The fate of sheep-dispersed seeds: Plant species emergence and spatial patterns

Sheep epizoochory has often been proposed as an important vector which can help to overcome the dispersal limitation of plants in fragmented landscapes. In order to evaluate the contribution of herbivores to recruitment especially of target species, the dispersal and post-dispersal fate of such seeds must be known. In a field experiment sheep with seeds of mainly target species (experimentally attached to their coats) were present at three sand plots for 24 h. Natural epizoochorous dispersal was already shown for most of the species in our study area. Seed detachment, trampling intensity and seed shadow were measured; seedling emergence and survival were recorded over an 8-month period. In addition, the effect of sheep trampling on seedling emergence and survival of two threatened species, Jurinea cyanoides and Koeleria glauca, were studied.     

Mixed mating system in the fern Asplenium scolopendrium: implications for colonization potential

Background and Aims

Human-mediated environmental change is increasing selection pressure for the capacity in plants to colonize new areas. Habitat fragmentation combined with climate change, in general, forces species to colonize areas over longer distances. Mating systems and genetic load are important determinants of the establishment and long-term survival of new populations. Here, the mating system of Asplenium scolopendrium, a diploid homosporous fern species, is examined in relation to colonization processes.

Methods

A common environment experiment was conducted with 13 pairs of sporophytes, each from a different site. Together they constitute at least nine distinct genotypes, representing an estimated approx. 95 % of the non-private intraspecific genetic variation in Europe. Sporophyte production was recorded for gametophytes derived from each parent sporophyte. Gametophytes were grown in vitro in three different ways: (I) in isolation, (II) with a gametophyte from a different sporophyte within the same site or (III) with a partner from a different site.

Key Results

Sporophyte production was highest in among-site crosses (III), intermediate in within-site crosses (II) and was lowest in isolated gametophytes (I), strongly indicating inbreeding depression. However, intragametophytic selfing was observed in most of the genotypes tested (eight out of nine).

Conclusions

The results imply a mixed mating system in A. scolopendrium, with outcrossing when possible and occasional selfing when needed. Occasional intragametophytic selfing facilitates the successful colonization of new sites from a single spore. The resulting sporophyte, which will be completely homozygous, will shed large amounts of spores over time. Each year this creates a bed of gametophytes in the vicinity of the parent. Any unrelated spore which arrives is then selectively favoured to reproduce and contribute its genes to the new population. Thus, while selfing facilitates initial colonization success, inbreeding depression promotes genetically diverse populations through outcrossing. The results provide further evidence against the overly simple dichotomous distinction of fern species as either selfing or outcrossing.     

Introduction of Virulence Markers in PB2 of Pandemic Swine-Origin Influenza Virus Does Not Result in Enhanced Virulence or Transmission

