New insight in the relationship between regional patterns of knee cartilage thickness, osteoarthritis disease severity, and gait mechanics.

To test if the relationship between knee kinetics during walking and regional patterns of cartilage thickness is influenced by disease severity we tested the following hypotheses in a cross-sectional study of medial compartment osteoarthritis (OA) subjects: (1) the peak knee flexion (KFM) and adduction moments (KAM) during walking are associated with regional cartilage thickness and medial-to-lateral cartilage thickness ratios, and (2) the associations between knee moments and cartilage thickness data are dependent on disease severity. Seventy individuals with medial compartment knee OA were studied. Gait analysis was used to determine the knee moments and cartilage thickness was measured from magnetic resonance imaging. Multiple linear regression analyses tested for associations between cartilage thickness and knee kinetics. Medial cartilage thickness and medial-to-lateral cartilage thickness ratios were lower in subjects with greater KAM for specific regions of the femoral condyle and tibial plateau with no associations for KFM in patients of all disease severities. When separated by severity, the association between KAM and cartilage thickness was found only in patients with more severe OA, and KFM was significantly associated with cartilage thickness only for the less severe OA subjects for specific tibial plateau regions. The results support the idea that the KAM is larger in patients with more severe disease and the KFM has greater influence early in the disease process, which may lessen as pain increases with disease severity. Each component influences different regions of cartilage. Thus the relative contributions of both KAM and KFM should be considered when evaluating gait mechanics and the influence of any intervention for knee OA.

T Cells Bearing a Chimeric Antigen Receptor against Prostate-Specific Membrane Antigen Mediate Vascular Disruption and Result in Tumor Regression.

Aberrant blood vessels enable tumor growth, provide a barrier to immune infiltration, and serve as a source of protumorigenic signals. Targeting tumor blood vessels for destruction, or tumor vascular disruption therapy, can therefore provide significant therapeutic benefit. Here, we describe the ability of chimeric antigen receptor (CAR)-bearing T cells to recognize human prostate-specific membrane antigen (hPSMA) on endothelial targets in vitro as well as in vivo. CAR T cells were generated using the anti-PSMA scFv, J591, and the intracellular signaling domains: CD3ζ, CD28, and/or CD137/4-1BB. We found that all anti-hPSMA CAR T cells recognized and eliminated PSMA(+) endothelial targets in vitro, regardless of the signaling domain. T cells bearing the third-generation anti-hPSMA CAR, P28BBζ, were able to recognize and kill primary human endothelial cells isolated from gynecologic cancers. In addition, the P28BBζ CAR T cells mediated regression of hPSMA-expressing vascular neoplasms in mice. Finally, in murine models of ovarian cancers populated by murine vessels expressing hPSMA, the P28BBζ CAR T cells were able to ablate PSMA(+) vessels, cause secondary depletion of tumor cells, and reduce tumor burden. Taken together, these results provide a strong rationale for the use of CAR T cells as agents of tumor vascular disruption, specifically those targeting PSMA. Cancer Immunol Res; 3(1); 68-84. ©2014 AACR.

Development and preclinical assessment of a bioartificial pancreas.

Transplantation of insulin secreting cells is regarded as a possible treatment for type 1 diabetes. One major difficulty in this approach is, however, that the transplanted cells are exposed to the patient's inflammatory and autoimmune environment, which originally destroyed their own beta-cells. Therefore, even if a good source of insulin-secreting cells can be identified for transplantation therapy, these cells need to be protected against these destructive influences. The aim of this project was to evaluate, using a clonal mouse beta-cell line, whether genetic engineering of protective genes could be a viable option to allow these cells to survive when transplanted into autoimmune diabetic mice. We demonstrated that transfer of the Bcl-2 anti-apoptotic gene and of several genes specifically interfering with cytokines intracellular signalling pathways, greatly improved resistance of the cells to inflammatory stresses in vitro. We further showed that these modifications did not interfere with the capacity of these cells to correct hyperglycaemia for several months in syngeneic or allogeneic streptozocin-diabetic mice. However, these cells were not protected against autoimmune destruction when transplanted into type 1 diabetic NOD mice. This suggests that in addition to inflammatory attacks by cytokines, autoimmunity very efficiently kills the transplanted cells, indicating that multiple protective mechanisms are required for efficient transplantation of insulin-secreting cells to treat type 1 diabetes.

Secondary amyloidosis: a severe complication of ankylosing spondylitis. Two case-reports.

