High affinity RGD-binding sites at the plasma membrane of Arabidopsis thaliana links the cell wall

The heptapeptide Tyr-Gly- Arg-Gly-Asp- Ser-Pro containing the sequence Arg-Gly-Asp (RGD – the essential structure recognised by animal cells in substrate adhesion molecules) was tested on epidermal cells of onion and cultured cells of Arabidopsis upon plasmolysis. Dramatic changes were observed on both types of cells following treatment: on onion cells, Hechtian strands linking the cell wall to the membrane were lost, while Arabidopsis cells changed from concave to convex plasmolysis. A control heptapeptide Tyr-Gly-Asp-Gly-Arg-Ser-Pro had no effect on the shape of plasmolysed cells. Protoplasts isolated from Arabidopsis cells agglutinate in the presence of ProNectinF, a genetically engineered protein of 72 kDa containing 13 RGD sequences: several protoplasts may adhere to a single molecule of ProNectinF. The addition of the RGD-heptapeptide disrupted the adhesion between the protoplasts. Purified plasma membrane from Arabidopsis cells exhibits specific binding sites for the iodinated RGD-heptapeptide. The binding is saturable, reversible, and two types of high affinity sites (K_d1 1 nM, and K_d2 40 nM) can be discerned. Competitive inhibition by several structurally related peptides and proteins noted the specific requirement for the RGD sequence. Thus, the RGD-binding activity of Arabidopsis fulfils the adhesion features of integrins, i.e. peptide specificity, subcellular location, and involvement in plasma membrane-cell wall attachments.     

Selection of lactobacilli for chicken probiotic adjuncts

During inhibitory activity screening of 296 strains of lactic acid bacteria from the gastro-intestinal tract of chicks, 77 strains showed inhibition against enteric indicator strains (Salmonella enteritidis and Escherichia coli). Eight different strains identified as Lactobacillus salivarius were selected for the following attributes: their ability to inhibit all the indicator strains; a high adhesion efficiency to the epithelial cells of chickens and also their resistance to a number of antibiotics, monensin, bile salts and pH 3.0. The inhibitory action was not affected by the addition of catalase and no inhibition was detected after neutralizing the supernatant culture fluid. The competitiveness of the most promising strains, Lact. salivarius CTC2183 and CTC2197, was assessed in chicken feed mixture and in vivo. It was concluded that both strains were capable of becoming predominant over the indigenous flora in the incubated chicken feed mixture. In vivo tests showed that Lact. salivarius CTC2197 was able to colonize and overcome Lact. salivarius CTC2183 and the indigenous flora in the crop and caecum of the inoculated chicks.     

Inhibition of Staphylococcus aureus Adhesion to the Surface of a Reticular Heavyweight Polypropylene Mesh Soaked in a Combination of Chlorhexidine and Allicin: An In vitro Study

Introduction

Presoaking meshes for hernia repair with antiseptics prior to implantation could decrease the adhesion of microorganisms to the material surface and reduce the risk of antibiotic resistances. In this work, we evaluate chlorhexidine and allicin (natural antiseptic not yet tested for these purposes) against vancomycin as antiseptics to be used in the pretreatment of a heavyweight polypropylene mesh using an in vitro model of bacterial contamination.

Methods

Solutions of saline, vancomycin (40 µg/mL), allicin (1,000 µg/mL), chlorhexidine (2%-0.05%) and the combination allicin-chlorhexidine (900 µg/mL-0.05%) were analyzed with agar diffusion tests in the presence of 10⁶ CFU Staphylococcus aureus ATCC25923. Additionally, sterile fragments of Surgipro (1 cm²) were soaked with the solutions and cultured onto contaminated agar plates for 24/48/72 h. The antimicrobial material DualMesh Plus was utilized as positive control. At every time, the inhibition zones were measured and the bacterial adhesion to the mesh surface quantified (sonication, scanning electron microscopy). Cytotoxicity of the treatments was examined (alamarBlue) using rabbit skin fibroblasts.

Results

The largest zones of inhibition were created by allicin-chlorhexidine. Chlorhexidine was more effective than vancomycin, and allicin lost its effectiveness after 24 h. No bacteria adhered to the surface of the DualMesh Plus or the meshes soaked with vancomycin, chlorhexidine and allicin-chlorhexidine. On the contrary, saline and allicin allowed adherence of high loads of bacteria. Vancomycin had no toxic effects on fibroblasts, while allicin and chlorhexidine exerted high toxicity. Cytotoxicity was significantly reduced with the allicin-chlorhexidine combination.

Conclusions

The use of antiseptics such as chlorhexidine, alone or combined with others like allicin, could represent an adequate prophylactic strategy to be used for hernia repair materials because soaking with these agents provides the mesh with similar antibacterial properties to those observed after soaking with vancomycin, similar to the effect of DualMesh Plus.     