In the first 6 months of the H1N1 swine-origin influenza virus (S-OIV) pandemic, the vast majority of infections were relatively mild. It has been postulated that mutations in the viral genome could result in more virulent viruses, leading to a more severe pandemic. Mutations E627K and D701N in the PB2 protein have previously been identified as determinants of avian and pandemic influenza virus virulence in mammals. These mutations were absent in S-OIVs detected early in the 2009 pandemic. Here, using reverse genetics, mutations E627K, D701N, and E677G were introduced into the prototype S-OIV A/Netherlands/602/2009, and their effects on virus replication, virulence, and transmission were investigated. Mutations E627K and D701N caused increased reporter gene expression driven by the S-OIV polymerase complex. None of the three mutations affected virus replication in vitro. The mutations had no major impact on virus replication in the respiratory tracts of mice and ferrets or on pathogenesis. All three mutant viruses were transmitted via aerosols or respiratory droplets in ferrets. Thus, the impact of key known virulence markers in PB2 in the context of current S-OIVs was surprisingly small. This study does not exclude the possibility of emergence of S-OIVs with other virulence-associated mutations in the future. We conclude that surveillance studies aimed at detecting S-OIVs with increased virulence or transmission should not rely solely on virulence markers identified in the past but should include detailed characterization of virus phenotypes, guided by genetic signatures of viruses detected in severe cases of disease in humans.The new H1N1 swine-origin influenza virus (S-OIV) recently emerged to cause the first influenza pandemic in 40 years (2). The S-OIV presumably emerged from pigs, as its genome was shown to consist of six gene segments of “triple-reassortant” swine viruses and two of “Eurasian lineage” swine viruses (9). The start of the S-OIV pandemic has been relatively mild, with a clinical spectrum ranging from mild upper respiratory tract illness to sporadic cases of severe pneumonia leading to acute respiratory distress syndrome (22). As of 15 November 2009, worldwide, more than 206 countries have reported laboratory-confirmed cases of S-OIV infection, including over 6,770 deaths (32).In previous influenza pandemics, such as the Spanish influenza pandemic of 1918 and the Hong Kong influenza pandemic of 1968, a first wave of cases of relatively mild illnesses was followed by more severe subsequent waves (29). The reason for this increased severity has remained largely unknown, but one possible explanation could be that the pandemic viruses required further adaptation to the human host, resulting in the emergence of viruses that were more virulent than those of the first wave. Such adaptive changes could occur by gene reassortment between cocirculating influenza A viruses or by mutation.In the past decade, determinants of influenza A virus virulence have been mapped using reverse genetics with a variety of pandemic, epidemic, and zoonotic influenza viruses. Mutations affecting virulence and host range have frequently been mapped to hemagglutinin (HA) and neuraminidase (NA) in relation to their interaction with sialic acids, the virus receptors on host cells (11, 18, 30). Nonstructural protein 1 (NS1) has been implicated in the virulence of highly pathogenic avian influenza (HPAI) virus H5N1 and the 1918 H1N1 virus, as the NS1 proteins of these viruses were shown to act as strong antagonists of the interferon pathways (10, 25). Furthermore, the polymerase genes, in particular the PB2 gene, have been shown to be important determinants of virulence in the HPAI H5N1 and H7N7 viruses and of transmission in the 1918 H1N1 virus (11, 21, 31). One of the most commonly identified virulence markers to date is E627K in PB2. The glutamic acid (E) residue is found generally in avian influenza viruses, while human viruses have a lysine (K), and this mutation has been described as a determinant of the host range in vitro (28). When avian viruses lacking the E627K substitution were passaged in mice, the viruses acquired the mutation spontaneously upon a single passage (15, 17). In the HPAI H5N1 and H7N7 viruses, E627K was shown to be the prime determinant of pathogenesis in mice (11, 21, 23). Given that all human and many zoonotic influenza viruses of the last century contained 627K (1), it was surprising that the S-OIV had 627E.Additionally, the aspartate (D)-to-asparagine (N) mutation at position 701 of PB2, which was shown to compensate for the absence of E627K, has also not been detected in S-OIV (27). This D701N mutation has previously been shown to expand the host range of avian H5N1 to mice and humans (3, 15) and to increase virus transmission in guinea pigs (27). Thus, S-OIV was the first known human pandemic virus with 627E and 701D, and it has been speculated that S-OIV could mutate into a more virulent form by acquiring one of these mutations, or both.On 8 May 2009, the detection of another mutation in the PB2 gene of S-OIV, an E-to-glycine (G) mutation at position 667, was reported (http://www.promedmail.org/pls/apex/f?p=2400:1000, archive no. 20090508.1722). It has previously been suggested that the E667G substitution in PB2 of HPAI H5N1 virus was under positive selection and possibly played a role in sustainable transmission in humans (14).On 28 September 2009, detection of the E627K mutation in PB2 of S-OIVs of two individuals in the Netherlands was reported (http://www.promedmail.org/pls/apex/f?p=2400:1000, archive no. 20090928.3394) and raised concern about the possible enhanced replication of the S-OIV in humans, possibly associated with increased virulence. To date, the D701N mutation in PB2 has not been reported in any of the S-OIVs sequenced, and additional viruses with mutation E627K have not been recorded, either. In contrast, viruses with E677G have been reported from the United States, Canada, Germany, the United Kingdom, Norway, and France, according to the public sequence databases.Here, the effects of the E627K, D701N, and E677G mutations in the PB2 genes of S-OIVs was investigated using genetically engineered influenza viruses based on a prototype S-OIV, A/Netherlands/602/2009. Polymerase activity was measured in minigenome assays in human 293T cells, virus replication was analyzed in Madin-Darby Canine kidney (MDCK) cells, virulence was tested in mouse and ferret models, and transmission by aerosols or respiratory droplets was tested in ferrets. In contrast to the earlier assumptions based on experience with other influenza A viruses, S-OIVs with E627K, D701N, or E677G in PB2 did not show a marked increase in virulence or transmission compared to the wild-type virus.     

Quantification of right ventricular afterload in patients with and without pulmonary hypertension

Right ventricular (RV) afterload is commonly defined as pulmonary vascular resistance, but this does not reflect the afterload to pulsatile flow. The purpose of this study was to quantify RV afterload more completely in patients with and without pulmonary hypertension (PH) using a three-element windkessel model. The model consists of peripheral resistance (R), pulmonary arterial compliance (C), and characteristic impedance (Z). Using pulmonary artery pressure from right-heart catheterization and pulmonary artery flow from MRI velocity quantification, we estimated the windkessel parameters in patients with chronic thromboembolic PH (CTEPH; n = 10) and idiopathic pulmonary arterial hypertension (IPAH; n = 9). Patients suspected of PH but in whom PH was not found served as controls (NONPH; n = 10). R and Z were significantly lower and C significantly higher in the NONPH group than in both the CTEPH and IPAH groups (P < 0.001). R and Z were significantly lower in the CTEPH group than in the IPAH group (P < 0.05). The parameters R and C of all patients obeyed the relationship C = 0.75/R (R(2) = 0.77), equivalent to a similar RC time in all patients. Mean pulmonary artery pressure P and C fitted well to C = 69.7/P (i.e., similar pressure dependence in all patients). Our results show that differences in RV afterload among groups with different forms of PH can be quantified with a windkessel model. Furthermore, the data suggest that the RC time and the elastic properties of the large pulmonary arteries remain unchanged in PH.     

