MIF Participates in Toxoplasma gondii-Induced Pathology Following Oral Infection

BACKGROUND: Macrophage migration inhibitory factor (MIF) is essential for controlling parasite burden and survival in a model of systemic Toxoplasma gondii infection. Peroral T. gondii infection induces small intestine necrosis and death in susceptible hosts, and in many aspects resembles inflammatory bowel disease (IBD). Considering the critical role of MIF in the pathogenesis of IBD, we hypothesized that MIF participates in the inflammatory response induced by oral infection with T. gondii. METHODOLOGY/PRINCIPAL FINDINGS: Mif deficient (Mif(-/-)) and wild-type mice in the C57Bl/6 background were orally infected with T. gondii strain ME49. Mif(-/-) mice had reduced lethality, ileal inflammation and tissue damage despite of an increased intestinal parasite load compared to wt mice. Lack of MIF caused a reduction of TNF-α, IL-12, IFN-γ and IL-23 and an increased expression of IL-22 in ileal mucosa. Moreover, suppressed pro-inflammatory responses at the ileal mucosa observed in Mif(-/-) mice was not due to upregulation of IL-4, IL-10 or TGF-β. MIF also affected the expression of matrix metalloproteinase-9 (MMP-9) but not MMP-2 in the intestine of infected mice. Signs of systemic inflammation including the increased concentrations of inflammatory cytokines in the plasma and liver damage were less pronounced in Mif(-/-) mice compared to wild-type mice. CONCLUSION/SIGNIFICANCE: In conclusion, our data suggested that in susceptible hosts MIF controls T. gondii infection with the cost of increasing local and systemic inflammation, tissue damage and death

Local microbleeding facilitates IL-6– and IL-17–dependent arthritis in the absence of tissue antigen recognition by activated T cells

Local microbleeding induces the accumulation of Th17 cells and the development of IL-17– and IL-6–dependent arthritis in the absence of cognate antigen recognition by CD4+ T cells

Textile Industry Hazard Identification and Risk Assessment by Using HAZAN Method

Background: Today with industry growth, hazards are increasing. The most important parts of these industries are human resources and employees, that face with many various hazards. Therefore, in order to protect and increase the productivity these hazards must be identified and analyzed to be controlled. Methods: The present study focused on hazard identification and risk assessment in spinning sector of a textile industry as one of the important and strategic industries by using HAZAN method.  For data gathering, different methods including HAZAN worksheet, risk detecting checklist, walking, talking, process plots and documents were used, and then risk assessment was carried out. Results: The finding represented 102 risks in the production line. Most of the risks were found in ring section (n=33), Flyer (n=26), Autoconer (n=18), Tightening (n=15) and Packing (n=10) respectively. 20.59% of these risks were 2nd rank (undesirable), 16.67% were 3rd rank (acceptable if controlled) and 62.74% were 4th rank (acceptable). In addition, high-risk jobs were feeding the empty bobbin during the shift and bobbin handling from the Autoconer unit. Also, analyses were performed based on the risk assessment method and statistical tests were not required. Conclusion: The 4th rank risk was the largest group that’s acceptable. It is notable that 2nd risk rank should be turned into 3rd risk rank in reliable time. For 3rd risk rank making sure that existing control is in place is sufficient. For making a safe work environment and increasing productivity, minimizing risk by safety training and other measures are useful.</jats:p

Plasmacytoid dendritic cells regulate breach of self-tolerance in autoimmune arthritis

Achieving remission in rheumatoid arthritis (RA) remains elusive despite current biological therapeutics. Consequently, interest has increased in strategies to re-establish immune tolerance to provide long-term disease suppression. Although dendritic cells (DC) are prime candidates in initiating autoreactive T cell responses, and their presence within the synovial environment suggests a role in generation and maintenance of autoreactive, synovial T cell responses, their functional importance remains unclear. We investigated the contribution made by plasmacytoid DCs (pDCs) in the spontaneous breach of tolerance to arthritis-related self proteins, including rheumatoid factor, citrullinated peptide, and type II collagen observed in a novel arthritis model. Selective pDC depletion in vivo enhanced the severity of articular pathology and enhanced T and B cell autoimmune responses against type II collagen. pDC may offer a net anti-inflammatory function in the context of articular breach of tolerance. Such data will be vital in informing DC modulatory/therapeutic approaches

Plasmacytoid dendritic cells regulate breach of self-tolerance in autoimmune arthritis

Achieving remission in rheumatoid arthritis (RA) remains elusive despite current biological therapeutics. Consequently, interest has increased in strategies to re-establish immune tolerance to provide long-term disease suppression. Although dendritic cells (DC) are prime candidates in initiating autoreactive T cell responses, and their presence within the synovial environment suggests a role in generation and maintenance of autoreactive, synovial T cell responses, their functional importance remains unclear. We investigated the contribution made by plasmacytoid DCs (pDCs) in the spontaneous breach of tolerance to arthritis-related self proteins, including rheumatoid factor, citrullinated peptide, and type II collagen observed in a novel arthritis model. Selective pDC depletion in vivo enhanced the severity of articular pathology and enhanced T and B cell autoimmune responses against type II collagen. pDC may offer a net anti-inflammatory function in the context of articular breach of tolerance. Such data will be vital in informing DC modulatory/therapeutic approaches

Intestinal pathology during acute toxoplasmosis is IL-4 dependent and unrelated to parasite burden