STUDY OBJECTIVE: To report two cases of amyloidosis secondary to ankylosing spondylitis. PATIENTS AND RESULTS: Of the 47 ankylosing spondylitis patients who have received follow-up at our department over the last few years, two have developed AA amyloidosis. Both have extremely severe, long-standing joint disease, with virtually complete spinal ankylosis and destructive peripheral arthritis of the hips and wrists; one also has tarsal joint destruction. Renal dysfunction was the first manifestation of amyloidosis in both cases. One patient required chronic hemodialysis and developed peritonitis due to colonic perforation, probably at a site of amyloid deposition. CONCLUSIONS: Secondary amyloidosis is a rare complication of ankylosing spondylitis that can cause severe renal and gastrointestinal complications. No treatment capable of clearing established amyloid deposits is available to date.

Role of the c-Jun N-terminal Kinase signaling in pancreatic β-cells

L'insuline est une hormone qui diminue la concentration de sucre dans le sang et qui est produite par la cellule β du pancréas. Un défaut de production de cette hormone est une des causes principales du diabète. Cette perte de production d'insuline est la conséquence à la fois, de la réduction du nombre de cellules β et du mauvais fonctionnement des cellules β restantes. L'inflammation, en activant la voie de signalisation «c-Jun N-terminal Kinase» (JNK) contribue au déclin de ces cellules. Cette voie de signalisation est activée par des protéines telles que des kinases qui reçoivent le signal de stress. Dans ce travail de thèse nous nous sommes intéressés à étudier le rôle de «Dual leucine zipper bearing kinase» (DLK) comme protéine capable de relayer le stress inflammatoire vers l'activation de la voie JNK dans les cellules β-pancréatiques. Nous montrons que DLK est présente dans les cellules β-pancréatiques et qu'elle agit effectivement comme un activateur de la voie de signalisation de JNK. En outre, DLK joue un rôle clé dans le contrôle de l'expression de l'insuline, de la sécrétion de l'insuline en réponse au glucose et au maintien de la survie des cellules β. Si l'expression de cette protéine diminue, la cellule produit moins d'insuline et sera plus sensible à la mort en réponse au stress inflammatoire. A l'inverse si l'expression de DLK est augmentée, la cellule β produit et secrète plus d'insuline. Des variations de l'expression de DLK sont par ailleurs, associées à l'état de santé de la cellule β. Chez la ratte en gestation ou la souris obèse, dans lesquelles la cellule β produit plus d'insuline, l'expression de DLK est augmentée. En revanche dans les cellules β des patients diabétiques, l'expression de DLK est diminuée par rapport aux cellules non malades. En résumé, DLK est nécessaire pour le bon fonctionnement de la cellule β-pancréatique et son expression corrèle avec le degré de santé des cellules, faisant que cette protéine pourrait être une cible thérapeutique potentiel. Les cellules β-pancréatiques ont la capacité de réguler la sécrétion d'insuline en s'adaptant précisément au stimulus et à la glycémie. La fonction de la cellule β est cruciale dans l'homéostasie du glucose puisque sa dysfonction et sa mort mènent au développement des diabètes de type 1 et 2. De nombreuses études suggèrent que l'inflammation pourrait avoir un rôle dans la dysfonction et la destruction de ces cellules dans le diabète de type 2. L'excès chronique de cytokines proinflammatoires accélère le dysfonctionnement de la cellule β pancréatique par un mécanisme qui implique la voie de signalisation «c-Jun N-terminal Kinase» (JNK). L'activation de cette voie est organisée par des protéines d'échafaudages. Elle se fait par trois étapes successives de phosphorylation impliquant une «Mitogen Activated Protein Kinase Kinase Kinase» (MAP3K), une MAP2K et JNK. Dans ce travail de thèse nous montrons l'expression abondante et spécifique de la MAP3K «Dual Leucine Zipper Bearing Kinase» (DLK) dans les cellules β pancréatiques. Cela est la conséquence de l'absence du répresseur transcriptionnel «Repressor Element 1 Silencing Transcription». Nous montrons également que DLK régule l'activation de JNK et qu'il s'avère nécessaire pour la fonction et la survie de la cellule β pancréatique par un mécanisme impliquant le facteur de transcription PDX-1. L'invalidation de l'expression de DLK diminue l'expression de l'insuline et potentialise l'apoptose induite par des cytokines proinflammatoires. A l'inverse, la surexpression de DLK augmente l'expression et la sécrétion d'insuline induites par le glucose. Par conséquent des niveaux d'expression appropriés de DLK sont déterminants pour la fonction et la survie de la cellule β pancréatique. L'obésité et la grossesse sont caractérisées par une hyperinsulinémie qui résulte d'une augmentation de la production et de la sécrétion de l'insuline. L'expression de DLK est augmentée dans des îlots de rattes gestantes et des souris obèses comparés à leurs contrôles respectifs. A l'inverse, dans des sujets diabétiques, l'expression de DLK est diminuée. Ensemble ces résultats montrent l'importance de DLK dans l'adaptation des îlots par un mécanisme qui pourrait impliquer la voie de signalisation de JNK. Des défauts dans cette voie régulée par DLK pourraient contribuer au dysfonctionnement et la mort de la cellule β pancréatique et par conséquent au développement du diabète. L'étude détaillée du mécanisme par lequel DLK active la voie de signalisation JNK et régule la fonction de la cellule β pancréatique pourrait ouvrir la voie des nouvelles thérapies ciblant l'amélioration de la fonction de la cellule β dans le diabète. - Pancreatic β-cells are evidently plastic in their ability to regulate insulin secretion. The quantity of insulin released by these cells varies according to the stimulus, and the prevailing glucose concentration, β-cell function is pivotal in glucose homeostasis, as their dysfunction, and death can lead to development of type 1 and type 2 diabetes. There are numerous reports so far underlying the role of inflammation in dysfunction, and destruction of β-cells, in both type 1 and type 2 diabetes. Chronic excess of pro¬inflammatory cytokines promotes a β-cell decline, via induction of the c-Jun N-terminal Kinase (JNK) pathway. The activation of the JNK pathway is organized by a scaffold protein-mediated module in which, a three-step phosphorylation cascade occurs. The latter includes, Mitogen activated protein kinase kinase kinase (MAP3K), MAP2K and JNK. In this thesis, we unveil that the MAP3K Dual Leucine Zipper Bearing Kinase (DLK) is selectively, and highly expressed in pancreatic β-cells, as the result from the absence of the transcriptional repressor named, Repressor Element 1 Silencing Transcription (REST). We show that DLK regulates activation of JNK, and is required for β-cell function and survival by modulating the PDX-1 transcription factor. Silencing of DLK expression diminishes insulin expression, and potentiated cytokine-mediated apoptosis. Conversely, overexpression of DLK increased insulin expression, and glucose-induced insulin secretion. Therefore, an appropriate level of DLK is critical for β-cell function and survival. Obesity and pregnancy are characterized by hyperinsulinemia resulting from an increased production and secretion of insulin. In isolated islets of pregnant rats, and obese mice, the expression of DLK was elevated when compared to their respective controls. However, decreased expression of DLK was observed in islets of individuals with diabetes. Taken together, we highlight the importance of DLK in islet adaptation, and describe a mechanism that may involve the JNK signaling. Deficiency in the JNK pathway regulated by DLK may contribute to β-cell failure and death, and thereby development of diabetes. Unraveling the mechanism whereby DLK activates the JNK pathway, and β-cell function, may pave the way for the design of novel therapies, aiming to improve β-cell function and survival in diabetes in general.

