ASYMMETRIC VIABILITY OF RECIPROCAL-CROSS HYBRIDS BETWEEN CRESTED AND MARBLED NEWTS (TRITURUS CRISTATUS AND T. MARMORATUS)

Hybridization between divergent lineages often results in reduced hybrid viability. Here we report findings from a series of independent molecular analyses over several seasons on four life stages of F₁ hybrids between the newts Triturus cristatus and T. marmoratus . These two species form a bimodal hybrid zone of broad overlap in France, with F₁ hybrids making up about 4% of the adult population. We demonstrate strong asymmetry in the direction of the cross, with one class ( cristatus -mothered) making up about 90% of F₁ hybrids. By analyzing embryos and hatchlings, we show that this asymmetry is not due to prezygotic effects, as both classes of hybrid embryos are present at similar frequencies, implicating differential selection on the two hybrid classes after hatching. Adult F₁ hybrids show a weak Haldane effect overall, with a 72% excess of females. The rarer marmoratus -mothered class, however, consists entirely of males. The absence of females from this class of adult F₁ hybrids is best explained by an incompatibility between the cristatus X chromosome and marmoratus cytoplasm. It is thus important to distinguish the two classes of reciprocal-cross hybrids before making general statements about whether Haldane's rule is observed.     

Glucagon-like peptide-1 improves insulin and proinsulin binding on RINm5F cells and human monocytes

Glucagon-like peptide-1-(7---36) amide (GLP-1) is a potent incretin hormone secreted from distal gut. It stimulates basal and glucose-induced insulin secretion and proinsulin gene expression. The present study tested the hypothesis that GLP-1 may modulate insulin receptor binding. RINm5F rat insulinoma cells were incubated with GLP-1 (0.01-100 nM) for different periods (1 min-24 h). Insulin receptor binding was assessed by competitive ligand binding studies. In addition, we investigated the effect of GLP-1 on insulin receptor binding on monocytes isolated from type 1 and type 2 diabetes patients and healthy volunteers. In RINm5F cells, GLP-1 increased the capacity and affinity of insulin binding in a time- and concentration-dependent manner. The GLP-1 receptor agonist exendin-4 showed similar effects, whereas the receptor antagonist exendin-(9---39) amide inhibited the GLP-1-induced increase in insulin receptor binding. The GLP-1 effect was potentiated by the adenylyl cyclase activator forskolin and the stable cAMP analog Sp-5, 6-dichloro-1-beta-D-ribofuranosyl-benzimidazole-3', 5'-monophosphorothioate but was antagonized by the intracellular Ca(2+) chelator 1,2-bis(0-aminophenoxy)ethane-N,N,N',N'-tetraacetic acid-AM. Glucagon, gastric inhibitory peptide (GIP), and GIP-(1---30) did not affect insulin binding. In isolated monocytes, 24 h incubation with 100 nM GLP-1 significantly (P<0.05) increased the diminished number of high-capacity/low-affinity insulin binding sites per cell in type 1 diabetics (9,000+/-3,200 vs. 18,500+/-3,600) and in type 2 diabetics (15,700+/-2,100 vs. 28,900+/-1,800) compared with nondiabetic control subjects (25,100+/-2,700 vs. 26,200+/-4,200). Based on our previous experiments in IEC-6 cells and IM-9 lymphoblasts indicating that the low-affinity/high-capacity insulin binding sites may be more specific for proinsulin (Jehle, PM, Fussgaenger RD, Angelus NK, Jungwirth RJ, Saile B, and Lutz MP. Am J Physiol Endocrinol Metab 276: E262-E268, 1999 and Jehle, PM, Lutz MP, and Fussgaenger RD. Diabetologia 39: 421-432, 1996), we further investigated the effect of GLP-1 on proinsulin binding in RINm5F cells and monocytes. In both cell types, GLP-1 induced a significant increase in proinsulin binding. We conclude that, in RINm5F cells and in isolated human monocytes, GLP-1 specifically increases the number of high-capacity insulin binding sites that may be functional proinsulin receptors.     

