Candida albicans is a pathogenic fungus capable of switching its morphology between yeast-like cells and filamentous hyphae and can associate with bacteria to form mixed biofilms resistant to antibiotics. In these structures, the fungal milieu can play a protective function for bacteria as has recently been reported for C. albicans and a periodontal pathogen—Porphyromonas gingivalis. Our current study aimed to determine how this type of mutual microbe protection within the mixed biofilm affects the contacting host cells. To analyze C. albicans and P. gingivalis persistence and host infection, several models for host–biofilm interactions were developed, including microbial exposure to a representative monocyte cell line (THP1) and gingival fibroblasts isolated from periodontitis patients. For in vivo experiments, a mouse subcutaneous chamber model was utilized. The persistence of P. gingivalis cells was observed within mixed biofilm with C. albicans. This microbial co-existence influenced host immunity by attenuating macrophage and fibroblast responses. Cytokine and chemokine production decreased compared to pure bacterial infection. The fibroblasts isolated from patients with severe periodontitis were less susceptible to fungal colonization, indicating a modulation of the host environment by the dominating bacterial infection. The results obtained for the mouse model in which a sequential infection was initiated by the fungus showed that this host colonization induced a milder inflammation, leading to a significant reduction in mouse mortality. Moreover, high bacterial counts in animal organisms were noted on a longer time scale in the presence of C. albicans, suggesting the chronic nature of the dual-species infection.
Immune checkpoint targeting immunotherapy has revolutionized the treatment of certain cancers in the recent years. Determination of the status of immune checkpoint expression in particular cancers may assist decision making. Here, we describe the development of a single-stranded aptamer-based molecular probe specifically recognizing human PD-L1. Target engaging aptamers are selected by iterative enrichment from a random ssDNA pool and the binding is characterized biochemically. Specificity and dose dependence is demonstrated in vitro in the cell culture using human kidney tumor cells (786-0), human melanoma cells (WM115 and WM266.4) and human glioblastoma LN18 cancer cells. The utility of the probe in vivo is demonstrated using two mouse tumor models, where we show that the probe exhibits excellent potential in imaging. We postulate that further development of the probe may allow universal imaging of different types of tumors depending on their PD-L1 status, which may find utility in cancer diagnosis.
Neutrophils are the most abundant cells of all white blood cells and play a key role in host inflammatory responses. Importantly, inflammation has been associated with increased susceptibility for cancer and neutrophils, as a crucial component of this process, play essential role in inflammation-driven tumorigenesis. Neutrophils also represent an independent prognostic marker in a broad variety of neoplasias. The tumor microenvironment represents a special niche that is extremely influencing infiltrating immune cells. The concept of immune cell polarization was first described for macrophages (anti-tumor M1/pro-tumor M2). Recently neutrophil polarization has been postulated. Neutrophils appear to have diverse phenotypes in the tumor microenvironment i.e. tumor promoting (N2) or inhibiting (N1). Previously, we could show that significantly elevated numbers of neutrophils accumulate in tumors of mice that lack endogenous type I IFNs (Ifnb1-/-). Such tumor associated neutrophils (TANs) do not only efficiently support tumor angiogenesis and growth by up-regulating pro-angiogenic molecules (VEGF and MMP9), but also secrete higher amounts of neutrophil-attracting chemokines and display prolonged survival, compared to their WT counterparts thus representing pro-tumor N2 phenotype. Moreover, we could show that these N2 neutrophils efficiently support metastatic processes, due to up-regulation of pro-metastatic proteins, like Bv8, MMP9, S100A8 and S100A9, and due to impaired tumor cell killing. Treatment of such cells with rmIFNb reversed such an effect leading