Milk-Based Nutraceutical for Treating Autoimmune Arthritis via the Stimulation of IL-10- and TGF-β-producing CD39+ Regulatory T Cells

Autoimmune diseases arise from the loss of tolerance to self, and because the etiologies of such diseases are largely unknown, symptomatic treatments rely on anti-inflammatory and analgesic agents. Tolerogenic treatments that can reverse disease are preferred, but again, often thwarted by not knowing the responsible auto-antigens (auto-Ags). Hence, a viable alternative to stimulating regulatory T cells (Tregs) is to induce bystander tolerance. Colonization factor antigen I (CFA/I) has been shown to evoke bystander immunity and to hasten Ag-specific Treg development independent of auto-Ag. To translate in treating human autoimmune diseases, the food-based Lactococcus was engineered to express CFA/I fimbriae, and Lactococcus-CFA/I fermented milk fed to arthritic mice proved highly efficacious. Protection occurred via CD39⁺ Tregs producing TGF-β and IL-10 to potently suppress TNF-α production and neutrophil influx into the joints. Thus, these data demonstrate the feasibility of oral nutraceuticals for treating arthritis, and potency of protection against arthritis was improved relative to that obtained with Salmonella-CFA/I.     

Carotid Atherosclerotic Disease Predicts Cardiovascular Events in Hemodialysis Patients: A Prospective Study

Background

To evaluate the predictive value of carotid atherosclerotic disease (CAD) and intima-media thickness (IMT) on incident cardiovascular disease and mortality in hemodialysis patients.

Methods

Multicenter, observational, prospective study including 110 patients, followed-up to 6 years. Carotid doppler ultrasonographic findings were classified in 4 degrees of severity: 1) IMT <0.9 mm, 2) IMT >0.9 mm, 3) carotid plaque with stenosis <50% and 4) plaque with stenosis >50%. The associations between IMT and CAD and cardiovascular events, total and cardiovascular mortality were assessed.

Results

83% of the patients had atherosclerotic plaques (CAD degrees 3-4). During follow-up, 29.1% of patients experienced cardiovascular events, and 28.2% died, 38.7% of cardiovascular origin. The presence of plaques was associated with cardiovascular events (p = 0.03) while calcified plaques were associated with both cardiovascular events (p = 0.01), cardiovascular mortality (p = 0.03) and non-significantly with overall mortality (p = 0.08) in the survival analysis. Carotid IMT was not associated with outcomes. Cardiovascular events correlated with CAD severity (HR 2.27, 95% CI 1.13-4.54), age (HR 1.04, 1.01-1.06), previous cardiovascular disease (HR 1.75, 1.05-4.42), dyslipidemia (HR 2.25, 1.11-4.53), lipoprotein (a) (HR 1.01, 1.00-1.02), troponin I (HR 3.89, 1.07-14.18), fibrinogen levels (HR 1.38, 0.98-1.94) and antiplatelet therapy (HR 2.14, 1.04-4.4). In an age-adjusted multivariate model, cardiovascular events were independently associated with previous coronary artery disease (HR 3.29, 1.52-7.15) and lipoprotein (a) (HR 1.01, 1.00-1.02).

Conclusions

The presence of carotid plaques and, especially, calcified plaques, are predictors of new cardiovascular events and cardiovascular mortality in hemodialysis patients, while IMT was not. The prognostic value of calcified plaques should be confirmed in future studies.     

Structure-Function Analysis of PPP1R3D,a Protein Phosphatase 1 Targeting Subunit,Reveals a Binding Motif for 14-3-3 Proteins which Regulates its Glycogenic Properties

Protein phosphatase 1 (PP1) is one of the major protein phosphatases in eukaryotic cells. It plays a key role in regulating glycogen synthesis, by dephosphorylating crucial enzymes involved in glycogen homeostasis such as glycogen synthase (GS) and glycogen phosphorylase (GP). To play this role, PP1 binds to specific glycogen targeting subunits that, on one hand recognize the substrates to be dephosphorylated and on the other hand recruit PP1 to glycogen particles. In this work we have analyzed the functionality of the different protein binding domains of one of these glycogen targeting subunits, namely PPP1R3D (R6) and studied how binding properties of different domains affect its glycogenic properties. We have found that the PP1 binding domain of R6 comprises a conserved RVXF motif (R₁₀₂VRF) located at the N-terminus of the protein. We have also identified a region located at the C-terminus of R6 (W₂₆₇DNND) that is involved in binding to the PP1 glycogenic substrates. Our results indicate that although binding to PP1 and glycogenic substrates are independent processes, impairment of any of them results in lack of glycogenic activity of R6. In addition, we have characterized a novel site of regulation in R6 that is involved in binding to 14-3-3 proteins (RARS₇₄LP). We present evidence indicating that when binding of R6 to 14-3-3 proteins is prevented, R6 displays hyper-glycogenic activity although is rapidly degraded by the lysosomal pathway. These results define binding to 14-3-3 proteins as an additional pathway in the control of the glycogenic properties of R6.     