Mice transgenic for exon 1 of Huntington's disease: properties of cholinergic and dopaminergic pre-synaptic function in the striatum

In Huntington's disease (HD), neuronal loss is most prominent in the striatum leading to emotional, cognitive and progressive motor dysfunction. The R6/2 mice, transgenic for exon 1 of the HD gene, develop a neurological phenotype with similarities to these features of HD. In striatal tissue, electrically evoked release of tritiated acetylcholine (ACh) and dopamine (DA) were compared in wild-type (WT) and R6/2 mice. In R6/2 mice, the evoked release of ACh, its M2 autoreceptor-mediated maximum inhibition and its dopamine D2 heteroreceptor-mediated maximum inhibition was diminished to 51%, 74% and 87% of controls, respectively. Also, the activities of choline acetyltransferase and of synaptosomal high-affinity choline uptake decreased progressively with age in these mice. In the DA release model, however, electrical stimulation elicited equal amounts of [3H]-DA both in WT and R6/2 mice. Moreover, high-affinity DA uptake into striatal slices was similar in WT and R6/2 mice. In order to confirm these findings in vivo, intrastriatal levels of extracellular DA were measured by intracerebral microdialysis in freely moving mice: striatal DA levels were found to be equal in WT and R6/2 mice. In conclusion, in the transgenic R6/2 mice changes occur mainly in striatal cholinergic neurones and their pre-synaptic modulation, but not in the dopaminergic afferent terminals. Whether similar events also contribute to the pathogenesis of HD in humans has to be established.     

Mutation of the RGD sequence does not affect plasma membrane association and growth inhibitory effects of elevated IGFBP-2 in vivo

Vacuolar sequestration or cellular extrusion of glutathione-conjugated xenobiotics and catabolites by ATP-binding cassette (ABC) transporters is an important detoxification mechanism operating in many species. In this study, we show that the yeast ABC transporter Bpt1p, a paralogue of Ycf1p, acts as an ATP-dependent vacuolar pump for glutathione conjugates. Bpt1p, which is inhibited by vanadate and glibenclamide, accounts for one third of the total vacuolar transport of glutathione conjugates. Furthermore, immunoblot analyses show that Bpt1p levels are strongly elevated in early stationary phase, consistent with a function of Bpt1p in vacuolar detoxification.     

Sexual selection impacts brain anatomy in frogs and toads

Natural selection is a major force in the evolution of vertebrate brain size, but the role of sexual selection in brain size evolution remains enigmatic. At least two opposing schools of thought predict a relationship between sexual selection and brain size. Sexual selection should facilitate the evolution of larger brains because better cognitive abilities may aid the competition for mates. However, it may also restrict brain size evolution due to energetic trade‐offs between brain tissue and sexually selected traits. Here, we examined the patterns of selection on brain size and brain anatomy in male anurans (frogs and toads), a group where the strength of sexual selection differs markedly among species, using a phylogenetically controlled generalized least‐squared (PGLS) regression analyses. The analysis revealed that in 43 Chinese anuran species, neither mating system, nor type of courtship, or testes mass was significantly associated with relative brain size. While none of those factors related to the relative size of olfactory nerves, optic tecta, telencephalon, and cerebellum, the olfactory bulbs were relatively larger in monogamous species and those using calls during courtship. Our findings support the mosaic model of brain evolution and suggest that while the investigated aspects of sexual selection do not seem to play a prominent role in the evolution of brain size of anurans, they do impact their brain anatomy.     

Myeloid-Specific Deletion of Diacylglycerol Lipase α Inhibits Atherogenesis in ApoE-Deficient Mice

Background

The endocannabinoid 2-arachidonoylglycerol (2-AG) is a known modulator of inflammation. Despite its high concentration in vascular tissue, the role of 2-AG in atherogenesis has not yet been examined.

Methods

ApoE-deficient mice were sublethally irradiated and reconstituted with bone marrow from mice with a myeloid-specific knockout of the 2-AG synthesising enzyme diacylglycerol lipase α (Dagla) or control bone marrow with an intact 2-AG biosynthesis. After a cholesterol-rich diet for 8 weeks, plaque size and plaque morphology were examined in chimeric mice. Circulating inflammatory cells were assessed by flow cytometry. Aortic tissue and plasma levels of endocannabinoids were measured using liquid chromatography-multiple reaction monitoring.

