P. Di Benedetto

Mesenchymal stem cells (MSCs) from scleroderma patients (SSc) preserve their immunomodulatory properties although senescent and normally induce T regulatory cells (Tregs) with a functional phenotype: implications for cellular-based therapy.

Systemic sclerosis (SSc) is a chronic disease, with early activation of the immune system. The aim of our work was to address how SSc–mesenchymal stem cells (MSCs), although senescent, might preserve specific immunomodulatory abilities during SSc. MSCs were obtained from 10 SSc patients and 10 healthy controls (HC). Senescence was evaluated by assessing cell cycle, β‐galactosidase (β‐Gal) activity, p21 and p53 expression; doxorubicin was used as acute senescence stimulus to evaluate their ability to react in stressed conditions. Immunomodulatory abilities were studied co‐culturing MSCs with peripheral blood mononuclear cells (PBMCs) and CD4+ cells, in order to establish both their ability to block proliferation in mixed lymphocyte reaction and in regulatory T cells (Tregs) induction. SSc–MSC showed an increase of senescence biomarkers. Eighty per cent of MSCs were in G0–G1 phase, without significant differences between SSc and HC. SSc–MSCs showed an increased positive β‐Gal staining and higher p21 transcript level compared to HC cells. After doxorubicin, β‐Gal staining increased significantly in SSc–MSCs. On the contrary, doxorubicin abolished p21 activation and elicited p53 induction both in SSc– and HC–MSCs. Interleukin (IL)‐6 and transforming growth factor (TGF)‐β‐related transcripts and their protein levels were significantly higher in SSc–MSCs. The latter maintained their immunosuppressive effect on lymphocyte proliferation and induced a functionally regulatory phenotype on T cells, increasing surface expression of CD69 and restoring the regulatory function which is impaired in SSc. Increased activation of the IL‐6 pathway observed in our cells might represent an adaptive mechanism to senescence, but preserving some specific cellular functions, including immunosuppression.

Monocytes from patients with rheumatoid arthritis and type 2 diabetes mellitus display an increased production of interleukin (IL)-1β via the nucleotide-binding domain and leucine-rich repeat containing family pyrin 3(NLRP3)-inflammasome activation: a possible implication for therapeutic decision in these patients

A better understanding about the mechanisms involved in the pathogenesis of type 2 diabetes mellitus (T2D) showed that inflammatory cytokines such as tumour necrosis factor (TNF) and interleukin (IL)‐1β play a pivotal role, mirroring data largely reported in rheumatoid arthritis (RA). IL‐1β is produced mainly by monocytes (MO), and hyperglycaemia may be able to modulate, in the cytoplasm of these cells, the assembly of a nucleotide‐binding domain and leucine‐rich repeat containing family pyrin (NLRP3)‐inflammosome, a cytosolic multi‐protein platform where the inactive pro‐IL‐1β is cleaved into active form, via caspase‐1 activity. In this paper, we evaluated the production of IL‐1 β and TNF, in peripheral blood MO of patients affected by RA or T2D or both diseases, in order to understand if an alteration of the glucose metabolism may influence their proinflammatory status. Our data showed, after 24 h of incubation with different glucose concentrations, a significantly increased production of IL‐1β and TNF in all evaluated groups when compared with healthy controls. However, a significant increase of IL‐1β secretion by T2D/RA was observed when compared with other groups. The analysis of relative mRNA expression confirmed these data. After 24 h of incubation with different concentrations of glucose, our results showed a significant increase in NLRP3 expression. In this work, an increased production of IL‐1β by MO obtained from patients affected by both RA and T2D via NLRP3‐inflammasome activation may suggest a potential IL‐1β targeted therapy in these patients.