Mapping the distribution of 3-hydroxy oxylipins in the ascomycetous yeast Saturnispora saitoi

The distribution of 3-hydroxy oxylipins in Saturnispora saitoi was mapped using immunofluorescence microscopy. Fluorescence was observed on aggregating ascospores, indicating the presence of 3-hydroxy oxylipins on the surface or between ascospores. The oxylipin was identified as 3-hydroxy 9:1 using gas chromatography mass spectrometry. Furthermore, ultrastructural studies using scanning and transmission electron microscopy on ascospores revealed a clear equatorial ledge surrounding oval-shaped ascospores.     

Endothelial mediators and communication through vascular gap junctions

Cellular interaction in vessels is achieved by multiple communication pathways, including gap junctions (GJs). They provide intercellular channels, allowing direct interaction of endothelial and smooth muscle cells and the coordination of cellular behaviour along the vessel. The latter is a prerequisite for large flow increases because an adaptation of resistance along the vessel length is required. Longitudinal communication is studied by confined local stimulation of arterioles and the observation of responses at distant locations. Certain vascular stimuli induce local and concomitant remote responses of a similar type, verifying rapid longitudinal conduction of vasomotor signals, most likely changes in membrane potential. This is achieved for dilatory responses via the endothelium, possibly by an endothelium-derived hyperpolarising factor (EDHF) that induces local hyperpolarisation, which is then transferred to remote sites through GJs. In vessels, GJs are composed of different connexins (Cx), but Cx40 is of special importance because its lack impairs longitudinal conduction of vasodilations. Interestingly, Cx40-deficient mice are hypertensive, suggesting that Cx40-dependent coupling is necessary to regulate vascular behaviour and peripheral resistance. While the role of other connexins is less well established, an abundance of data has proven the necessity of GJ communication to coordinate vascular behaviour during blood flow regulation.     

Regulation of aldosterone production from zona glomerulosa cells by ANG II and cAMP: evidence for PKA-independent activation of CaMK by cAMP

Aldosterone production in zona glomerulosa (ZG) cells of adrenal glands is regulated by various extracellular stimuli (K(+), ANG II, ACTH) that all converge on two major intracellular signaling pathways: an increase in cAMP production and calcium (Ca(2+)) mobilization. However, molecular events downstream of the increase in intracellular cAMP and Ca(2+) content are controversial and far from being completely resolved. Here, we found that Ca(2+)/calmodulin-dependent protein kinases (CaMKs) play a predominant role in the regulation of aldosterone production stimulated by ANG II, ACTH, and cAMP. The specific CaMK inhibitor KN93 strongly reduced ANG II-, ACTH-, and cAMP-stimulated aldosterone production. In in vitro kinase assays and intact cells, we could show that cAMP-induced activation of CaMK, using the adenylate cyclase activator forskolin or the cAMP-analog Sp-5,6-DCI-cBIMPS (cBIMPS), was not mediated by PKA. Activation of the recently identified cAMP target protein Epac (exchange protein directly activated by cAMP) by 8-pCPT-2'-O-Me-cAMP had no effect on CaMK activity and aldosterone production. Furthermore, we provide evidence that cAMP effects in ZG cells do not involve Ca(2+) or MAPK signaling. Our results suggest that ZG cells, in addition to PKA and Epac/Rap proteins, contain other as yet unidentified cAMP mediator(s) involved in regulating CaMK activity and aldosterone secretion.     

Increased circadian prolactin release is blunted after body weight loss in obese premenopausal women

We recently showed that prolactin (PRL) release is considerably enhanced in obese women in proportion to the size of their visceral fat mass. PRL release is inhibited by dopamine 2 receptor (D2R) activation, and dietary restriction/weight loss are associated with increased dopaminergic signaling in animals. Therefore, we hypothesized that enhanced PRL release in obese humans would be reversed by weight loss. To evaluate this postulate, we measured 24-h plasma PRL concentrations at 10-min intervals in 11 obese premenopausal women (BMI 33.3 +/- 0.7 kg/m2) before and after weight loss (50% reduction of overweight/15% absolute weight loss, using a very low-calorie diet) in the follicular phase of their menstrual cycle. The 24-h PRL concentration profiles were analyzed by a peak detection program (Cluster) and a wave form-independent deconvolution technique (Pulse). Spontaneous 24-h PRL secretion was significantly reduced in obese women [mean daily release, before 128 +/- 24 vs. after weight loss 110 +/- 17 microg/liter distribution volume (Vdl)(-1) x 24 h, P = 0.05]. Body weight loss particularly blunted PRL secretory burst mass (Pulse area, before 230 +/- 28 vs. after weight loss 221 +/- 31 microg/Vdl(-1) x 24 h, P = 0.03), whereas burst frequency was unaffected (no. of pulses, before 11 +/- 1 vs. after weight loss 12 +/- 1 n/24 h, P = 0.69). Thus elevated PRL secretion rate in obese women is significantly reduced after loss of 50% of overweight. We speculate that amelioration of deficit D2R-mediated neurotransmission and/or diminutions of circulating leptin/estrogen levels might be involved in the physiology of this phenomenon.