Oral administration of HSP-containing E.Coli extract OM-89 has suppressive effects in autoimmunity. Regulation of autoimmune processes by modulating peripheral immunity towards hsp’s?

OM-89 (Subreum) is anE. coli extract used for oral administration in the treatment of rheumatoid arthritis. It contains bacterial heat shock proteins, namely hsp60 and hsp70, which were shown to be major immunogenic constitutents of the drug. Immunity to bacterial heat-shock antigens was shown to be a means of immunomodulation of (experimental) autoimmune disease and possibly inflammation in general. This was demonstrated for mycobacterial hsp60 respectively hsp70 in autoimmune disease models for arthritis, diabetes and encephalitis. Parallel to the effects displayed by immunisation with hsp, oral administration of hsp-containing OM-89 was found to modify autoimmune disease in a number of animal models, such as for arthritis, diabetes and SLE. In rats immunisation with OM-89 was found to lead to proliferative T cell responses to hsp60 and hsp70 of bothE. coli and mycobacterial origin. Conversely, immunisation with hsp antigens could induce T cell reactivity specific for OM-89. Given this and the autoimmune disease modulating properties of both hsp and OM-89 it is argued that OM-89 acts via the same mechanism as proposed for hsp: that peripheral tolerance is induced at the level of regulatory T cells with specificity for heat-shock proteins. This may constitute one mode of action for OM-89 as an arthritis suppressive oral drug in man.     

Impairment in the telocyte/CD34+ stromal cell network in human rheumatoid arthritis synovium

Telocytes (TCs)/CD34⁺ stromal cells have recently emerged as peculiar interstitial cells detectable in a variety of organs throughout the human body. TCs are typically arranged in networks establishing unique spatial relationships with neighbour cells and likely contributing to the maintenance of tissue homeostasis by both cell-to-cell contacts and releasing extracellular vesicles. Hence, TC defects are being increasingly reported in different pathologies, such as chronic inflammatory and fibrotic conditions. In this regard, TCs/CD34⁺ stromal cells have been shown to constitute an intricate interstitial network in the subintimal area of the normal human synovial membrane, but whether they are altered in chronic synovitis has yet to be explored. We therefore undertook a morphologic study to compare the distribution of TCs/CD34⁺ stromal cells between normal synovium and chronically inflamed synovium from patients with rheumatoid arthritis (RA) by using CD34 immunohistochemistry and CD31/CD34 double immunofluorescence. CD34 immunostaining revealed that, at variance with normal synovium, the inflamed and hyperplastic RA synovial tissue was nearly or even completely devoid of TCs/CD34⁺ stromal cells. Double immunofluorescence confirmed that almost all CD34⁺ tissue components detectable in RA synovium were blood vessels coexpressing CD31, while a widespread network of CD31⁻/CD34⁺ TCs was clearly evident in the whole sublining layer of normal synovium. In the context of the emerging diverse roles of TCs/CD34⁺ stromal cells in the regulation of tissue homeostasis and structure, the remarkable impairment in their networks herein uncovered in RA synovium may suggest important pathophysiologic implications that will be worth investigating further.     

Shortened derivatives from native antimicrobial peptide LyeTx I: In vitro and in vivo biological activity assessment

In the continuing search for novel antibiotics, antimicrobial peptides are promising molecules, due to different mechanisms of action compared to classic antibiotics and to their selectivity for interaction with microorganism cells rather than with mammalian cells. Previously, our research group has isolated the antimicrobial peptide LyeTx I from the venom of the spider Lycosa erythrognatha. Here, we proposed to synthesize three novel shortened derivatives from LyeTx I (LyeTx I mn; LyeTx I mnΔK; LyeTx I mnΔKAc) and to evaluate their toxicity and biological activity as potential antimicrobial agents. Peptides were synthetized by Fmoc strategy and circular dichroism analysis was performed, showing that the three novel shortened derivatives may present membranolytic activity, like the original LyeTx I, once they folded as an alpha helix in 2.2.2-trifluorethanol and sodium dodecyl sulfate. In vitro assays revealed that the shortened derivative LyeTx I mnΔK presents the best score between antimicrobial (↓ MIC) and hemolytic (↑ EC₅₀) activities among the synthetized shortened derivatives, and LUHMES cell-based NeuriTox test showed that it is less neurotoxic than the original LyeTx I (EC₅₀ [LyeTx I mnΔK] ⋙ EC₅₀ [LyeTx I]). In vivo data, obtained in a mouse model of septic arthritis induced by Staphylococcus aureus, showed that LyeTx I mnΔK is able to reduce infection, as demonstrated by bacterial recovery assay (∼10-fold reduction) and scintigraphic imaging (less technetium-99m labeled-Ceftizoxime uptake by infectious site). Infection reduction led to inflammatory process and pain decreases, as shown by immune cells recruitment reduction and threshold nociception increment, when compared to positive control group. Therefore, among the three shortened peptide derivatives, LyeTx I mnΔK is the best candidate as antimicrobial agent, due to its smaller amino acid sequence and toxicity, and its greater biological activity.     

