Crowned dens syndrome-case of crystal deposition in cervical spine.

Neck pain can be very bothersome for patients, and most will seek analgesic relief as soon as possible. We present a case of crystal deposition in the cervical spine where a frail patient admitted for pneumonia developed severe neck pain raising suspicion of discitis, and did not respond to standard analgesic medications. Investigations revealed crystal deposition around the dens and alar ligaments (C1 and C2 Spine) suggestive of crowned dens syndrome, which responded promptly to steroid therapy and averting the patient from invasive investigations and intense treatment with antibiotics.

Combining the antigen processing components TAP and Tapasin elicits enhanced tumor-free survival.

PURPOSE: Tpn is a member of the MHC class I loading complex and functions to bridge the TAP peptide transporter to MHC class I molecules. Metastatic human carcinomas often express low levels of the antigen-processing components Tapasin and TAP and display few functional surface MHC class I molecules. As a result, carcinomas are unrecognizable by effector CTLs. The aim of this study is to examine if Tapasin (Tpn) plays a critical role in the escape of tumors from immunologic recognition. EXPERIMENTAL DESIGN: To test our hypothesis, a nonreplicating adenovirus vector encoding human Tpn (AdhTpn) was constructed to restore Tpn expression in vitro and in vivo in a murine lung carcinoma cell line (CMT.64) that is characterized by down-regulation of surface MHC class I due to deficiency in antigen-processing components. RESULTS: Ex vivo, Tpn expression increased surface MHC class I and restored susceptibility of tumor cells to antigen-specific CTL killing, and AdhTpn infection of dendritic cells also significantly increased cross-presentation and cross-priming. Furthermore, tumor-bearing animals inoculated with AdhTpn demonstrated a significant increase in CD8(+) and CD4(+) T cells and CD11c(+) dendritic cells infiltrating the tumors. Provocatively, whereas syngeneic mice bearing tumors that were inoculated with AdhTpn a significant reduction in tumor growth and increased survival compared with vector controls, combining AdhTpn inoculation with AdhTAP1 resulted in a significant augmentation of protection from tumor-induced death than either component alone. CONCLUSIONS: This is the first demonstration that Tpn alone can enhance survival and immunity against tumors but additionally suggests that Tpn and TAP should be used together as components of immunotherapeutic vaccine protocols to eradicate tumors.

Switching patients with inflammatory arthritis from Etanercept (Enbrel®) to the biosimilar drug, SB4 (Benepali®): A single-centre retrospective observational study in the UK and a review of the literature.

OBJECTIVE/AIM: SB4 (Benepali®), the Etanercept biosimilar, is licenced in the UK for the same indications as the reference product, Enbrel®. In 2016, the Rheumatology Department at Blackpool Teaching Hospitals switched the Etanercept patients, who gave consent, to SB4. A proportion of these patients switched back to Etanercept and therefore we aimed to investigate the reasons of SB4 withdrawal and compare our results with the current evidence. METHODS: We included all the patients switched to SB4 until April 2018, identified from the departmental biologics database. We also searched the published and grey literature through November 2018 for similar articles. RESULTS: 72 Etanercept patients switched to SB4, of which 19 (26.4%) switched back to Etanercept within 6 months on the biosimilar product. All the 19 patients remained on Etanercept until the time of data analysis. The main reason of withdrawal was loss of effect (LOE, 58%). In RA, the duration on Etanercept was associated with SB4 withdrawal (OR 1.43 [95% CI 1.02, 2.00]) and LOE was reflected in the DAS- 28, PGS and CRP increase and in the number of tender joints (all p <0.05). We found ten observational studies reporting 3184 patients, who switched from Etanercept to SB4 and 432 of them (14%) stopped SB4. CONCLUSION: The majority (73.6%) stayed on SB4, which is consistent with the current evidence. Taking also into consideration the results of the other studies, it is unclear if this withdrawal is a true failure on SB4, nocebo effect or spontaneous disease flare.

Abeta peptide immunization restores blood-brain barrier integrity in Alzheimer disease.

Immunization with amyloid beta (Abeta) peptides or passive immunization with antibodies against Abeta has been reported to reduce plaque burden, neuritic dystrophy, early Tau pathology, microgliosis as well as reversing learning and memory deficits. This has created a central paradox: how does vaccination in peripheral tissues reduce plaque burden in the brain? No single explanation for these phenomena has yet been presented. To reconcile these observations, we demonstrate that the integrity of the blood-brain barrier (BBB), a structural barrier between the brain and the blood, is compromised in Tg2576 Alzheimer disease (AD) model mice. We immunized Tg2576 mice with Abeta before and after the onset of AD-type neuropathology and observed that BBB permeability, amyloid burden, and microgliosis are decreased in immunized mice. It is concluded that the integrity of the BBB is disrupted in AD mice, and after Abeta immunization the immune system clears Abeta from sources in the brain as it would in peripheral organs lacking barriers. Once Abeta is removed, the integrity of the BBB is restored. The data therefore provide an intellectual framework for understanding how the immune system can clear amyloid deposits from AD brains and suggest new strategies for limiting disease progression in amyloidopathies.

Restoration of the expression of transporters associated with antigen processing in lung carcinoma increases tumor-specific immune responses and survival.

