Calcium opens the dialogue between plants and arbuscular mycorrhizal fungi

Calcium ion is considered a ubiquitous second messenger in all eukaryotic cells. Analysis of intracellular Ca²⁺ concentration dynamics has demonstrated its signalling role in plant cells in response to a wide array of environmental cues. The implication of Ca²⁺ in the early steps of the arbuscular mycorrhizal symbiosis has been frequently claimed, mainly by analogy with what firmly demonstrated in the rhizobium-legume symbiosis. We recently documented transient Ca²⁺ changes in plant cells challenged with diffusible molecules released by arbuscular mycorrhizal fungi. Ca²⁺ measurements by the recombinant aequorin method provided new insights into the molecular communications between plants and these beneficial fungi.Key words: legume symbioses, arbuscular mycorrhiza, calcium signalling, fungal signal, plant cell cultures, aequorinIn the rhizosphere plants meet a wide array of microorganisms. In favorable interactions, such as arbuscular mycorrhizal (AM) and nitrogen fixing symbioses, a dialogue is progressively established between the two interacting organisms to make the appropriate partner choice. These two-way communications rely on the interchange of signals released by both potential symbionts. After perception of the signalling molecules, a signal transduction pathway is induced, leading to the activation of the proper genetic and developmental program in both partners.Variations in intracellular free Ca²⁺ concentration occur as one of the initial steps in signalling pathways activated in plants when they encounter pathogens,¹ fungal biocontrol agents² and nitrogen-fixing bacteria.³ Molecules secreted by microorganisms, after binding to specific receptors, trigger in plant cells transient changes in cytosolic Ca²⁺ level, due to the influx of the ion from the extracellular environment and/or the release from internal Ca²⁺ storage compartments.^4,5 Ca²⁺ messages delivered to plant cells are at least partly deciphered on the basis of their spatial and temporal features. The occurrence of different Ca²⁺ signatures guarantees the specificity of the ensuing physiological responses.In the legume-rhizobium symbiosis a definite pattern of Ca²⁺ oscillations has been reported to occur in response to the rhizobial signalling molecule, the Nod factor, in the nucleus and perinuclear cytoplasm of the root hair.⁶ The Ca²⁺ spike number has been recently demonstrated to regulate nodulation gene expression.⁷Legumes are able to engage in a dual symbiotic interaction, with rhizobia and AM fungi. Components of the Ca²⁺-mediated signalling pathway are shared by the two symbioses.⁸ In the mycorrhizal signal transduction pathway the involvement of Ca²⁺ has long been speculated, based on the observed similarities with symbiotic nitrogen fixation.³To evaluate the possible participation of Ca²⁺ in the early steps of the AM symbiosis, we have used a simplified experimental system given by plant cell suspension cultures stably expressing the bioluminescent Ca²⁺-sensitive reporter aequorin.⁹ The use of cultured cells circumvents the problem posed by multilayered organs: in aequorin-transformed seedlings, possible Ca²⁺ changes occurring in rhizodermal cells—the first place where the AM fungal signals are perceived and transduced—can be misrecorded due to luminescence calibration over all root cell layers, resulting in an underestimation of the Ca²⁺ signal in the responsive cells. An experimental design based on challenging host plant cells with the culture medium of different AM fungi (Gigaspora margarita, Glomus mosseae and intraradices) provided the first firm evidence that Ca²⁺ is involved as intracellular messenger during mycorrhizal signalling, at least in a pre-contact stage. Cytosolic Ca²⁺ changes, characterized by specific kinetic parameters, were triggered by diffusates obtained from AM resting and germinating spores,⁹ and extraradical mycelium.¹⁰ Cultured plant cells demonstrated to be competent to perceive the diffusible signal released by AM fungi and to decode the message in a Ca²⁺-dependent pathway. Based on these experiments, it seems that AM fungi announce their presence to the plant through the constitutive release of a chemical signal, even before experiencing the proximity of the plant or its AM symbiotic signals. The notion that the secreted fungal molecules herald, through Ca²⁺, a beneficial message which can be acknowledged only by competent receivers, is supported by: (1) the lack of defense response induction and the upregulation of some genes essential for the AM symbiosis initiation in host plant cells; (2) the unresponsiveness of cultured cells from the nonhost plant Arabidopsis thaliana.Ca²⁺-mediated perception of both AM fungal and rhizobial signals by plant cells unifies the signalling pathways activated in the two symbioses. However, the actual occurrence of Ca²⁺ spiking in AM symbiosis remains to be ascertained, due to limitations of the recombinant aequorin method, when applied to an asynchronous cell population. Contribution of internal Ca²⁺ stores, in particular the nucleus, to the observed Ca²⁺ changes will be a future research goal to be achieved through a pharmacological approach and/or targeting of Ca²⁺ indicators to intracellular compartments.The identification of the plant-derived mycorrhizal signal as strigolactones¹¹ and their inducing activity on AM fungi¹² have represented a major breakthrough in the AM symbiosis research field. Elucidation of the chemical nature of the AM fungal factor, which plays several effects on host plants,^9,13–15 is eagerly awaited.Understanding how AM fungi and rhizobia select compatible plant hosts, thus activating the appropriate symbiotic program, is another facet to be considered in the future to get a complete overview of early signaling events in legume symbioses. Analysis of Ca²⁺ signalling implication in the microbial partner would require the delivery of reliable and sensitive Ca²⁺ probes (such as aequorinor GFP-based¹⁶) for Ca²⁺ measurements in living microorganisms. The recombinant aequorin method has been successfully applied to monitor dynamic changes in intracellular Ca²⁺ levels in the bacteria Anabaena sp.,¹⁷ E. coli,¹⁸ and recently by us in rhizobial strains.¹⁹ Unfortunately, AM fungi have proved not to be amenable to stable transformation, being coenocytic, multinucleate and heterokaryotic,^20,21 and only transient transformants have been obtained so far.^22,23 Further development of the transformation technologies may provide in the future a valuable tool to analyse, from the fungal side, signal perception and transduction during arbuscular mycorrhiza establishment.     