Results

Mice with Dagla-deficient bone marrow and circulating myeloid cells showed a significantly reduced plaque burden compared to controls. The reduction in plaque size was accompanied by a significantly diminished accumulation of both neutrophil granulocytes and macrophages in atherosclerotic lesions of Dagla-deficient mice. Moreover, CB2 expression and the amount of oxidised LDL within atherosclerotic lesions was significantly reduced. FACS analyses revealed that levels of circulating inflammatory cells were unaltered in Dagla-deficient mice.

Conclusions

Myeloid synthesis of the endocannabinoid 2-AG appears to promote vascular inflammation and atherogenesis. Thus, myeloid-specific disruption of 2-AG synthesis may represent a potential novel therapeutic strategy against atherosclerosis.     

Genetic dissimilarity predicts paternity in the smooth newt (Lissotriton vulgaris)

Under sperm competition, paternity is apportioned by polyandrous females according to the order of matings and the genetic quality of the inseminating males. In order to distinguish between these two effects, we sequentially paired 12 female smooth newts (Lissotriton vulgaris) with each of two males and, where possible, repeated the same procedure in reverse order of the identical males after assumed sperm depletion. For a total of 578 offspring, amplified fragment length polymorphisms genetic markers revealed multiple paternities in all matings, without significant first- or second-male sperm precedence. The paternity share of individual males was transitive across the two trials with male order switch, and successful males had a significantly higher genetic dissimilarity to the female than expected by chance. We argue that patterns of paternity in natural newt populations are determined through a combination of good genes and relatedness.     

A human kinase yeast array for the identification of kinases modulating phosphorylation‐dependent protein–protein interactions

Protein kinases play an important role in cellular signaling pathways and their dysregulation leads to multiple diseases, making kinases prime drug targets. While more than 500 human protein kinases are known to collectively mediate phosphorylation of over 290,000 S/T/Y sites, the activities have been characterized only for a minor, intensively studied subset. To systematically address this discrepancy, we developed a human kinase array in Saccharomyces cerevisiae as a simple readout tool to systematically assess kinase activities. For this array, we expressed 266 human kinases in four different S. cerevisiae strains and profiled ectopic growth as a proxy for kinase activity across 33 conditions. More than half of the kinases showed an activity‐dependent phenotype across many conditions and in more than one strain. We then employed the kinase array to identify the kinase(s) that can modulate protein–protein interactions (PPIs). Two characterized, phosphorylation‐dependent PPIs with unknown kinase–substrate relationships were analyzed in a phospho‐yeast two‐hybrid assay. CK2α1 and SGK2 kinases can abrogate the interaction between the spliceosomal proteins AAR2 and PRPF8, and NEK6 kinase was found to mediate the estrogen receptor (ERα) interaction with 14‐3‐3 proteins. The human kinase yeast array can thus be used for a variety of kinase activity‐dependent readouts.     

An Overdose of the Arabidopsis Coreceptor BRASSINOSTEROID INSENSITIVE1-ASSOCIATED RECEPTOR KINASE1 or Its Ectodomain Causes Autoimmunity in a SUPPRESSOR OF BIR1-1-Dependent Manner

