Project description:Toll-Like Receptor-dependent immunomodulatory activity of Pycnogenol

Project description:Akkermansia muciniphila, a bacterium, is associated with good health, but data are lacking whether it confers health benefits on children in low income countries and by which mechanisms. In a case-control study of children <5 years old with (n=1717) or without (n=1524) diarrhea, the presence of A. muciniphila reduces the odds ratio of symptoms of diarrhea from six diarrheal pathogens. A. muciniphila is found more frequently among children who are growing well compared with those who are growing poorly. In silico analysis of 1487 A. muciniphila genomes revealed the presence of DNA encoding the peptide larazotide known to benefit human health by improving tight junctions. Although previously considered synthetic, we demonstrated that larazotide is secreted by A. muciniphila. Larazotide is found in the nucleus of colonic epithelial cells and its exogenous application alters gene expression. When larazotide is applied to colonic organoid cultures, the amount of mucin (MUC2) is increased significantly (p<0.005). Our analyses are consistent with A. muciniphila secreting larazotide and intestinal epithelial cells responding by increasing MUC2, potentially creating a positive feedback loop that increases mucin production, which may itself increase abundance of the mucin-metabolizing A. muciniphila. This cycle may confer positive health outcomes for children.

Project description:Nanomaterials offer new opportunities to engineer immunomodulatory activity. In this work, we report the endosomal toll-like receptor agonist activity of a nanoscale adjuvant zeolitic imidazolate frameworks-8 (ZIF-8). The accumulation of ZIF-8 in endosomes and the pH-responsive release of its subunits enable selective engagement with endosomal TLRs, minimizing the risk of off-target activation. The intrinsic adjuvant properties of ZIF-8, along with the efficient delivery and biomimetic presentation of a SARS-CoV-2 spike protein receptor binding domain trimer, primed rapid humoral and cell mediated immunity in a dose sparing manner. Our study offers new insights for next-generation adjuvants that can potentially impact future vaccine development.

Project description:Toll-like receptor 9 synthetic agonist oligodeoxynucleotides expressing CpG motifs are currently evaluated for their anti-tumor activity, mainly in association with DNA-damaging drugs. Microarray expression analyses of genes implicates in DNA repair on tumor cells from mice treated with CpG-OD, revealed a down-regulation in tumor cells. These findings provide the first time evidence that immune cells upon TLR9 engagement can sensitize cancer cells to DNA damaging chemotherapy.

Project description:We report the application of bulk RNA sequencing for profiling changes in mouse cardiac lysates as a result of changes in innate immunity function. We generated an inducible endothelial cell toll-like receptor 2 knockout and assessed changes in overall gene expression in the absence of pathogen presence. We find that over 200 genes are differentially regulated between the two genotypes that are solely due to the presence of endogenous signaling within these animals. We also show that the genes that are differentially regulated are tied to the immunity function of the endothelium and that removal of toll-like receptor 2 signaling creates a diminished response by the immune system to wound healing and tumor development. Finally, we demonstrate that other immunomodulatory pathways are further affected, suggesting that changes outside of the endothelium are driven by endothelial-toll-like receptor 2 signaling. This study provides a framework for the application of tissue specific knockouts and profiling the role of endothelial as an innate immunity organ.

Project description:Kees2018 - Genome-scale constraint-based model of the mucin-degrader Akkermansia muciniphila This model is described in the article: Model-driven design of a minimal medium for Akkermansia muciniphila confirms mucus adaptation. van der Ark KCH, Aalvink S, Suarez-Diez M, Schaap PJ, de Vos WM, Belzer C. Microb Biotechnol 2018 Jan; : Abstract: The abundance of the human intestinal symbiont Akkermansia muciniphila has found to be inversely correlated with several diseases, including metabolic syndrome and obesity. A. muciniphila is known to use mucin as sole carbon and nitrogen source. To study the physiology and the potential for therapeutic applications of this bacterium, we designed a defined minimal medium. The composition of the medium was based on the genome-scale metabolic model of A. muciniphila and the composition of mucin. Our results indicate that A. muciniphila does not code for GlmS, the enzyme that mediates the conversion of fructose-6-phosphate (Fru6P) to glucosamine-6-phosphate (GlcN6P), which is essential in peptidoglycan formation. The only annotated enzyme that could mediate this conversion is Amuc-NagB on locus Amuc_1822. We found that Amuc-NagB was unable to form GlcN6P from Fru6P at physiological conditions, while it efficiently catalyzed the reverse reaction. To overcome this inability, N-acetylglucosamine needs to be present in the medium for A. muciniphila growth. With these findings, the genome-scale metabolic model was updated and used to accurately predict growth of A. muciniphila on synthetic media. The finding that A. muciniphila has a necessity for GlcNAc, which is present in mucin further prompts the adaptation to its mucosal niche. This model is hosted on BioModels Database and identified by: MODEL1710040000. To cite BioModels Database, please use: Chelliah V et al. BioModels: ten-year anniversary. Nucl. Acids Res. 2015, 43(Database issue):D542-8. To the extent possible under law, all copyright and related or neighbouring rights to this encoded model have been dedicated to the public domain worldwide. Please refer to CC0 Public Domain Dedication for more information.