Preferential locomotion of leukemic cells towards laminin isoforms 8 and 10.

To identify the laminin isoforms of the basement membranes that could be implicated in the extravasation process of neoplastic lymphocytes, a number of purified laminins and one native renal laminin complex were comparatively investigated for their ability to promote migration of neoplastic lymphocytes in vitro. The identity/composition of a human placental laminin complex was asserted by combining immunochemical assays, sequence determination of tryptic peptides, and ultrastructural analysis to be composed predominantly of laminin-10 in which the coiled-coil C-terminal regions and the G globular domain of the alpha5 chain were preserved intact despite the enzymatic treatment used for its isolation. Lymphoma and leukemic cell lines failed to migrate towards laminin-4, -9, -11, moved poorly in response to laminin-1, -2/4, -5 and the renal laminin complex, but markedly locomoted towards the subendothelial laminin-8 and -10. The motility-promoting interaction with these latter laminins was interchangeably mediated by the alpha3beta1 and alpha6beta1 integrins. Lymphocyte locomotion on laminins assayed in the presence of cytokines was either reduced or enhanced suggesting that local cytokine milieu could further influence motility response.     

Gape coloration reliably reflects immunocompetence of barn swallow (Hirundo rustica) nestlings

In some passerines, parents allocate more food to offspringwith the brightest red gapes, but the function of parental decisionsbased on offspring gape coloration is unknown. We hypothesizethat gape coloration is part of a communication system wherenestlings reveal their condition to attending parents, whichmay thus base their decisions on reliable signals of offspringreproductive value. We analyze the effects of brood size manipulation,injection with an immunogen and food deprivation, on gape coloration,morphology, and T-cell–mediated immunocompetence of nestlingbarn swallows (Hirundo rustica). For each gape we measured threecomponents of coloration (hue, saturation, and brightness) andobtained an overall color score by principal component analysis.Enlargement of brood size and injection with an antigen resultedin less red and less saturated and brighter gape color. Nestlingsin enlarged broods had smaller body mass and T-cell–mediatedimmunocompetence compared to those in reduced broods. A positivecovariation existed between redness and saturation of gape colorand T-cell–mediated immunocompetence. Gape color siblingsraised in different nests did not depend on parentage. Thus,condition-dependent gape coloration can reveal different componentsof nestling state on which parents may base their adaptive decisionsabout allocation of care to the offspring.     