Contrast-enhanced ultrasound after devascularisation of neuroendocrine liver metastases: functional and morphological evaluation.

OBJECTIVE: To evaluate morphological and perfusion changes in liver metastases of neuroendocrine tumours by contrast-enhanced ultrasound (CEUS) after transarterial embolisation with bead block (TAE) or trans-arterial chemoembolisation with doxorubicin-eluting beads (DEB-TACE). METHODS: In this retrospective study, seven patients underwent TAE, and ten underwent DEB-TACE using beads of the same size. At 1 day before embolisation, 2 days, 1 month and 3 months after the procedure, a destruction-replenishment study using CEUS was performed with a microbubble-enhancing contrast material on a reference tumour. Relative blood flow (rBF) and relative blood volume (rBV) were obtained from the ratio of values obtained in the tumour and in adjacent liver parenchyma. Morphological parameters such as the tumour's major diameter and the viable tumour's major diameter were also measured. A parameter combining functional and morphological data, the tumour vitality index (TVI), was studied. The Wilcoxon rank-sum test and Fisher's test were used to compare treatment groups. RESULTS: At 3 months rBF, rBV and TVI were significantly lower (P = 0.005, P = 0.04 and P = 0.03) for the group with doxorubicin. No difference in morphological parameters was found throughout the follow-up. CONCLUSIONS: One parameter, TVI, could evaluate the morphological and functional response to treatments.