Project description:Zinc dyshomeostasis has been involved in the pathogenesis of cardiac hypertrophy; however, the dynamic regulation of intracellular zinc and its downstream signaling in cardiac hypertrophy remain largely unknown. Here we screened ZIP (SLC39) family members that were responsible for zinc uptake in a phenylephrine (PE)-induced cardiomyocyte hypertrophy model. We found that Slc39a2 was the only member that was altered at mRNA level by PE treatment in neonatal rat ventricular myocytes (NRVMs), but its protein level was not affected. Zincpyr1 staining showed a significant decrease in zinc uptake after PE treatment or after Slc39a2 knockdown in NRVMs, indicating an inhibition of its transport activity during hypertrophy. Slc39a2 deficiency caused spontaneous hypertrophy in NRVMs, and further exacerbated the hypertrophic responses after PE treatment. RNA sequencing analysis confirmed a largely aggravated pro-hypertrophic transcriptome reprogramming after Slc39a2 knockdown. Interestingly, the innate immune pathways, including NOD signaling, TOLL-like receptor, NFB, and IRFs, were substantially enriched after Slc39a2 knockdown. Whereas IRF7, the most sensitive among all IRFs, did not mediate the effect of Slc39a2 in hypertrophy, pro-hypertrophy phosphorylations of NFB and STAT3 were significantly enhanced after Slc39a2 knockdown, in parallel with degradation of IkBα protein. Our data demonstrate that SLC39A2-mediated zinc homeostasis contributes to the remodeling of innate immune signaling in cardiomyocyte hypertrophy, and provide novel insights into the pathogenesis of heart failure and its treatment.

Project description:Expression profile of HeLa and C33A cervical cancer cells line treated with PNAs-A15 for 6 hours. PNAs-A15 is peptide nucleic acid of A-repeats length 15 bp that can suppress up-regulated A-repeats containing genes in cervical cancer cells line.

Project description:Preeclampsia (PE), which affects 4-8% of human pregnancies, causes significant maternal and neonatal morbidity and mortality. Within the basal plate, placental cytotrophoblasts (CTBs) of fetal origin invade the uterus and extensively remodel the maternal vasculature. In PE, CTB invasion is often shallow, and vascular remodeling is rudimentary. To better understand possible causes, we conducted a global analysis of gene expression at the maternal-fetal interface in placental samples from women with PE (n = 12; 24-36 wk) vs. samples from women who delivered due to preterm labor with no evidence of infection (n = 11; 24-36 wk), a condition that our previous work showed is associated with normal CTB invasion. Using the HG-U133A&B Affymetrix GeneChip platform, and statistical significance set at log odds-ratio of B >0, 55 genes were differentially expressed in PE. They encoded proteins previously associated with PE [e.g. Flt-1 (vascular endothelial growth factor receptor-1), leptin, CRH, and inhibin] and novel molecules [e.g. sialic acid binding Ig-like lectin 6 (Siglec-6), a potential leptin receptor, and pappalysin-2 (PAPP-A2), a protease that cleaves IGF-binding proteins]. We used quantitative PCR to validate the expression patterns of a subset of the genes. At the protein level, we confirmed PE-related changes in the expression of Siglec-6 and PAPP-A2, which localized to invasive CTBs and syncytiotrophoblasts. Notably, Siglec-6 placental expression is uniquely human, as is spontaneous PE. The functional significance of these novel observations may provide new insights into the pathogenesis of PE, and assaying the circulating levels of these proteins could have clinical utility for predicting and/or diagnosing PE. Keywords: disease state analysis

Project description:Toll mediates a robust and effective innate immune response across vertebrates and invertebrates. In Drosophila melanogaster, activation of Toll by systemic infection drives the accumulation of a rich repertoire of immune effectors in hemolymph, including the recently characterized Bomanins as well as the classical antimicrobial peptides (AMPs). Here we report the functional characterization of a Toll-induced hemolymph protein encoded by the bombardier (CG18067) gene. Using the CRISPR-Cas9 system to generate a precise deletion, we found that Bombardier is required for Toll-mediated defense against fungi and Gram-positive bacteria. Assaying cell-free hemolymph from these flies, we found that the Bomanin-dependent candidacidal activity observed in hemolymph is also dependent on Bombardier, but not on the antifungal AMPs Drosomycin and Metchnikowin. Using mass spectrometry, we demonstrated that deletion of Bombardier results in the specific absence of short-form Bomanins from hemolymph. Flies lacking Bombardier also exhibited a defect in pathogen tolerance that we trace to an autoimmune disorder triggered by Toll activation. These results lead us to a model in which the presence of Bombardier in wild-type flies enables the proper folding, secretion, or intermolecular associations of short-form Bomanins, and the absence of Bombardier disrupts one or more of these steps, resulting in defects in both immune resistance and tolerance.