Sema3A and neuropilin-1 expression and distribution in rat white adipose tissue

Semaphorins are cell surface and/or soluble signals that exert an inhibitory control on axon guidance. Sema3A, the vertebrate-secreted semaphorin, binds to neuropilin-1, which together with plexins constitutes the functional receptor. To verify whether Sema3A is produced by white adipocytes and, in that case, to detect its targets in white adipose tissue, we studied the cell production and tissue distribution of Sema3A and neuropilin-1 in rat retroperitoneal and epididymal adipose depots. Sema3A and neuropilin-1 were detected in these depots by Western blotting. The immunohistochemical results showed that Sema3A is produced in, and possibly secreted by, smooth muscle cells of arteries and white adipocytes. Accordingly, neuropilin-1 was found on perivascular and parenchymal nerves. Such a pattern of distribution is in line with a role for secreted Sema3A in the growth and plasticity of white adipose tissue nerves. Indeed, after fasting, when white adipocytes are believed to be overstimulated by noradrenaline and rearrangement of the parenchymal nerve supply may occur, adipocytic expression of Sema3A is reduced. Finally, the presence of neuropilin-1 in some white adipocytes raises the interesting possibility that Sema3A also exerts an autocrine-paracrine role on these cells.     

Enzymatic surface modification and functionalization of PET: A water contact angle,FTIR, and fluorescence spectroscopy study

The purpose of this study was to investigate the changes induced by a lypolytic enzyme on the surface properties of polyethylene terephthalate (PET). Changes in surface hydrophilicity were monitored by means of water contact angle (WCA) measurements. Fourier Transform Infrared spectroscopy (FTIR) in the Attenuated Total Reflectance mode (ATR) was used to investigate the structural and conformational changes of the ethylene glycol and benzene moieties of PET. Amorphous and crystalline PET membranes were used as substrate. The lipolytic enzyme displayed higher hydrolytic activity towards the amorphous PET substrate, as demonstrated by the decrease of the WCA values. Minor changes were observed on the crystalline PET membrane. The effect of enzyme adhesion was addressed by applying a protease after‐treatment which was able to remove the residual enzyme protein adhering to the surface of PET, as demonstrated by the behavior of WCA values. Significant spectral changes were observed by FTIR–ATR analysis in the spectral regions characteristic of the crystalline and amorphous PET domains. The intensity of the crystalline marker bands increased while that of the amorphous ones decreased. Accordingly, the crystallinity indexes calculated as band intensity ratios (1,341/1,410 cm^?1 and 1,120/1,100 cm^?1) increased. Finally, the free carboxyl groups formed at the surface of PET by enzyme hydrolysis were esterified with a fluorescent alkyl bromide, 2‐(bromomethyl)naphthalene (BrNP). WCA measurements confirmed that the reaction proceeded effectively. The fluorescence results indicate that the enzymatically treated PET films are more reactive towards BrNP. FTIR analysis showed that the surface of BrNP‐modified PET acquired a more crystalline character. Biotechnol. Bioeng. 2009;103: 845–856. © 2009 Wiley Periodicals, Inc.     

Conformational studies of the capsular polysaccharide produced by Neisseria meningitidis group A

The effect of different cations on the conformational and morphological properties of the capsular polysaccharide produced by Neisseria meningitidis group A was investigated. Circular dichroism studies showed that the presence of Na⁺, or Ca²⁺ ions induced different local conformations of the polysaccharide chain through interactions with the phosphodiester group bridging the saccharide residues in the polymer chain. Atomic force microscopy experiments confirmed that the morphology of the polysaccharide chains was different depending on the nature of the counterion. Ammonium ions were associated with the presence of single polymer chains in an elongated conformation, whereas sodium ions favored the folding of the chains into a globular conformation. The addition of calcium ions produced the aggregation of a limited number of globular polysaccharide chains to form a ‘toroidal-like’ structure.     

