TNF autovaccination induces self anti-TNF antibodies and inhibits metastasis in a murine melanoma model

TNF is a proinflammatory cytokine involved in the pathogenesis of chronic inflammatory diseases, but also in metastasis in certain types of cancer. In terms of therapy, TNF is targeted by anti-TNF neutralising monoclonal antibodies or soluble TNF receptors. Recently, a novel strategy based on the generation of self anti-TNF antibodies (TNF autovaccination) has been developed. We have previously shown that TNF autovaccination successfully generates high anti-TNF antibody titres, blocks TNF and ameliorates collagen-induced arthritis in DBA/1 mice. In this study, we examined the ability of TNF autovaccination to generate anti-TNF antibody titres and block metastasis in the murine B16F10 melanoma model. We found that immunisation of C57BL/6 mice with TNF autovaccine produces a 100-fold antibody response to TNF compared to immunisation with phosphate-buffered saline vehicle control and significantly reduces both the number (P<0.01) and size of metastases (P<0.01) of B16F10 melanoma cells. This effect is also observed when an anti-TNF neutralising monoclonal antibody is administered, confirming the essential role TNF plays in metastasis in this model. This study suggests that TNF autovaccination is a cheaper and highly efficient alternative that can block TNF and reduce metastasis in vivo and trials with TNF autovaccination are already underway in patients with metastatic cancer

Illness management and recovery (IMR) in Danish community mental health centres

<p>Abstract</p> <p>Background</p> <p>Schizophrenia and bipolar disorder are severe mental illnesses that can have a significant disabling impact on the lives of people. Psychosocial interventions that stress hope and recovery as a part of a multi-dimensional approach are possibly indicated to support people with severe mental illness in facilitating recovery. Illness Management and Recovery (IMR) is a curriculum-based psychosocial intervention designed as structured program with a recovery-oriented approach. The aim of IMR is to rehabilitate people with severe mental illnesses by helping them acquire knowledge and skills in managing their illness and achieve personal recovery goals. Previous randomised clinical trials indicate that IMR can be implemented with a good effect and a high fidelity though further trials are crucial to demonstrate the potential effectiveness of IMR.</p> <p>Methods/Design</p> <p>The trial design is a randomised, assessor-blinded, multi-centre, clinical trial of the IMR program compared with treatment as usual for 200 participants diagnosed with schizophrenia or bipolar disorder under the care of two community mental health centres in the Capital Region of Denmark. The primary outcome is level of functioning at the end of treatment. The secondary outcomes are disease symptoms; use of alcohol/drugs; individual meaning of recovery; hope; hospital admissions and out-patient psychiatric treatment at the end of treatment and the abovementioned and level of functioning at follow-up 21 months after baseline.</p> <p>Discussion</p> <p>If the results of this trial show IMR to be effective these positive results will strengthen the evidence of IMR as an effective comprehensive psychosocial intervention with a recovery-oriented approach for people with severe mental illness. This will have significant implications for the treatment and recovery of people with severe mental illness.</p> <p>Trial registration</p> <p>Registration number <a href="http://www.clinicaltrials.gov/ct2/show/NCT01361698">NCT01361698</a>.</p

MHC class II-bound self-peptides can be effectively separated by isoelectric focusing and bind optimally to their MHC class II restriction elements around pH 5.0.

More than 90% of the major histocompatibility complex (MHC) class II molecules on antigen-presenting cells (APC) have in their binding site a peptide derived from an extracellular protein ingested by the APC or from a protein of the APC itself. These self-peptides can be eluted from affinity-purified MHC class II molecules by acid elution, and have been studied with a variety of techniques. We show here that the self-peptides eluted from the mouse MHC class II molecules Ad, Ed and Ek bind specifically to MHC class II molecules of the allelic type from which they were derived. The pH optimum for binding is around 5.0, i.e. the same optimum at which synthetic peptides representing sequences of foreign antigens bind to MHC class II molecules. This suggests that the physiological compartment where MHC class II molecules bind self-peptides may be very late in the endocytic pathway. The chemical properties of the eluted and labelled MHC class II peptides were studied by isoelectric focusing. This method was able to separate the peptides very efficiently, and enabled a rapid comparison of peptides eluted from different MHC molecules. The 125I-labelled peptides displayed a broad range of isoelectric points with values predominantly below neutral. This suggests that such peptides bind to MHC in a predominantly non-charged state

Anti-IL-17A Autovaccination Prevents Clinical and Histological Manifestations of Experimental Autoimmune Encephalomyelitis

Excessive or inappropriate production of IL-17A has been reported in diseases such as rheumatoid arthritis, asthma, and multiple sclerosis. The potential clinical relevance of these correlations was suggested by the protective effects of anti-IL-17A monoclonal antibodies in various mouse disease models. However, the chronic nature of the corresponding human afflictions raises great challenges for Ab-based therapies. An alternative to passive Ab therapy is autovaccination. Covalent association of self-cytokines with foreign proteins has been reported to induce the production of antibodies capable of neutralizing the biological activity of the target cytokine. We recently reported that cross-linking of IL-17A to ovalbumin produced highly immunogenic complexes that induced long-lasting IL-17A-neutralizing antibodies. Vaccinated SJL mice were completely protected against experimental autoimmune encephalomyelitis (EAE) induced by proteolipid protein peptide (PLP 139-151), and a monoclonal anti-IL-17A Ab (MM17F3), derived from C57Bl/6 mice vaccinated against IL-17A-OVA, also prevented disease development. Here we report that this Ab also protects C57Bl/6 mice from myelin oligdendrocyte glycoprotein (MOG)-induced EAE. Histological analysis of brain sections of C57Bl/6 mice treated with MM17F3 showed a complete absence of inflammatory infiltrates and evidence for a marked inhibition of chemokine and cytokine messages in the spinal cord. These results further extend the analytical and therapeutic potential of the autovaccine procedure

Therapeutic antibodies elicited by immunization against TNF-alpha.

Tumor necrosis factor-alpha (TNF-alpha) is critically involved in the pathogenesis of several chronic inflammatory diseases. Monoclonal antibodies against TNF-alpha are currently used for the treatment of rheumatoid arthritis and Crohn's disease. This report describes a simple and effective method for active immunization against self TNF-alpha. This vaccination approach leads to a T-cell-dependent polyclonal and sustainable anti-TNF-alpha autoantibody response that declines upon discontinuation of booster injections. The autoantibodies are elicited by injecting modified recombinant TNF-alpha molecules containing foreign immunodominant T-helper epitopes. In mice immunized with such molecules, the symptoms of experimental cachexia and type II collagen-induced arthritis are ameliorated. These results suggest that vaccination against TNF-alpha may be a useful approach for the treatment of rheumatoid arthritis and other chronic inflammatory diseases