 76 to 116 days of age. Animals fed ad libitum had better average daily gain (ADG) than DIS animals in the whole experimental period (P < 0.01) but the differences in ADG were only produced in the two first experimental sub-periods (60 to 74 and 74 to 116 days of age), suggesting that the stress diminished when the animals get used to the DIS feeding. Interestingly differences in ADG between DIS and AL pigs were due to males, whereas no differences were observed between females. The same differences observed for ADG were found for APP. DIS males had higher Pig-MAP concentration than AL males at 74 and 116 days of age, lower ApoA-I concentration at 74 days of age and higher haptoglobin and CRP concentration at 116 days of age (P < 0.05). The results obtained in this trial show an inverse relationship between weight gain and APP levels, and suggest that APP may be biomarkers for the evaluation of distress and welfare in pigs.     

Allelochemical Stress Can Trigger Oxidative Damage in Receptor Plants: Mode of Action of Phytotoxicity

Plants can interact with other plants through the release of chemical compounds or allelochemicals. These compounds released by donor plants influence germination, growth, development, and establishment of receptor plants; having an important role on the pattern of vegetation, i.e as invasive strategy, and on crop productivity. This phytotoxic or negative effect of the released allelochemicals (allelochemical stress) is caused by modifying or altering diverse metabolic processes, having many molecular targets in the receptor plants. Recently, using an aggressive and allelopathic plant Sicyos deppei as the donor plant, and Lycopersicon esculentum as the receptor plant, we showed that the allelochemicals released by S. deppei caused oxidative damage through an increase in reactive oxygen species (ROS) and activation or modification of antioxidant enzymes. Based on this study, we proposed that oxidative stress is one of the mechanisms, among others, by which an allelopathic plant causes phytotoxicity to other plants.Key Words: allelochemical stress, Sicyos deppei, Lycopersicon esculentum, plant allelochemicals, phytotoxicity, ROS, lipid peroxidationIt is well known that plants interact with many organisms, including co-habitation with other plants. Among these relations are the ones referred to as allelochemical interactions. Allelopathy can be defined as a mechanism of interference in plant growth and development mediated by the addition of plant-produced secondary products (allelochemicals) to the soil rhizosphere. Allelochemicals are present in all types of plants and tissues and are released into the soil rhizosphere by a variety of mechanisms, including decomposition of residues, volatilization, and root exudation.^1–3 These released allelochemicals become stressful only when they are toxic or when they affect the growth and development of surrounding plants (phytotoxicity). Studies on allelochemical stress have been expanding; recently the phenomenon has taken on increased importance, since it can help explain plant growth inhibition in interspecies interactions and in structuring the plant community. It appears to be one mechanism or strategy used by invasive plants to become successful and replace other native ones.^4–6On the other hand, the chemical diversity of the organic compounds that mediate these allelochemical interactions is as diverse as their modes of action. Many studies have shown that allelochemicals interfere with several physiological processes in the receptor organism.^3,7,8 The physiological effects on receptor plants or other organisms are useful in determining the role of the allelochemicals in the system. Recently, it has been proposed that allelochemicals can cause oxidative stress in target plants and therefore activate the antioxidant mechanism.^3,8–12 In particular; our studies have been focused on knowing the physiological targets of the phytotoxic compounds released by a noxious and endemic weed Sicyos deppei G. Don (Cucurbitaceae). We have taken as the model the receptor or damaged plant Lycopersicon esculentum Mill (Solanaceae), since in Mexican crop-fields, it is common to find both plants. We have observed the strong allelopathic potential of S. deppei and are exploring the potential metabolic target that could be involved in the strong phytotoxic effect of this weed.^13–16 We recently documented the oxidative damage that an aqueous leachate of S. deppei caused in the target plant L. esculentum.¹⁶ In this work we explored in seeds and in primary roots the antioxidant mechanism of tomato to determine whether or not the inhibitory effect of S. deppei was due to oxidative damage. We analyzed the activity and expression of some antioxidant enzymes involved in the detoxification of ROS, and found an imbalance in its activity as well as an increase in the levels of H₂O₂ at 24 h of treatment. Additional studies on the levels of ROS, including hydrogen peroxide, were monitored in primary roots from germinating seeds under allelochemical stress by imaging the ROS-sensitive fluorescent dye dichlorofluorescein (_H2DCFDA, carboxy-2′, 7′-diclhlorofluorescein diacetate) in a confocal microscope (BIORAD 1024, 488 nm dichroic and 510–560 nm emission). DCFDA fluorescence increases as the dye is oxidized by ROS to dichlorofluorescein (DCF). Figure 1 shows a marked increase in fluorescence at 48 h and 72 h of treatment (Fig. 1A–C) compared with the same treatment at 24 h, and with the corresponding control. This fluorescence was more evident at the root cap and at the zone of root hairs in treated seeds.Open in a separate windowFigure 1Allelochemical stress caused by S. deppei elicits ROS generation in tomato germinating seeds. Panels show control (left) and treatment (right) at 24 h (A), 48 h (B), and 72 h (C). Lower panels show higher magnification (40X) of the corresponding time. Seedlings with primary roots were stained for 10–15 minutes with 25 µM DCFDA in distilled water.Clearly, allelochemical stress caused by S. deppei is producing an oxidative imbalance as evidenced by generation of ROS and alteration of activity of antioxidant enzymes. Another result that supports this observation is the high level of lipid peroxidation that we observed at 48 and 72 h, which correlates with the inhibition of two membrane-associated enzymes, H⁺-ATPase¹⁵ and NADPH oxidase.¹⁶ We believe, however, that the oxidative damage we observed is not solely responsible for the phytotoxic effect of S. deppei on tomato growth. In other words, we suggest that its inhibitory effect represents the sum of many metabolic processes affected at different times. Currently we are studying the dynamics of carbohydrate mobilization, cell wall loosing of the endosperm to allow the protrusion of the radicle, and ABA content. Preliminary results have shown that there is a delay in expression of some enzyme activities and a high content of ABA.     