Gene Expression Profiles of APP and BACE1 in Tg SOD1G93A Cortical Cells

Amyotrophic lateral sclerosis (ALS) is a progressive neurodegenerative disease defined by motor neuron loss. Transgenic mouse model (Tg SOD1G93A) shows pathological features that closely mimic those seen in ALS patients. An hypothetic link between AD and ALS was suggested by finding an higher amount of amyloid precursor protein (APP) in the spinal cord anterior horn neurons, and of Aβ peptides in ALS patients skin. In this work, we have investigated the expression of some genes involved in Alzheimer’s disease, as APP, β- and γ-secretase, in an animal model of ALS, to understand some possible common molecular mechanisms between these two pathologies. For gene expression analysis, we carried out a quantitative RT-PCR in ALS mice and in transgenic mice over-expressing human wild-type SOD1 (Tg hSOD1). We found that APP and BACE1 mRNA levels were increased 1.5-fold in cortical cells of Tg SOD1G93A mice respect to Tg hSOD1, whereas the expression of γ-secretase genes, as PSEN1, PSEN2, Nicastrin, and APH1a, showed no statistical differences between wild-type and ALS mice. Biochemical analysis carried out by immunostaining and western blotting, did not show any significant modulation of the protein expression compared to the genes, suggesting the existence of post-translational mechanisms that modify protein levels.     

Extracellular ATP activates MAP kinase cascades through a P2Y purinergic receptor in the human intestinal Caco-2 cell line

Background

ATP exerts diverse effects on various cell types via specific purinergic P2Y receptors. Intracellular signaling cascades are the main routes of communication between P2Y receptors and regulatory targets in the cell.

Methods and results

We examined the role of ATP in the modulation of ERK1/2, JNK1/2, and p38 MAP kinases (MAPKs) in human colon cancer Caco-2 cells. Immunoblot analysis showed that ATP induces the phosphorylation of MAPKs in a time- and dose-dependent manner, peaking at 5 min at 10 µM ATP. Moreover, ATPγS, UTP, and UDP but not ADP or ADPβS increased phosphorylation of MAPKs, indicating the involvement of, at least, P2Y₂/P2Y₄ and P2Y₆ receptor subtypes. RT–PCR studies and PCR product sequencing supported the expression of P2Y₂ and P2Y₄ receptors in this cell line. Spectrofluorimetric measurements showed that cell stimulation with ATP induced transient elevations in intracellular calcium concentration. In addition, ATP-induced phosphorylation of MAPKs in Caco-2 cells was dependent on Src family tyrosine kinases, calcium influx, and intracellular Ca²⁺ release and was partially dependent on the cAMP/PKA and PKC pathways and the EGFR.

General significance

These findings provide new molecular basis for further understanding the mechanisms involved in ATP functions, as a signal transducer and activator of MAP kinase cascades, in colon adenocarcinoma Caco-2 cells.     

Modified peptides in anti-cancer vaccines: are we eventually improving anti-tumour immunity?

The discovery of tumour antigens recognized by T cells and the features of immune responses directed against them has paved the way to a multitude of clinical studies aimed at boosting anti-tumour T cell immunity as a therapeutic tool for cancer patients. One of the different strategies explored to ameliorate the immunogenicity of tumour antigens in vaccine protocols is represented by the use of optimized peptides or altered peptide ligands, whose amino acid sequence has been modified for improving HLA binding or TCR interaction with respect to native epitopes. However, despite the promising results achieved with preclinical studies, the clinical efficacy of this approach has not yet met the expectations. Although multiple reasons could explain the relative failure of altered peptide ligands as more effective cancer vaccines, the possibility that T cells primed by modified tumour peptides might may be unable to effectively cross-recognize tumour cells has not been sufficiently addressed. Indeed, the introduction of conservative amino acid substitutions may still produce diverse and unpredictable changes in the HLA/peptide interface, with consequent modifications of the TCR repertoire that can interact with the complex. This could lead to the expansion of a broad array of T cells whose TCRs may not necessarily react with equivalent affinity with the original antigenic epitope. Considering the results presently achieved with this vaccine approach, and the emerging availability of alternative strategies for boosting anti-tumour immunity, the use of modified tumour peptides could be reconsidered. This article is a symposium paper from the conference “Immunotherapy—From Basic Research to Clinical Applications”, Symposium of the Collaborative Research Center (SFB) 685, held in Tübingen, Germany, 6–7 March 2008.