A wide variety of human carcinomas have low expression of tumor-associated antigen presentation in the context of MHC class I antigens due to defects in the antigen presentation pathway. This immune evasion mechanism renders many tumors unrecognizable by host immune surveillance mechanisms. The present study examines the expression of HLA, tapasin, transporter associated with antigen processing 1 (TAP1), and beta2 microglobulin in human small cell lung carcinoma and non-small cell lung carcinoma. Immunohistochemical staining showed severe impairment of the antigen presentation pathway in all patients. In order to recover tumor immunogenicity, a nonreplicating adenovirus expressing human TAP1 (AdhTAP1) was used to restore the expression of TAP1 in the antigen presentation pathway-deficient mouse lung carcinoma cell line, CMT.64. Infection of CMT.64 cells with AdhTAP1 increased MHC class I antigen surface expression, antigen presentation, and susceptibility to antigen-specific CTLs. Fluorescence-activated cell sorting and ELISPOT analysis showed that AdhTAP1 treatment significantly increased dendritic cell cross-presentation and cross-priming of tumor antigens. Furthermore, ex vivo and in vivo AdhTAP1 treatment significantly retarded tumor growth and increased survival of mice bearing CMT.64 tumors. Fluorescence-activated cell sorting analysis and immunohistochemical staining showed a significant increase in CD8+ and CD4+ T cells and CD11c+ dendritic cells infiltrating the tumors. The results show that TAP should be considered as a part of the immunotherapies for various cancers because it is likely to provide a general method for increasing immune responses against tumors regardless of the antigenic composition of the tumor or the MHC haplotypes of the host.

Interplay Of Stereochemistry, Conformational Rigidity, And Ease Of Synthesis For 13-Membered Cyclic Peptidomimetics Containing APC Residues.

As part of a program to design small molecules that bind proteins, we require cyclic peptides (or peptidomimetics) that are severely constrained such that they adopt one predominant conformation in solution. This paper describes syntheses of the 13-membered cyclic tetrapeptides 1 containing aminopyrrolidine carboxyl (APC) residues. A linear precursor was prepared and used to determine optimal conditions for cyclization of that substrate. A special linker was prepared to enable cyclization of similar linear peptidomimetics on a solid phase, and the solution-phase cyclization conditions were shown to be appropriate for this too. Stereochemical variations were then used to determine the ideal APC configuration for cyclization of the linear precursors (on a solid phase, using the conditions identified previously). Consequently, a series of compounds were prepared that are representative of compounds 1. Conformational studies of representative compounds in DMSO solution were performed primarily using (i) NOE studies, (ii) quenched molecular dynamics simulations using no constraints from experiment, and (iii) MacroModel calculations with NMR constraints. All three strategies converged to the same conclusion: the backbone of molecules based on 1 tends to adopt one preferential conformation in solution and that conformation can be predicted from the stereochemistries of the α-amino acids involved.

TAP expression reduces IL-10 expressing tumor infiltrating lymphocytes and restores immunosurveillance against melanoma.

Many immune therapeutic strategies are under development for melanoma to treat metastatic disease and prevent disease reoccurrence. However, human melanoma cells are often deficient in antigen processing and this appears to play a role in their expansion and escape from immunosurveillance. For example, expression of the transporters associated with antigen processing (TAP1 and TAP2) is down-regulated in the mouse melanoma cell line B16F10. This results in a lack of tumor-associated antigen processing, low surface expression of MHC Class I molecules and low immunogenicity. We observe that restoration of TAP1 expression by transfection resurrects the processing and presentation of viral antigens, and the melanoma-associated antigen, TRP-2. Immunization with irradiated B16F10/rTAP1 transfected cells generates CTLs that are capable of killing B16F10/rTAP1 transfected targets and B16F10 targets deficient in TAP1. Furthermore, B16F10/rTAP1 transfectants grow at a significantly slower rate in mice than B16F10 cells. In an experimental model that closely recapitulates the clinical situation, treatment of B16F10 tumors in mice with a vaccinia virus vector expressing TAP1 also significantly decreases tumor growth in vivo. Furthermore, tumors treated with vaccinia TAP1 had significantly reduced numbers of immunosuppressive, CD3(+)/IL-10 positive, tumor infiltrating lymphocytes. Therefore, TAP1 expression restores both antigen presentation and immunogenicity in B16F10 melanoma cells and concomitantly reduces immunosuppressive IL-10 production at the local tumor site, thereby increasing immunosurveillance mechanisms against tumors.

Tumour immunity and T cell memory are induced by low dose inoculation with a non-replicating adenovirus encoding TAP1.

Despite continued progress in understanding the pathophysiology of tumours, curative therapeutic options are still lacking for the metastatic form of the disease. One approach that has gathered considerable interest is the creation of therapeutic vaccines using genetically engineered non-replicating viruses as vehicles to revive immunosurveillance mechanisms that may eradicate residual tumour cells. A perceived problem with this approach is that the number of non-replicating viruses used as a vaccine inoculum does not remotely approximate the total number of cells in the body, nor even the number of tumour cells in the case of large tumour burden or metastasis. Here, we addressed the hypothesis that a limited amount of inoculum (1x10(8) PFU) of recombinant non-replicating adenovirus encoding human TAP1 (AdhTAP1) can induce protective immunity against 1.5x10(5) TAP-deficient, metastatic melanoma cells transplanted into a normal mouse (total of approximately 1x10(11) body cells). We show that efficacious anti-tumour cytolytic T cell responses are indeed induced by injecting melanoma-bearing animals with small numbers of recombinant viruses, resulting in increases in tumour-infiltrating dendritic cells, enhanced memory T cell subpopulations and, most importantly, in increased animal survival. This novel approach uses a limited input inoculum relative to the tumour cell mass, and thus achieves an efficacious outcome that has so far eluded other vaccine, immunotherapeutic or gene therapeutic strategies where there is a requisite for the majority of tumour cells to be transduced for beneficial outcome to be achieved.