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Cultured primary fetal cells from one organ donation could possibly meet the exigent and stringent technical aspects for development of therapeutic products. These cell types have fewer technological limitations for cellular proliferation capacity (simple culture conditions) and maintenance of differentiated phenotype, and they also have low probability for transmission of communicable diseases. Master and Working Cell Banks (MCB, WCB) can be obtained from one fetal organ donation, permitting multiple tissues (skin, bone, cartilage, muscle and intervertebral disc) to be processed in short periods of time with identical methods to assure a stringent tracing of the processes for the production of standardized therapeutic agents. Clinical use of biologics from embryo and fetal tissues is relatively new and current legislation and ethics have some differences between countries to date. In addition, specific cell delivery systems for each tissue type can be adapted to the clinical application. Since it is the intention that banked primary fetal cells enhance the prospective treatment of hundreds of thousands of patients with only one organ donation, it is imperative to show consistency, traceability and safety of the processes including donor tissue selection, cell banking, cell testing and growth of cells in out-scaling for the preparation of bio-engineered products for clinical application.

Renal perfusion evaluation with contrast-enhanced ultrasonography.

BACKGROUND: Contrast-enhanced ultrasonography (CEUS) is a novel imaging technique that is safe and applicable on the bedside. Recent developments seem to enable CEUS to quantify organ perfusion. We performed an exploratory study to determine the ability of CEUS to detect changes in renal perfusion and to correlate them with effective renal plasma flow. METHODS: CEUS with destruction-refilling sequences was studied in 10 healthy subjects, at baseline and during infusion of angiotensin II (AngII) at low (1 ng/kg/min) and high dose (3 ng/kg/min) and 1 h after oral captopril (50 mg). Perfusion index (PI) was obtained and compared with the effective renal plasma flow (ERPF) obtained by parallel para-aminohippurate (PAH) clearance. RESULTS: Median PI decreased from 188.6 (baseline) to 100.4 with low-dose AngII (-47%; P < 0.02) and to 66.1 with high-dose AngII (-65%; P < 0.01) but increased to 254.7 with captopril (+35%; P > 0.2). These changes parallelled those observed with ERPF, which changed from a median of 672.1 mL/min (baseline) to 572.3 (low-dose AngII, -15%, P < 0.05) and to 427.2 (high-dose AngII, -36%, P < 0.001) and finally 697.1 (captopril, +4%, P < 0.02). CONCLUSIONS: This study demonstrates that CEUS is able to detect changes in human renal cortical microcirculation as induced by AngII infusion and/or captopril administration. The changes in perfusion indices parallel those in ERPF as obtained by PAH clearance.

Keeping the leaves green above us.

The plant immune system relies to a great extent on the highly regulated expression of hundreds of defense genes encoding antimicrobial proteins, such as defensins, and antiherbivore proteins, such as lectins. The expression of many of these genes is controlled by a family of mediators known as jasmonates; these cyclic oxygenated fatty acid derivatives are reminiscent of prostaglandins. The roles of jasmonates also extend to the control of reproductive development. How are these complex events regulated? Nearly 20 members of the jasmonate family have been characterized. Some, like jasmonic acid, exist in unmodified forms, whereas others are conjugated to other lipids or to hydrophobic amino acids. Why do so many chemically different forms of these mediators exist, and do individual jasmonates have unique signaling properties or are they made to facilitate transport within and between cells? Key features of the jasmonate signal pathway have been identified and include the specific activation of E3-type ubiquitin ligases thought to target as-yet-undescribed transcriptional repressors for modification or destruction. Several classes of transcription factor are known to function in the jasmonate pathway, and, in some cases, these proteins provide nodes that integrate this network with other important defensive and developmental pathways. Progress in jasmonate research is now rapid, but large gaps in our knowledge exist. Aimed to keep pace with progress, the ensemble of jasmonate Connections Maps at the Signal Transduction Knowledge Environment describe (i) the canonical signaling pathway, (ii) the Arabidopsis signaling pathway, and (iii) the biogenesis and structures of the jasmonates themselves.

Fistula treatment: the unresolved challenge.

Fistulas are common complications in Crohn's disease, as their cumulative prevalence reaches up to two thirds of the patients in the long term. Fistulas worsen the overall patient prognosis, with permanent sphincter and perineal tissue destruction as well as professional and personal disabilities. The importance of healing these fistulas has been less well appreciated than mucosal healing for luminal disease. Management should not be left to any specialty alone, but requires an optimal combination of surgery, infection control, and immunosuppression. Outcome of therapy beyond fistula drainage is unclear and the means of assessing healing over a long time period is poorly characterized. Recent studies suggested that a substantial proportion of patients can achieve fistula healing with surgical and medical therapies. However, studies that measure the benefit of integrated approaches, of early intervention and of precise healing assessment are still missing. Such information is particularly needed in this subset of sick patients that undergo substantial physical and emotional distress because of pain, discharge, incontinence, perineal and genital disfigurement. The advent of adequate pelvic imaging, improved surgical outcomes, and potent biological therapies make it timely to develop best-management strategies and appropriateness of care criteria.