Perivascular Cells in Diffuse Cutaneous Systemic Sclerosis Overexpress Activated ADAM12 and Are Involved in Myofibroblast Transdifferentiation and Development of Fibrosis

Objective. Microvascular damage is pivotal in the pathogenesis of systemic sclerosis (SSc), preceding fibrosis, and whose trigger is not still fully understood. Perivascular progenitor cells, with profibrotic activity and function, are identified by the expression of the isoform 12 of ADAM (ADAM12) and this molecule may be upregulated by transforming growth factor-β (TGF-β). The goal of this work was to evaluate whether pericytes in the skin of patients with diffuse cutaneous SSc (dcSSc) expressed ADAM12, suggesting their potential contribution to the fibrotic process, and whether TGF-β might modulate this molecule. Methods. After ethical approval, mesenchymal stem cells (MSC) and fibroblasts (FB) were isolated from bone marrow and skin samples collected from 20 patients with dcSSc. ADAM12 expression was investigated in the skin and in isolated MSC and FB treated with TGF-β by immunofluorescence, quantitative real-time PCR, and western blot. Further, we silenced ADAM12 expression in both dcSSc-MSC and -FB to confirm the TGF-β modulation. Results. Pericytes and FB of dcSSc skin showed an increased expression of ADAM12 when compared with healthy control skin. TGF-β in vitro treatment induced a significant increase of ADAM12 in both SSc-MSC and -FB, with the higher levels observed in dcSSc cells. After ADAM12 silencing, the TGF-β ability to upregulate α-smooth muscle actin in both SSc-MSC and SSc-FB was inhibited. Conclusion. Our results suggest that in SSc, pericytes that transdifferentiate toward activated FB are present in the vascular tree, and TGF-β, while increasing ADAM12 expression, may modulate this transdifferentiation.

The CD68+/H-ferritin+ cells colonize the lymph nodes of the patients with adult onset Still's disease and are associated with increased extracellular level of H-ferritin in the same tissue: correlation with disease severity and implication for pathogenesis

In this work, we aimed to evaluate the levels of ferritin enriched in H subunits (H‐ferritin) and ferritin enriched in L subunits (L‐ferritin) and the cells expressing these two molecules in the lymph node (LN) biopsies obtained from adult‐onset Stills disease (AOSD) patients, and the possible correlation among these data and the severity of the disease. Ten patients with AOSD underwent LN biopsy. All the samples were stained by immunofluorescence. A statistical analysis was performed to estimate the possible correlation among both H‐ferritin and L‐ferritin tissue expression and the clinical picture of the disease. Furthermore, the same analysis was performed to evaluate the possible correlation among the number of CD68+/H‐ferritin+ or CD68+/L‐ferritin+ cells and the clinical picture. Immunofluorescence analysis demonstrated an increased tissue H‐ferritin expression in the LNs of AOSD patients. This increased expression correlated with the severity of the disease. An increased number of CD68 macrophages expressing H‐ferritin was observed in the LN samples of our patients. Furthermore, we observed that the number of CD68+/H‐ferritin+ cells correlated significantly with the severity of the clinical picture. Our data showed an imbalance between the levels of H‐ and L‐ferritin in LNs of AOSD patients and the evidence of an increased number of CD68+/H‐ferritin+ cells in the same organs. Furthermore, a correlation among both the tissue H‐ferritin levels and the CD68+/H‐ferritin+ cells and the clinical picture was observed.

H-ferritin and CD68+/H-ferritin+ monocytes/macrophages are increased in the skin of adult-onset Still's disease patients and correlate with the multi-visceral involvement of the disease