Kluyveromyces lactis sexual pheromones. Gene structures and cellular responses to alpha-factor

The Kluyveromyces lactis genes for sexual pheromones have been analyzed. The alpha-factor gene encodes a predicted polypeptide of 187 amino acid residues containing four tridecapeptide repeats (WSWITLRPGQPIF). A nucleotide blast search of the entire K. lactis genome sequence allowed the identification of the nonannotated putative a-pheromone gene that encodes a predicted protein of 33 residues containing one copy of the dodecapeptide a-factor (WIIPGFVWVPQC). The role of the K. lactis structural genes KlMFalpha1 and KlMFA1 in mating has been investigated by the construction of disruption mutations that totally eliminate gene functions. Mutants of both alleles showed sex-dependent sterility, indicating that these are single-copy genes and essential for mating. MATalpha, Klsst2 mutants, which, by analogy to Saccharomyces cerevisiae, are defective in Galpha-GTPase activity, showed increased sensitivity to synthetic alpha-factor and increased capacity to mate. Additionally, Klbar1 mutants (putatively defective in alpha-pheromone proteolysis) showed delay in mating but sensitivity to alpha-pheromone. From these results, it can be deduced that the K. lactis MATa cell produces the homolog of the S. cerevisiaealpha-pheromone, whereas the MATalpha cell produces the a-pheromone.     

First sighting of a tropical benthic reef shark species at Rapa Nui: chance dispersal or a sign of things to come?

On 20 December 2017, a mature Triaenodon obesus was observed at Hanga Roa Bay, Rapa Nui (Easter Island) at c.18 m depth. This observation increases both the range of T. obesus in the Pacific Ocean and the number of elasmobranch species at Rapa Nui. In combination with other recent sightings further extending the southern range of this species during the Austral summer, sea surface temperature is suggested as key to southern dispersal.     

Regional impacts of global climate change: a local humid phase in central Iberia in a late Miocene drying world

The end of the Miocene was an eventful period of changes in climate and geography, and a restructuring of terrestrial plant and mammals. The tendency towards global aridification has attracted much recent interest, making the late Miocene a striking case‐study for testing current and near‐future scenarios involving global warming. Little is known about the consequences of global changes in temperature and precipitation at regional or local scales. Given its geographical position and extraordinary fossil record, the Iberian Peninsula offers many insights into short‐ and long‐term shifts in climate, and the local response. Here, we explore the diet and ecology of large‐mammals through tooth‐wear patterns, and examine changes in local climate and habitat conditions in central Spain in a period (9.1–6.3 Ma) for which there exists a dearth of palaeoenvironmental information. Relatively dry climates and open‐woodland landscapes evolved locally during the late Vallesian and early Turolian (9.0–7.7 Ma). Unexpectedly, we detect a period of high precipitation and a peak of humidity at the end of the Turolian (7.0 Ma) that prompted the development of wetter, more forested habitats, suggesting that the traditional view of the late Miocene as a steppe landscape is a misconception. We also find a period of relatively drier and warmer conditions from the early Ventian onwards. Overall, our finding that a local episode of increased humidity in central Spain was synchronous with a global warming trend in Europe provides evidence that the greatest climatic changes may have an opposite impact at regional and local scales.