Hepatitis C virus core protein enhances HIV-1 replication in human macrophages through TLR2, JNK,and MEK1/2-dependent upregulation of TNF-α and IL-6

Despite their differential cell tropisms, HIV-1 and HCV dramatically influence disease progression in coinfected patients. Macrophages are important target cells of HIV-1. We hypothesized that secreted HCV core protein might modulate HIV-1 replication. We demonstrate that HCV core significantly enhances HIV-1 replication in human macrophages by upregulating TNF-α and IL-6 via TLR2-, JNK-, and MEK1/2-dependent pathways. Furthermore, we show that TNF-α and IL-6 secreted from HCV core-treated macrophages reactivates monocytic U1 cells latently infected with HIV-1. Our studies reveal a previously unrecognized role of HCV core by enhancing HIV-1 infection in macrophages.     

Aggregata bathytherma sp. nov. (Apicomplexa:Aggregatidae), a new coccidian parasite associated with a deep-sea hydrothermal vent octopus

Aggregata bathytherma sp. nov. is described from the digestive tract of Vulcanoctopus hydrothermalis, a deep-sea octopus recently discovered associated with hydrothermal vents in the northeast Pacific Ocean. Oocysts typically are spherical in shape, sometimes irregular, 163 to 356 microm in length, and 219 to 313 microm in width. Each oocyst contains from 50 to over 200 sporocysts. Sporocysts measure 27 to 32 microm in longest diameter. The cyst wall is smooth and 1 microm thick. Each sporocyst typically contains 14 to 17 sporozoites, 49 microm in length. Histological lesions associated with the presence of A. bathytherma include rupture of the basal membrane and detachment of the epithelial cells. In heavily infected areas, most of the tissue of the host digestive tract is replaced by parasites. A. bathytherma is the first Aggregata species described from a host that lives in association with hydrothermal vents, and the third species of Aggregata from eastern North Pacific waters.     