Adult‐onset Stills disease (AOSD) patients may show an evanescent salmon‐pink erythema appearing during febrile attacks and reducing without fever. Some patients may experience this eruption for many weeks. During AOSD, exceptionally high serum levels of ferritin may be observed; it is an iron storage protein composed of 24 subunits, heavy (H) subunits and light (L) subunits. The ferritin enriched in L subunits (L‐ferritin) and the ferritin enriched in H subunits (H‐ferritin) may be observed in different tissues. In this work, we aimed to investigate the skin expression of both H‐and L‐ferritin and the number of macrophages expressing these molecules from AOSD patients with persistent cutaneous lesions. We observed an increased expression of H‐ferritin in the skin, associated with an infiltrate in the biopsies obtained from persistent cutaneous lesions of AOSD patients. Furthermore, a positive correlation between H‐ferritin skin levels as well as the number of CD68+/H‐ferritin+ cells and the multi‐visceral involvement of the disease was observed. Our data showed an increased expression of H‐ferritin in the skin of AOSD patients, associated with a strong infiltrate of CD68+/H‐ferritin+ cells. Furthermore, a correlation between the levels of H‐ferritin as well as of the number of CD68+/H‐ferritin+ cells and the multi‐visceral involvement of the disease was observed.

Interleukin (IL)-17-producing pathogenic T lymphocytes co-express CD20 and are depleted by rituximab in primary Sjögren's syndrome: a pilot study

Compelling evidence suggests that interleukin (IL)‐17 and IL‐17‐producing cells play a pivotal role in the pathogenesis of primary Sjögrens syndrome (pSS). We investigated phenotypical and functional effects of the anti‐CD20 antibody rituximab (RTX) on circulating and glandular IL‐17‐producing T cells in pSS. RTX is able to deplete glandular IL‐17+ CD3+CD4–CD8– double‐negative (DN) and CD4+ Th17 cells as well as circulating IL‐17+ DN T cells. A fraction of glandular and circulating IL‐17+ DN cells and CD4+ T helper type 17 (Th17) cells co‐expresses CD20 on the cell surface explaining, at least in part, such depletive capacity of RTX. The exposure to RTX does not rescue the in‐vitro corticosteroid resistance of IL‐17+ DN T cells. Our results support further the therapeutic role in pSS of RTX that, despite its B cell specificity, appears able to also hamper IL‐17‐producing T cells in this disease.

H-ferritin and proinflammatory cytokines are increased in the bone marrow of patients affected by macrophage activation syndrome

Macrophage activation syndrome (MAS) is hyperinflammatory life‐threatening syndrome, associated typically with high levels of serum ferritin. This is an iron storage protein including heavy (H) and light (L) subunits, categorized on their molecular weight. The H‐/L subunits ratio may be different in tissues, depending on the specific tissue and pathophysiological status. In this study, we analysed the bone marrow (BM) biopsies of adult MAS patients to assess the presence of: (i) H‐ferritin and L‐ferritin; (ii) CD68+/H‐ferritin+ and CD68+/L‐ferritin+; and (iii) interleukin (IL)‐1β, tumour necrosis factor (TNF) and interferon (IFN)‐γ. We also explored possible correlations of these results with clinical data. H‐ferritin, IL‐1β, TNF and IFN‐γ were increased significantly in MAS. Furthermore, an increased number of CD68+/H‐ferritin+ cells and an infiltrate of cells co‐expressing H‐ferritin and IL‐12, suggesting an infiltrate of M1 macrophages, were observed. H‐ferritin levels and CD68+/H‐ferritin+ cells were correlated with haematological involvement of the disease, serum ferritin and C‐reactive protein. L‐ferritin and CD68+/L‐ferritin+ cells did not correlate with these parameters. In conclusion, during MAS, H‐ferritin, CD68+/H‐ferritin+ cells and proinflammatory cytokines were increased significantly in the BM inflammatory infiltrate, pointing out a possible vicious pathogenic loop. To date, H‐ferritin and CD68+/H‐ferritin+ were associated significantly with haematological involvement of the disease, suggesting biomarkers assessing severity of clinical picture.

A Resource-Oriented Static Analysis Approach to Adaptable Java Applications

In this paper we present a static analysis approach for inspecting Java programs and characterizing them with respect to their resource consumption in a given execution environment. We target, in particular, resource constrained devices that are characterized by resource scarcity and limited computational power. The focus of this paper is on a parametrical abstract resource analyzer that performs the actual analysis and is supported by a resource model that allows us to abstract application behavior in terms of its resource needs. The presented components are integrated in a larger framework that provides a complete system for reasoning and adapting Java programs with respect to heterogeneous contexts.