The membrane-bound BRASSINOSTEROID INSENSITIVE1-ASSOCIATED RECEPTOR KINASE1 (BAK1) is a common coreceptor in plants and regulates distinct cellular programs ranging from growth and development to defense against pathogens. BAK1 functions through binding to ligand-stimulated transmembrane receptors and activating their kinase domains via transphosphorylation. In the absence of microbes, BAK1 activity may be suppressed by different mechanisms, like interaction with the regulatory BIR (for BAK1-INTERACTING RECEPTOR-LIKE KINASE) proteins. Here, we demonstrated that BAK1 overexpression in Arabidopsis (Arabidopsis thaliana) could cause detrimental effects on plant development, including growth arrest, leaf necrosis, and reduced seed production. Further analysis using an inducible expression system showed that BAK1 accumulation quickly stimulated immune responses, even under axenic conditions, and led to increased resistance to pathogenic Pseudomonas syringae pv tomato DC3000. Intriguingly, our study also revealed that the plasma membrane-associated BAK1 ectodomain was sufficient to induce autoimmunity, indicating a novel mode of action for BAK1 in immunity control. We postulate that an excess of BAK1 or its ectodomain could trigger immune receptor activation in the absence of microbes through unbalancing regulatory interactions, including those with BIRs. Consistently, mutation of SUPPRESSOR OF BIR1-1, which encodes an emerging positive regulator of transmembrane receptors in plants, suppressed the effects of BAK1 overexpression. In conclusion, our findings unravel a new role for the BAK1 ectodomain in the tight regulation of Arabidopsis immune receptors necessary to avoid inappropriate activation of immunity.Plants rely on their innate immune system to detect microbes and mount an active defense against pathogens. The plant immune system is traditionally considered to be composed of two layers (Jones and Dangl, 2006). The first one is based on the activity of pattern-recognition receptors (PRRs) that can detect microbe-associated molecular patterns (MAMPs) and trigger what is termed pattern-triggered immunity (PTI; Boller and Felix, 2009). Many plant pathogens can suppress this basal defense response using virulence factors termed effectors. In a second layer of defense, plants can make use of resistance (R) proteins to recognize the presence of pathogen effectors resulting in effector-triggered immunity (ETI), which resembles an accelerated and amplified PTI response (Jones and Dangl, 2006).Plants utilize plasma membrane-associated receptor-like proteins (RLPs) or receptor-like kinases (RLKs) as PRRs to sense specific signals through their ectodomains (Böhm et al., 2014). RLPs and RLKs require the function of additional RLKs to form active receptor complexes and transfer the external signal to the inside of the cells (Zhang and Thomma, 2013; Cao et al., 2014; Liebrand et al., 2014). The best-known coreceptor is the leucine-rich repeat (LRR)-RLK BRASSINOSTEROID INSENSITIVE1-ASSOCIATED RECEPTOR KINASE1 (BAK1), which was originally identified as a positive regulator and partner for the brassinosteroid (BR) receptor BRASSINOSTEROID INSENSITIVE1 (BRI1; Li et al., 2002; Nam and Li, 2002). BRs refer to phytohormones that promote plant growth and development (Fujioka and Yokota, 2003). Thus, loss-of-function mutations in BAK1 negatively impact Arabidopsis (Arabidopsis thaliana) growth due to improper cell elongation. In short, bak1 mutants display compact rosettes with round-shaped leaves and shorter petioles and phenocopy weak bri1 mutations (Li et al., 2002; Nam and Li, 2002). Conversely, certain mutants affected in the BAK1 ectodomain show increased activity in the BR signaling pathway and share phenotypic similarities with BRI1-overexpressing lines (Wang et al., 2001), including elongated hypocotyls, petioles, and leaf blades and an overall increase in height (Jaillais et al., 2011; Chung et al., 2012).Furthermore, BAK1 is involved in the containment of cell death, independently of its function in BR signaling. Arabidopsis bak1 knockout mutants exhibit extensive cell death spreading after microbial infection (Kemmerling et al., 2007). In addition, spontaneous cell death develops in Arabidopsis double mutant plants lacking both BAK1 (also named SOMATIC EMBRYOGENESIS RECEPTOR KINASE3 [SERK3]) and its closest homolog BAK1-LIKE1 (BKK1)/SERK4, causing seedling lethality even in the absence of microbes (He et al., 2007). Similar phenotypes are observed in Arabidopsis, rice (Oryza sativa), and Nicotiana benthamiana by lowering the expression of BAK1 and its homologs (Heese et al., 2007; Jeong et al., 2010; Park et al., 2011). Interestingly, typical defense responses, like the production of reactive oxygen species and constitutive callose deposition, are also detected in those plants, although the basis for this phenomenon remains poorly understood (He et al., 2007; Kemmerling et al., 2007; Park et al., 2011; Gao et al., 2013).On the other hand, BAK1 is widely studied as a key component of immune signaling pathways due to its known association with different PRRs, including RLKs and RLPs (Kim et al., 2013; Böhm et al., 2014). Upon MAMP perception, PRRs induce signaling and physiological defense responses like mitogen-activated protein kinase (MAPK) activation, reactive oxygen species and ethylene production, and modifications in gene expression, all of which contribute to PTI. Among the best-studied examples of BAK1-regulated PRRs are two LRR-receptor kinases, ELONGATION FACTOR Tu RECEPTOR (EFR), which senses the active epitope elf18 of the bacterial elongation factor Tu, and the flagellin receptor FLAGELLIN SENSING2 (FLS2), which senses the active epitope flg22 of bacterial flagellin (Gómez-Gómez and Boller, 2000; Chinchilla et al., 2006; Zipfel et al., 2006). Immediately after flg22 binding to its LRR ectodomain, FLS2 forms a tight complex with BAK1 (Chinchilla et al., 2007; Sun et al., 2013). This heteromerization step may bring the two kinase domains closer and thereby induce, within seconds, the phosphorylation of BAK1 and FLS2 (Schulze et al., 2010; Schwessinger et al., 2011). These steps are sufficient to initiate the immune signaling pathway, even if the ectodomains and kinase domains are switched between FLS2 and BAK1 (Albert et al., 2013).While PRRs, such as FLS2 and EFR, are extremely sensitive to even subnanomolar concentrations of their ligands, a tight control of these receptors is expected, since constitutive activation of defense responses in plants dramatically impairs fitness and growth (Tian et al., 2003; Korves and Bergelson, 2004). However, the mechanisms that underlie the attenuation of PRR activation or prevent these receptors from signaling constitutively remain largely unknown (Macho and Zipfel, 2014). Several independent observations indicate that BAK1 and FLS2 are present in close spatial proximity in preformed complexes at the plasma membrane (Chinchilla et al., 2007; Schulze et al., 2010; Roux et al., 2011). Negative regulation of immune signaling prior to ligand perception could happen within the PRR complex and depend on conformational changes following the association of FLS2 with flg22 (Meindl et al., 2000; Schulze et al., 2010; Mueller et al., 2012). Additionally, other partners might prevent the constitutive interaction of BAK1 with FLS2. Such could be the case for the LRR-RLK BAK1-INTERACTING RECEPTOR-LIKE KINASEs (BIRs): BIR2 was recently discovered as a substrate and negative regulator for BAK1, while the absence of BIR1 leads to the activation of defense induction and strong dwarfism (Gao et al., 2009; Halter et al., 2014b). Furthermore, MAMP signaling may be constrained by phosphatases, as suggested in earlier studies (Felix et al., 1994; Gómez-Gómez et al., 2001) and recently shown for the protein phosphatase 2A, which controls PRR activation likely by modulating the BAK1 phosphostatus (Segonzac et al., 2014). These examples illustrate the variety of mechanisms that may tightly control BAK1 activity.In this work, we show that regulation of BAK1 accumulation is crucial for Arabidopsis fitness, as its overexpression leads to dwarfism and premature death. The phenotype differs from BR mutants and is very reminiscent of or even identical to the autoimmune phenotype of plants showing constitutive activation of R proteins (Oldroyd and Staskawicz, 1998; Bendahmane et al., 2002; Zhang et al., 2003). BAK1 overexpression is associated with constitutive activation of defense pathway(s) involving the general coregulator of RLPs, SUPPRESSOR OF BIR1-1 (SOBIR1; Liebrand et al., 2013, 2014). To our knowledge, this is the first report and comprehensive characterization of such an autoimmunity phenotype for Arabidopsis plants overexpressing BAK1, and it highlights the importance of the regulation of PTI overactivation.     