Genome-wide DNA methylation profiling in rheumatoid arthritis identifies disease-associated methylation changes that are distinct to individual T- and B-lymphocyte populations

Changes to the DNA methylome have been described in patients with rheumatoid arthritis (RA). In previous work, we reported genome-wide methylation differences in T-lymphocyte and B-lymphocyte populations from healthy individuals. Now, using HumanMethylation450 BeadChips to interrogate genome-wide DNA methylation, we have determined disease-associated methylation changes in blood-derived T- and B-lymphocyte populations from 12 female patients with seropositive established RA, relative to 12 matched healthy individuals. Array data were analyzed using NIMBL software and bisulfite pyrosequencing was used to validate array candidates. Genome-wide DNA methylation, determined by analysis of LINE-1 sequences, revealed higher methylation in B-lymphocytes compared with T-lymphocytes (P ≤ 0.01), which is consistent with our findings in healthy individuals. Moreover, loci-specific methylation differences that distinguished T-lymphocytes from B-lymphocytes in healthy individuals were also apparent in RA patients. However, disease-associated methylation differences were also identified in RA. In these cases, we identified 509 and 252 CpGs in RA-derived T- and B-lymphocytes, respectively, that showed significant changes in methylation compared with their cognate healthy counterparts. Moreover, this included a restricted set of 32 CpGs in T-lymphocytes and 20 CpGs in B-lymphocytes (representing 15 and 10 genes, respectively, and including two, MGMT and CCS, that were common to both cell types) that displayed more substantial changes in methylation. These changes, apparent as hyper- or hypo-methylation, were independently confirmed by pyrosequencing analysis. Validation by pyrosequencing also revealed additional sites in some candidate genes that also displayed altered methylation in RA. In this first study of genome-wide DNA methylation in individual T- and B-lymphocyte populations in RA patients, we report disease-associated methylation changes that are distinct to each cell type and which support a role for discrete epigenetic regulation in this disease.     

Chronic Peripheral Inflammation Causes a Region-Specific Myeloid Response in the Central Nervous System

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Diagnosis of rheumatoid arthritis using light: correction of motion artefacts and color visualization of multispectral images

State‐of‐the‐art image‐processing methods offer new possibilities for diagnosing diseases using scattered light. The optical diagnosis of rheumatism is taken as an example to show that the diagnostic sensitivity can be improved using overlapped pseudocolored images of different wavelengths, provided that multispectral images are recorded to compensate for any motion‐related artefacts that occur during examination. (© 2010 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim)     

Methotrexate impacts conserved pathways in diverse human gut bacteria leading to decreased host immune activation

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Exosomes from human umbilical cord mesenchymal stem cells inhibit ROS production and cell apoptosis in human articular chondrocytes via the miR-100-5p/NOX4 axis

Cyclic strain-induced chondrocyte damage is actively involved in the pathogenesis of osteoarthritis and arthritis. MicroRNAs (miRNAs) carried by exosomes have been implicated in various diseases. However, the role of miR-100-5p in cyclic strain-induced chondrocyte damage remains to be elucidated. miR-100-5p and NADPH oxidase 4 (NOX4) were silenced or overexpressed in human primary articular chondrocytes. PKH-67 Dye was used to trace exosome endocytosis. Reactive oxygen species (ROS) production was monitored using DCFH-DA. Cell apoptosis was measured using a flow cytometer. Quantitative RT-PCR and Western blots were used to evaluate gene expression. Cyclic strain promoted ROS production and apoptosis in primary articular chondrocytes in a time-dependent manner. HucMSCs-derived exosomal miR-100-5p inhibited cyclic strain-induced ROS production and apoptosis in primary articular chondrocytes. miR-100-5p directly targeted NOX4. Overexpressing NOX4 attenuated hucMSCs-derived exosomes-mediated protective effects in primary articular chondrocytes. Cyclic strain promotes ROS production and apoptosis in primary articular chondrocytes, which was abolished by hucMSCs-derived exosomal miR-100-5p through its target NOX4. The findings highlight the importance of miR-100-5p/NOX4 axis in primary articular chondrocytes injury and provide new insights into therapeutic strategies for articular chondrocytes injury and osteoarthritis.     

Increased red blood cell distribution width in patients with plaque psoriasis

BackgroundRed blood cell distribution width (RDW) is frequently increased in inflammatory disorders, and the magnitude of its elevation correlates with disease severity. This study was hence aimed to explore RDW values in patients with psoriasis.MethodsThe study population consisted of 366 adult patients with mild to severe plaque psoriasis and 366 age- and sex-matched blood donor controls. For each psoriatic patient, demographic, clinical, and laboratory data were regularly collected.ResultsRDW and MCV were significantly higher in psoriatic patients compared to controls (13.95 vs. 13.40% and 90.4 vs. 89 fL; both p<0.01). In order to assess whether RDW elevations were related to psoriasis severity, we divided our psoriatic patient population into two groups based on a PASI cut-off of 10. No significant differences were observed between the two groups (i.e., PASI>10 and 10) in terms of RDW (p=0.36). Adopting different PASI cut-offs (i.e. 3, 5, 7, 12) did not result in statistically significant differences (p=0.93, 0.48, 0.22, 0.42, respectively). In linear regression analysis, no significant correlation was found between RDW and PASI or CRP, nor with age, gender, or the psoriasis comorbidities listed in Table I. Furthermore, no significant difference in RDW values was noted between psoriatic patients with and without PsA (p=0.27).ConclusionsThe results of this study confirm that RDW is elevated in psoriatic patients, though the magnitude of its increase did not appear to be associated with disease severity.