Role of plasminogen activator inhibitor – 1 (PAI-1) in regulating the pathogenesis of S. aureus arthritis via plasminogen pathway

Neutralization of IL-17 and treatment with IL-2 protects septic arthritis by regulating free radical production and antioxidant enzymes in Th17 and Tregs: An immunomodulatory TLR2 versus TNFR response

Septic arthritis is a destructive joint disease caused by Staphylococcus aureus. Synovial inflammation involved Th17 proliferation and down regulation of Treg population, thus resolution of inflammation targeting IL-17 may be important to control arthritis. Endogenous inhibition of IL-17 to regulate arthritic inflammation correlating with Th17/Treg cells TLR2 and TNFRs are not done. The role of SOD, CAT and GRx in relation to ROS production during arthritis along with expression of TLR2, TNFR1/TNFR2 in Th17/Treg cells of mice treated with IL-17A Ab/ IL-2 were studied. Increased ROS, reduced antioxidant enzyme activity was found in Th17 cells of SA infected mice whereas Treg cells of IL-17A Ab/ IL-2 treated group showed opposite effects. Neutralization of IL-17 after arthritis cause decreased TNFR1 and increased TNFR2 expression in Treg cells. Thus, neutralization of IL-17 or IL-2 treatment regulates septic arthritis by enhancing anti-inflammatory properties of Treg via antioxidant balance and modulating TLR2/TNFR response.

Sevoflurane leads to learning and memory dysfunction via breaking the balance of tPA/PAI-1

Exposure to general anesthesia in early childhood may lead to adverse effects on adolescent neurocognition. This study investigated the effects of multiple inhalations of sevoflurane on long-term learning and memory in developing rats, and explored the mechanistic role of the tissue plasminogen activator (tPA)/plasminogen activator inhibitor-1 (PAI-1) fibrinolysis system and its regulatory relationship with the brain derived neurotrophic factor (BDNF) by activation of tropomysin related kinase B (TrkB). After rats were inhaled with sevoflurane for 2 h/d for three days, the expression levels of tPA, PAI-1, BDNF, its precursor(proBDNF), TrkB and phosphorylation of TrkB (p-TrkB) were detected at different time points. After 28 d, Morris water maze was used to examine learning and memory function; Golgi staining was used to investigate synaptic plasticity and synaptic-related proteins, such as Synapsin I(SYN1), growth associated protein 43(GAP-43), and postsynaptic density protein 95(PSD-95). Rats were given exogenous tPA and an inhibitor of PAI-1, TM5275. The results showed multiple inhalation of sevoflurane led to learning and memory dysfunction, downregulated the expression of the synaptic-related proteins, decreased dendritic spine density in the hippocampus, increased the expression level of proBDNF and PAI-1, and reduced expression of BDNF, tPA, and p-TrkB. Interestingly, tPA or TM5275 partially reversed the learning and memory dysfunction and the reduction of synaptic plasticity induced by sevoflurane exposure. Furthermore, they blocked the upregulation of proBDNF and PAI-1 protein expression and increased the expression of BDNF, tPA, and p-TrkB. The protective effect of tPA or TM5275 on rats following multiple sevoflurane inhalation was blocked by a TrkB inhibitor. Multiple inhalation of sevoflurane in rats inhibited the cleavage of proBDNF by disrupting the balance of the tPA/PAI-1 fibrinolysis system. This blocked the activation of the downstream TrkB signaling pathway and reduced hippocampal synaptic plasticity, leading to long-term learning and memory dysfunction. Therefore, Sevoflurane exposure could lead to learning and memory dysfunction by inhibiting BDNF cleavage via breaking the balance of tPA/PAI-1.

Etoposide-mediated depletion of peripheral blood monocytes post s.aureus infection attenuates septic arthritis by modulating macrophage-derived factors responsible for inflammatory destruction

S.aureus induced septic arthritis remains a serious medical concern due to its rapidly progressive disease profile. The multidrug resistant nature of S.aureus demands the development of new strategies for the treatment of S.aureus arthritis. Since monocyte/macrophage population has been recognized as an important axis in joint inflammation and destruction, selective depletion of peripheral blood monocytes might influence the outcome and progression of the disease. Therefore, in this study we have put forward the concept of monocyte depletion by using etoposide, a drug that selectively depletes the monocyte/macrophage population. Mice were inoculated with live S.aureus for the development of septic arthritis. Post S.aureus infection, etoposide was subcutaneously injected. The severity of arthritis was found to be significantly low in the etoposide treated mice throughout the course. Arthritis index, histopathological analysis and TRAP staining images confirmed effectiveness of etoposide treatment in regulating inflammation and bone cartilage destruction. Lower levels of inflammatory cytokines, ROS, MMP-2, RANKL, OPN and plasmin reflected less severe arthritic destruction after etoposide treatment in arthritic mice. The bacterial load was not increased after etoposide treatment. Together, the presented data suggested that monocyte depletion by etoposide might represent an alternative therapeutic strategy for the treatment of S.aureus arthritis.

Potential anti-arthritic and anti-inflammatory effects of TNF-α processing inhibitor-1 (TAPI-1): A new approach to the treatment of S. aureus arthritis

Treatment of septic arthritis has become more challenging due to the rise of multidrug resistant strains of Staphylococcus aureus (S. aureus) in recent years. Failure of antibiotic therapies has compelled to initiate the search for new alternatives. This study aimed to unveil the potential anti-arthritic effects of TAPI-1 (TNF-α processing inhibitor-1), an inhibitor that inhibits TACE (TNF-α converting enzyme) mediated release of soluble TNF-α and its receptors along with attenuation of other inflammatory and joint destructive factors responsible for the progression of arthritis. Male Swiss albino mice were inoculated with live S. aureus (5 × 10⁶ cells/mouse) for the development of septic arthritis. TAPI-1 was administered intraperitoneally (10 mg/kg body weight) post S. aureus infection at regular intervals. Throughout the experiment, the severity of arthritis was obtained to be significantly low after TAPI-1 administration. Arthritis index and histopathology confirmed effectiveness of TAPI-1 in mitigating inflammation induced paw swelling and less bone-cartilage destruction in the arthritic knee joints. Lower levels of soluble tumor necrosis factor alpha (sTNF-α) and soluble tumor necrosis factor alpha receptor-1 (sTNFR-1) were detected in the TAPI-1 treated group suggesting TAPI-1 mediated blocking of TACE with subsequent inhibition of TNF-α signalling. Treatment with TAPI-1 lowered the levels of reactive species; matrix metalloproteinase-2 (MMP-2), receptor activator of nuclear factor kappa-B ligand (RANKL) and osteopontin (OPN) denoting less matrix degradation and less osteoclastic bone resorption. Together, this experimental work authenticates TAPI-1 as an alternative therapeutic intervention for the treatment of S. aureus arthritis.