to anti-tumor N1 polarization. Here, we add further evidence emphasizing the importance of type I IFNs for neutrophil polarization in tumor microenvironment and reveal possible mechanism responsible for this phenomenon. In Ifnb1-/- mice, we observe a significant down-regulation of anti-tumor neutrophil markers, like ICAM1 and TNF-α. Moreover, neutrophils show reduced formation of NETs, accompanied by lower tumor killing capacity. Under these conditions, massively enhanced neutrophil turnover in combination with accumulation of immature neutrophils is observed. Importantly, therapeutic intervention in both Ifnb1-/- and WT mice using low dose IFN-β, induced anti-tumor activation of neutrophils. Correspondingly, in human melanoma patients undergoing type I IFN therapy, neutrophil anti-tumor characteristics were augmented, compared to untreated patients, suggesting effective outcome of this therapy. Further, we evaluated the mechanism of prolonged neutrophil survival in the absence of endogenous IFN-β. Importantly, we found that G-CSF mRNA expression levels in Ifnb1-/- neutrophils from different anatomical compartments as well as G-CSF blood serum levels were markedly up-regulated in such mice. G-CSF-expression levels were strongly reduced when the Ifnb1-/- neutrophils were incubated with rmIFN-β suggesting involvement of type I interferons in G-CSF down-regulation. Notably, we could recently show that G-CSF induces synthesis of enzyme Nicotinamide phosphoribosyltransferase (NAMPT), which is a rate-limiting enzyme converting nicotinamide (NA) into NAD+ that in turn activates NAD+ -dependent protein deacetylases sirtuins (SIRTs). NAMPT serves as an inhibitor of neutrophil apoptosis and as neutrophil chemoattractant by upregulation of CXCL8. It is a potent pro-inflammatory factor (upregulation of ROS release) and pro-angiogenic factor (smooth muscle maturation). At the same time, NAMPT was found to be strongly overexpressed in tumors and serum of leukemia patients. Analysis of NAMPT and SIRTs levels in tumor bearing Ifnb1-/- mice revealed highly upregulated levels of NAMPT and SIRT1 in blood neutrophils of these animals, in comparison to WT mice, which was in line with elevated levels of G-CSF. It also correlates with enhanced tumor angiogenesis, growth and metastasis. Based on these observations, we identified a new mechanism of interferon-mediated activation of pro-tumor neutrophils. Since tumor associated neutrophils represent a highly potent therapeutic target, these data highlight the therapeutic potential of interferons and NAMPT inhibitors, suggesting optimization of their clinical use as potent anti-tumor agent. Disclosures No relevant conflicts of interest to declare.
The clinical success of PD-1/PD-L1 immune checkpoint targeting antibodies in cancer is followed by efforts to develop small molecule inhibitors with better penetration into solid tumors and more favorable pharmacokinetics. Here we report the crystal structure of a macrocyclic peptide inhibitor (peptide 104) in complex with PD-L1. Our structure shows no indication of an unusual bifurcated binding mode demonstrated earlier for another peptide of the same family (peptide 101). The binding mode relies on extensive hydrophobic interactions at the center of the binding surface and an electrostatic patch at the side. An interesting sulfur/π interaction supports the macrocycle-receptor binding. Overall, our results allow a better understanding of forces guiding macrocycle affinity for PD-L1, providing a rationale for future structure-based inhibitor design and rational optimization.
Zagrożenie atakami terrorystycznymi w Europie Zachodniej skłoniło społeczność międzynarodową do zintensyfikowania działań mających na celu walkę z terroryzmem. Ich ważnym elementem stało się przeciwdziałanie finansowaniu terroryzmu oraz jego zwalczanie. Główną rolę w tym procesie odgrywa Grupa Specjalna do spraw Przeciwdziałania Praniu Pieniędzy (FATF), która przygotowuje i aktualizuje stosowne rekomendacje dla poszczególnych państw oraz diagnozuje zagrożenia i usiłuje im przeciwdziałać. Autorka określa zakres i specyfikę zagrożeń związanych z finansowaniem terroryzmu w państwach Unii Europejskiej oraz wskazuje działania podejmowane przez FATF w celu określenia zagrożeń.
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