Reactive electrophile species.

The interest in reactive electrophile species (RES) stems largely from the fact that they can have powerful biological activities. RES stimulate the expression of cell survival genes as well many other genes commonly upregulated in environmental stress and pathogenesis. RES levels must be carefully controlled in healthy cells but their formation and destruction during stress is of great interest. Unlike many 'classical' signals and hormones, RES can potentially affect gene expression at all levels by chemically reacting with nucleic acids, proteins and small molecules as well as by indirectly lowering pools of cellular reductants. Recent works involving genetic approaches have begun to provide compelling evidence that, although excess RES production can lead to cell damage, lower levels of RES may modulate the expression of cell survival genes and may actually contribute to survival during severe stress.

Emerging roles of non-coding RNAs in pancreatic β-cell function and dysfunction.

Pancreatic β-cells play a central role in glucose homeostasis by tightly regulating insulin release according to the organism's demand. Impairment of β-cell function due to hostile environment, such as hyperglycaemia and hyperlipidaemia, or due to autoimmune destruction of β-cells, results in diabetes onset. Both environmental factors and genetic predisposition are known to be involved in the development of the disease, but the exact mechanisms leading to β-cell dysfunction and death remain to be characterized. Non-coding RNA molecules, such as microRNAs (miRNAs), have been suggested to be necessary for proper β-cell development and function. The present review aims at summarizing the most recent findings about the role of non-coding RNAs in the control of β-cell functions and their involvement in diabetes. We will also provide a perspective view of the future research directions in the field of non-coding RNAs. In particular, we will discuss the implications for diabetes research of the discovery of a new communication mechanism based on cell-to-cell miRNA transfer. Moreover, we will highlight the emerging interconnections between miRNAs and epigenetics and the possible role of long non-coding RNAs in the control of β-cell activities.

Violence et non-violence, modèle et contre-modèle dans le contexte de l'Inde moderne.

(Résumé de l'ouvrage) La violence dans nos sociétés ne semble pas diminuer; bien au contraire, elle resurgit toujours avec des moyens et des stratagèmes de plus en plus perfectionnés, provoquant la destruction de la vie humaine et mettant en danger son épanouissement. Avec la rationalisation des activités dans de nombreux secteurs de la vie, la violence et ses moyens se sont rationalisés aussi, pour mieux servir le pouvoir et la force. Les armes sous toutes leurs formes deviennent ainsi une marchandise pour soutenir les économies des pays. Les religions provoquent-elles vraiment la violence? Si elles n'affichent pas ouvertement une telle intention, peuvent-elles induire des actes violents? Dans l'éventualité où les religions ne sont pas vraiment à l'origine de violences, on peut cependant se demander si, par elles-mêmes, elles peuvent contribuer à une diminution de la violence dans les sociétés et créer la paix. Quelques spécialistes universitaires, enseignant et chercheurs, se posent ces questions et tentent d'y apporter une réponse.

André Néher - Du souffle prophétique à l'humanisme maharalien

(Résumé du numéro) Au lendemain de la Seconde Guerre mondiale s'est développée en France une expérience nouvelle de la pensée juive et européenne. Des intellectuels - au nombre desquels Léon Askénazi, Vladimir Jankélévitch, Emmanuel Levinas... - ont fondé un mouvement de pensée puisant dans la tradition d'Israël ou la condition juive des réponses à l'effondrement de la modernité et à la destruction des Juifs. Ce numéro de Pardès est l'occasion d'une large réflexion sur notre époque et sur la renaissance juive en Europe.

Intra-articular osteoid osteoma of the knee: clinical and therapeutical particularities

The intra-articular osteoid osteoma (10-13% of the cases) is often difficult to identify. They present frequent atypical clinical signs and radiological images that eventually lead to inadequate treatment. For example, it has been observed that this pathology leads to inappropriate arthroscopies (up to 40%). Meniscal tear and then osteochondritis were initially suspected on a patient with an intra-articular osteoid osteoma at the tibia level. For the treatment, any damage of the cartilage has to be avoided. Thermoablation with radiofrequency is the treatment of choice