Opposing Roles of Dnmt1 in Early- and Late-Stage Murine Prostate Cancer

Previous studies have shown that tumor progression in the transgenic adenocarcinoma of mouse prostate (TRAMP) model is characterized by global DNA hypomethylation initiated during early-stage disease and locus-specific DNA hypermethylation occurring predominantly in late-stage disease. Here, we utilized Dnmt1 hypomorphic alleles to examine the role of Dnmt1 in normal prostate development and in prostate cancer in TRAMP. Prostate tissue morphology and differentiation status was normal in Dnmt1 hypomorphic mice, despite global DNA hypomethylation. TRAMP; Dnmt1 hypomorphic mice also displayed global DNA hypomethylation, but were characterized by altered tumor phenotype. Specifically, TRAMP; Dnmt1 hypomorphic mice exhibited slightly increased tumor incidence and significantly increased pathological progression at early ages and, conversely, displayed slightly decreased tumor incidence and significantly decreased pathological progression at advanced ages. Remarkably, hypomorphic Dnmt1 expression abrogated local and distant site macrometastases. Thus, Dnmt1 has tumor suppressor activity in early-stage prostate cancer, and oncogenic activity in late stage prostate cancer and metastasis. Consistent with the biological phenotype, epigenomic studies revealed that TRAMP; Dnmt1 hypomorphic mice show dramatically reduced CpG island and promoter DNA hypermethylation in late-stage primary tumors compared to control mice. Taken together, the data reveal a crucial role for Dnmt1 in prostate cancer and suggest that Dnmt1-targeted interventions may have utility specifically for advanced and/or metastatic prostate cancer.Changes in DNA methyltransferase (Dnmt) expression and DNA methylation are observed in human prostate cancer (3, 38, 41). Of particular interest, genes with tumor suppressive function become hypermethylated and silenced, which correlates with the development of specific disease phenotypes (2, 3, 38). Although an association between prostate cancer and alterations in DNA methylation has been established, in vivo models are required to determine whether these changes functionally contribute to the disease. In this context, studies in which pharmacological inhibitors of Dnmts were shown to inhibit prostate cancer in murine models have proven informative (34, 56). However, it remains unknown whether genetic disruption of epigenetic components, such as Dnmts, also impacts prostate cancer development. This is a critical question since the pharmacological inhibitors of Dnmts have pleiotropic effects, including those unrelated to activation of methylation-silenced genes (21, 23, 31). Moreover, no studies to date have examined whether Dnmts or DNA methylation play roles in normal prostate development; this information is vital to fully understanding the effects that inhibiting DNA methylation may have on prostate cancer.Dnmt1 is a maintenance DNA methyltransferase that propagates preexisting DNA methylation patterns in genomic DNA (44). Dnmt1 also is involved in de novo DNA methylation in cancer cells and interacts with other key epigenetic control molecules, including histone-modifying enzymes (11, 19). Murine models have been used to investigate the in vivo functions of Dnmt1. Complete genetic knockout of Dnmt1 is embryonic lethal in mice (29). However, hypomorphic expression of Dnmt1 allows murine development to proceed but causes global DNA hypomethylation and impacts cancer development and progression (7, 14, 28). Specifically, hypomorphic expression of Dnmt1 can lead to the development of lymphoma (14). Furthermore, crossing Dnmt1 hypomorphic mice with murine tumor models alters tumor progression, resulting in either increased or decreased tumor development, depending on the disease stage and tissue site (1, 7, 53). For example, reduced expression of Dnmt1 dramatically decreases intestinal polyp formation in Apc^Min/+ mice, either alone or in combination with 5-aza-2′-deoxycytidine treatment (7, 27). However, it was later noted that reduced expression of Dnmt1 has a dual effect on intestinal cancer in Apc^Min/+ mice, in which the development of early stage intestinal microadenomas is accelerated, whereas the formation of adenomatous polyps is significantly reduced (53). In addition, Apc^Min/+ Dnmt1 hypomorphic mice develop liver cancer associated with the loss of heterozygosity of Apc (53). Similarly, in Dnmt1 hypomorphic mice crossed to Mlh1^−/− mice, a dual effect was noted wherein mice developed fewer intestinal cancers but displayed increased T- and B-cell lymphomas (52). In addition, a recent study demonstrated that hypomorphic Dnmt1 expression is associated with reduced squamous cell carcinoma of the tongue and esophagus, resulting in decreased invasive cancer (1). Taken together, the data suggest that Dnmt1 has diverse effects on cancer development, which are dependent on tissue context and tumor stage.TRAMP is a well-established transgenic prostate cancer model driven by prostate-specific expression of the simian virus 40 (SV40) T/t oncogenes (16). TRAMP mice are characterized by Dnmt mRNA and protein overexpression, altered DNA methylation, and altered gene expression during prostate cancer development (2, 33, 35, 37). Of the three enzymatically active Dnmts, Dnmt1 shows the greatest level of overexpression in TRAMP, and this correlates with Rb inactivation, a key genetic event driving prostate cancer in the model (37). Most critically, global DNA hypomethylation occurs during early and late disease stages, while DNA hypermethylation occurs primarily at late disease stages in TRAMP (35).Here, we utilized Dnmt1 hypomorphic mice and the TRAMP model to assess the role of DNA methylation in both normal prostatic development and prostate cancer. The Dnmt1 hypomorphic mouse model used involves two different hypomorphic alleles (N and R), resulting in four genotypes with progressively reduced DNA methylation (Dnmt1^+/+, Dnmt1^R/+, Dnmt1^N/+, and Dnmt1^N/R) (7, 52). The N allele consists of a PGK-Neo insertion that deletes a portion of exon 4 of Dnmt1, resulting in severely reduced Dnmt1 expression, while the R allele involves a lacO insertion into intron 3 of Dnmt1, which partially reduces Dnmt1 expression (7, 52). Based on our previous work establishing the timing of DNA hypomethylation and DNA hypermethylation in TRAMP, we hypothesized that hypomorphic Dnmt1 expression in TRAMP may have tumor-promoting effects at early disease stages and tumor-inhibitory effects at later stages of prostate cancer progression. Our data are consistent with this hypothesis and, more importantly, reveal a critical and unanticipated role for Dnmt1 in prostate cancer metastasis.     

The crystal structure of a TIR domain from Arabidopsis thaliana reveals a conserved helical region unique to plants

Plants use a highly evolved immune system to exhibit defense response against microbial infections. The plant TIR domain, together with the nucleotide‐binding (NB) domain and/or a LRR region, forms a type of molecule, named resistance (R) proteins, that interact with microbial effector proteins and elicit hypersensitive responses against infection. Here, we report the first crystal structure of a plant TIR domain from Arabidopsis thaliana (AtTIR) solved at a resolution of 2.0 Å. The structure consists of five β‐strands forming a parallel β‐sheet at the core of the protein. The β‐strands are connected by a series of α‐helices and the overall fold mimics closely that of other mammalian and bacterial TIR domains. However, the region of the αD‐helix reveals significant differences when compared with other TIR structures, especially the αD3‐helix that corresponds to an insertion only present in plant TIR domains. Available mutagenesis data suggest that several conserved and exposed residues in this region are involved in the plant TIR signaling function.