Mortality of Cutworm Larvae Is Not Enhanced by Agrotis segetum Granulovirus and Agrotis segetum Nucleopolyhedrovirus B Coinfection Relative to Single Infection by Either Virus

Mixed infections of insect larvae with different baculoviruses are occasionally found. They are of interest from an evolutionary as well as from a practical point of view when baculoviruses are applied as biocontrol agents. Here, we report mixed-infection studies of neonate larvae of the common cutworm, Agrotis segetum, with two baculoviruses, Agrotis segetum nucleopolyhedrovirus B (AgseNPV-B) and Agrotis segetum granulovirus (AgseGV). By applying quantitative PCR (qPCR) analysis, coinfections of individual larvae were demonstrated, and occlusion body (OB) production within singly infected and coinfected larvae was determined in individual larvae. Mixtures of viruses did not lead to changes in mortality rates compared with rates of single-virus treatments, indicating an independent action within host larvae under our experimental conditions. AgseNPV-B-infected larvae showed an increase in OB production during 2 weeks of infection, whereas the number of AgseGV OBs did not change from the first week to the second week. Fewer OBs of both viruses were produced in coinfections than in singly infected larvae, suggesting a competition of the two viruses for larval resources. Hence, no functional or economic advantage could be inferred from larval mortality and OB production from mixed infections of A. segetum larvae with AgseNPV-B and AgseGV.