FRI0437 Decreased Expression of Angiopoetin 1 on Perivascular Mesenchymal Stem Cells from SSC Patients Induces an Anti Angiogenetic Effect, when Co-Cultured with Endothelial Cells

Background Systemic Sclerosis (SSc) is characterized by vascular alteration with a progressive loss of capillaries resulting in insufficient blood flow and chronic peripheral hypoxia, associated to a failure of reparative angiogenesis, followed by progressive fibrosis of skin and internal organs[1]. An impaired production of angiogenic molecules is involved in this dysfunctional angiogenesis [2]. Tie2 is a trans-membrane receptor, exclusively expressed on the surface of endothelial cell (EC). Tie2 modulates the vessels quiescence, or alternatively, induces angiogenesis, via the interaction with its ligands, Ang1 and Ang2. Of note, activation of endothelial Tie2 signalling, by Ang1, which is produces by perivascular cells, enhances ECs barrier integrity and endothelial-pericyte interaction. On the contrary, Ang2, produced by ECs, normally acts as an Ang1 antagonist [3]. Objectives The aim of the present study was to assess if an impaired cross-talk between ECs and perivascular mesenchymal stem cells (MSCs), during SSc, may affect the normal interaction among Ang1, Ang2 and Tie2 thus contributing to the impaired angiogenesis. In this work, bone marrow derived MSCs were used as pericytes surrogate, considering that, perivascular cells share surface markers and differentiative ability with bone marrow MSCs, and MSCs express pericyte markers and cooperate with endothelial cells to form a vascular network, supporting the concept that pericytes are members of the adult multipotent MSCs family [4]. Methods We investigated Ang1, Ang2 and their receptor performing co-cultures with ECs and bone marrow MSCs obtained from patients and healthy controls (HC). After 48 hours, cells were sorted and analysed for molecular assays. Furthermore, we investigated, by ELISA assay, the proteins released in the supernatants. Finally, we silenced Ang-1 expression in HC-MSCs by Ang1-siRNA. Results At molecular level, SSc-MSCs, cultured alone, expressed lower amount of Ang1 when compared to HC-MSCs. After co-culture, a significant decreased of Ang1 mRNA levels was observed in the SSc-MSCs/SSc-ECs. On the contrary, SSc-ECs expressed higher levels of Ang2 and Tie2 in each co-culture condition, when compared to the expressions of cells cultured alone. The WB and ELISA assays mirrored the results observed in gene expression. HC-MSCs transfected with Ang1-siRNA lacked the ability to support the formation of tube like structure. Conclusions In this work we provided evidence that an imbalance of Ang1/Ang2 molecules and a decreased expression of their receptor, Tie2, during ECs-perivascular MSCs interplay, may modulate vessel stability, and vascular tube formation, thus contributing to the angiogenic alteration observed during SSc. References Cipriani P et al. Autoimmun Rev 2011,10:641-646. Cipriani P et al. Arthritis Res Ther 2013,16:442. Fukuhara S et al. Histol Histopathol 2010,25:387–396. Cipriani P et a. Angiogenesis 2013,16:595-607. Disclosure of Interest None declared

A development process for context-aware adaptive services

Pervasive computing infrastructure makes it possible for mobile users to run software services on extremely heterogeneous and resource-constrained mobile devices. Heterogeneity and device limitedness creates serious problems for the development and deployment of mobile services that are able to run properly on the execution context and are able to ensures that users experience the ldquobestrdquo Quality of Service possible according to their needs and specific contexts of use. In this paper we show how the main issues related to the development of self-adapting context-aware services are addressed in the IST PLASTIC Project with the support of CHAMELEON, a declarative framework for tailoring adaptable services.