The role of interleukin-4 (IL-4) during the course of Toxoplasma gondii infection was studied using IL-4-/- mice and their wild-type (WT) counterparts on a C57BL/6 background. Following oral infection with T. gondii tissue cysts an exacerbative role for IL-4 was demonstrated and IL-4-/- mice were found to be more resistant to infection than WT mice as measured by significantly reduced mortality. Furthermore pathology in the small intestine was less severe in IL-4-/- mice although conversely liver pathology was greater than in wild-type mice. Significantly, plasma IL-12 and IFN-gamma levels, which peaked at days 6 and 8, respectively, were higher in IL-4-/- mice. The exacerbatory role of IL-4 in the intestine was found by competitive RT-PCR not to be associated with increased parasite burdens but was related to comparative expression of IL-10

Autofluorescence lifetime reports cartilage damage in osteoarthritis

Osteoarthritis (OA) is the most common arthritis and its hallmark is degradation of articular cartilage by proteolytic enzymes leading to loss of joint function. It is challenging to monitor the status of cartilage in vivo and this study explores the use of autofluorescence lifetime (AFL) measurements to provide a label-free optical readout of cartilage degradation that could enable earlier detection and evaluation of potential therapies. We previously reported that treatment of ex vivo porcine cartilage with proteolytic enzymes resulted in decreased AFL. Here we report changes in AFL of ex vivo mouse knee joints, porcine metacarpophalangeal joints, normal human metatarsophalangeal articular tissue and human OA tibial plateau tissues measured with or without treatment using a compact single-point time resolved spectrofluorometer. Our data show that proteolytically damaged areas in porcine metacarpophalangeal joints present a reduced AFL and that inducing aggrecanases in mouse and human joints also significantly reduces AFL. Further, human cartilage from OA patients presents a significantly lower AFL compared to normal human cartilage. Our data suggest that AFL can detect areas of cartilage erosion and may potentially be utilised as a minimally-invasive diagnostic readout for early stage OA in combination with arthroscopy devices

Immunomodulatory role of proteinase-activated receptor-2

&lt;p&gt;Objective Proteinase-activated receptor-2 (PAR2) has been implicated in inflammatory articular pathology. Using the collagen-induced arthritis model (CIA) the authors have explored the capacity of PAR2 to regulate adaptive immune pathways that could promote autoimmune mediated articular damage.&lt;/p&gt; &lt;p&gt;Methods Using PAR2 gene deletion and other approaches to inhibit or prevent PAR2 activation, the development and progression of CIA were assessed via clinical and histological scores together with ex vivo immune analyses.&lt;/p&gt; &lt;p&gt;Results The progression of CIA, assessed by arthritic score and histological assessment of joint damage, was significantly (p&#60;0.0001) abrogated in PAR2 deficient mice or in wild-type mice administered either a PAR2 antagonist (ENMD-1068) or a PAR2 neutralising antibody (SAM11). Lymph node derived cell suspensions from PAR2 deficient mice were found to produce significantly less interleukin (IL)-17 and IFNγ in ex vivo recall collagen stimulation assays compared with wild-type littermates. In addition, substantial inhibition of TNFα, IL-6, IL-1β and IL-12 along with GM-CSF and MIP-1α was observed. However, spleen and lymph node histology did not differ between groups nor was any difference detected in draining lymph node cell subsets. Anticollagen antibody titres were significantly lower in PAR2 deficient mice.&lt;/p&gt; &lt;p&gt;Conclusion These data support an important role for PAR2 in the pathogenesis of CIA and suggest an immunomodulatory role for this receptor in an adaptive model of inflammatory arthritis. PAR2 antagonism may offer future potential for the management of inflammatory arthritides in which a proteinase rich environment prevails.&lt;/p&gt

Autofluorescence lifetime reports cartilage damage in osteoarthritis

Osteoarthritis (OA) is the most common arthritis and its hallmark is degradation of articular cartilage by proteolytic enzymes leading to loss of joint function. It is challenging to monitor the status of cartilage in vivo and this study explores the use of autofluorescence lifetime (AFL) measurements to provide a label-free optical readout of cartilage degradation that could enable earlier detection and evaluation of potential therapies. We previously reported that treatment of ex vivo porcine cartilage with proteolytic enzymes resulted in decreased AFL. Here we report changes in AFL of ex vivo mouse knee joints, porcine metacarpophalangeal joints, normal human metatarsophalangeal articular tissue and human OA tibial plateau tissues measured with or without treatment using a compact single-point time resolved spectrofluorometer. Our data show that proteolytically damaged areas in porcine metacarpophalangeal joints present a reduced AFL and that inducing aggrecanases in mouse and human joints also significantly reduces AFL. Further, human cartilage from OA patients presents a significantly lower AFL compared to normal human cartilage. Our data suggest that AFL can detect areas of cartilage erosion and may potentially be utilised as a minimally-invasive diagnostic readout for early stage OA in combination with arthroscopy devices

TNF-blocking therapies: an alternative mode of action?

Despite expanding use of drugs blocking tumour necrosis factor (TNF), their precise mechanisms of action remain unclear. Early assumptions that they act by direct neutralization of the toxic inflammatory effects of TNF might be too simplistic because they explain neither the range of effects observed nor the varying properties of different TNF-blocking agents. Recent studies have demonstrated a key role for mast cell-derived TNF in the increase in lymph node size and the organizational complexity that accompanies a developing immune response. Regulation of this phenomenon might comprise a novel mode of action for TNF-directed therapy: by preventing this lymph node hyperplasia, TNF blockade could modulate immune responses, ameliorating pathology in autoimmune diseases, such as rheumatoid arthritis