21 research outputs found

    Investigation of a new tumor-associated glycosylated antigen as target for dendritic cell vaccination in pancreatic cancer

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    Glycoproteins, as valuable targets for dendritic cell (DC)-vaccination in cancers, remain an open question. Glycosylated structures, which are aberrantly modified during cancerisation, impact positively or negatively on glycoprotein immunogenicity. Here is presented an oncofetal glycovariant of bile-salt-dependent-lipase, expressed on human tumoral pancreas and efficiently processed by DC’s, inducing T-lymphocyte activation

    Cancer du sein : de la thérapie ciblée à la médecine personnalisée

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    peer reviewedDans cet article, les auteurs passent en revue les grands principes de prise en charge du traitement systémique du cancer du sein et posent la question suivante : jusqu'où réellement aujourd'hui ce traitement est-il individualisé ? Les nouvelles technologies permettent une analyse détaillée des anomalies génomiques au niveau des cellules cancéreuses. Malheureusement, nous n'avons pas encore compris comment utiliser au mieux ces données au bénéfice du patient. La majorité des modifications du génome sont des évènements relativement rares compliquant le développement de nouveaux médicaments dans le cadre d'une médecine de précision. De plus, les tumeurs présentent une grande hétérogénéité temporelle et spatiale dont il faudra tenir compte lors de ce développement. Une collaboration internationale intensive est en cours pour tenter de confirmer que la médecine de précision permet d'optimiser les résultats du traitement systémique dans le cancer du sein

    CCR2- and Flt3-Dependent Inflammatory Conventional Type 2 Dendritic Cells Are Necessary for the Induction of Adaptive Immunity by the Human Vaccine Adjuvant System AS01

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    The Adjuvant System AS01 contains monophosphoryl lipid A (MPL) and the saponin QS-21 in a liposomal formulation. AS01 is included in recently developed vaccines against malaria and varicella zoster virus. Like for many other adjuvants, induction of adaptive immunity by AS01 is highly dependent on the ability to recruit and activate dendritic cells (DCs) that migrate to the draining lymph node for T and B cell stimulation. The objective of this study was to more precisely address the contribution of the different conventional (cDC) and monocyte-derived DC (MC) subsets in the orchestration of the adaptive immune response after immunization with AS01 adjuvanted vaccine. The combination of MPL and QS-21 in AS01 induced strong recruitment of CD26+XCR1+ cDC1s, CD26+CD172+ cDC2s and a recently defined CCR2-dependent CD64-expressing inflammatory cDC2 (inf-cDC2) subset to the draining lymph node compared to antigen alone, while CD26-CD64+CD88+ MCs were barely detectable. At 24 h post-vaccination, cDC2s and inf-cDC2s were superior amongst the different subsets in priming antigen-specific CD4+ T cells, while simultaneously presenting antigen to CD8+ T cells. Diphtheria toxin (DT) mediated depletion of all DCs prior to vaccination completely abolished adaptive immune responses, while depletion 24 h after vaccination mainly affected CD8+ T cell responses. Vaccinated mice lacking Flt3 or the chemokine receptor CCR2 showed a marked deficit in inf-cDC2 recruitment and failed to raise proper antibody and T cell responses. Thus, the adjuvant activity of AS01 is associated with the potent activation of subsets of cDC2s, including the newly described inf-cDC2s

    Oncological patients' reactions to COVID-19 pandemic: A single institution prospective study.

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    peer reviewedBACKGROUND: The spread of the COVID-19 pandemic has led to a rapid reorganization in all human and hospital activities, with impact on cancer patients. AIM: An analysis of cancer patients fears, and awareness of COVID-19 has been done in this study. METHODS AND RESULTS: We analyzed cancer patients' reactions to the pandemic and their perception of oncological care reorganization, through a 12-item survey, proposed at the peak of pandemic and 3 months later. Overall, 237 patients were included in the study. During the peak of pandemic 34.6% of patients were more worried about COVID-19 than cancer versus 26.4% in the post-acute phase (p = .013). Although 49.8% of patients in the acute phase and 42.3% in the post-acute phase considered their risk of death if infected ≥50%, and more than 70% of patients thought to be at higher risk of complications, the majority of them did not consider the possibility to stop or delay their treatment. Patients were more interested in following news about COVID-19 than cancer and they complied with all preventive measures in more than 90% of the cases. CONCLUSIONS: Although cancer patients worried about COVID-19 and evaluated the risk of complication or death due to COVID-19 as extremely high, they were still asking for the best oncological treatment

    Immunogénicité d'une glycoprotéine tumorale pancréatique, la lipase sels biliaires-dépendante pathologique et vaccination par des cellules dendritiques

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    Le cancer du pancréas exocrine est un cancer très agressif associé à un diagnostic tardif et une résistance aux traitements conventionnels. L'identification de nouveaux marqueurs spécifiques est nécessaire afin de développer des outils diagnostiques ainsi que des traitements innovants. La lipase sels biliaires-dépendante pathologique (BSDLp), une glycoforme tumorale de la BSDL, se caractérise par l'apparition d'épitopes glycosylés reconnus par les anticorps monoclonaux J28 et 16D10. Leur expression spécifique par certaines lignées et tissus pancréatiques tumoraux humains nous permet d'envisager leur utilisation comme cible d'immunothérapie anti-tumorale par les cellules dendritiques (DC). Notre objectif est d'explorer la capacité de la BSDLp à induire une immunité cellulaire et d'apporter une preuve de concept de vaccination par les DC dans un modèle expérimental. Chez l'Homme, nous montrons que les DC chargées avec la partie C-terminale de la BSDLpJ28 (C-ter-J28) induisent l'activation des lymphocytes T. Dans le modèle murin, nous mettons en évidence l'expression de l'épitope J28 à la surface des cellules d'adénocarcinome pancréatique Panc02, utilisées pour induire des tumeurs. Nous montrons que la glycoprotéine BSDLpJ28 est immunogène chez la souris C57BL/6J. De plus, les DC chargées avec le C-ter-J28 puis soumises à maturation sont capables d'induire une réponse cellulaire T. Enfin, les DC, chargées et soumises à maturation ou non, testées en traitement prophylactique instaurent une protection substantielle, de longue durée, chez les souris vaccinées. Dans ces conditions, les DC, immatures lors de l'injection, jouent un rôle important dans la protection anti-tumorale.Pancreatic adenocarcinoma is an aggressive cancer associated to late diagnosis and resistance to conventional treatments. Identification of novel specific markers is necessary to develop diagnostic tools and innovative treatments. Pathological bile salt-dependent lipase (pBSDL), a tumoral glycovariant of BSDL, is characterized by the appearance of glycosylated epitopes recognized by J28 and 16D10 monoclonal antibodies. Their expression specific to some human tumor pancreatic cell lines and tissues led us to consider their use as targets for dendritic cell (DC) antitumor immunotherapy. Our aim is to explore the ability of pBSDL to induce cellular mediated immunity and to provide a proof of concept of DC vaccination in an experimental model. In humans, we show that DC pulsed with C-ter moiety of pBSDL-J28 (C-ter-J28) can induce T-cell activation. In mouse model, we demonstrate the expression of J28 epitope on pancreatic adenocarcinoma Panc02 cells, used to induce tumors in C57Bl/6 mice. We show that glycoprotein pBSDL (pBSDL-J28) is immunogenic in mice. Moreover, DC pulsed with C-ter-J28 and matured, are able to induce T-cell response. Finally, DC pulsed and matured or not, tested in prophylactic treatment provide long-term substantial protection in vaccinated mice. In these conditions, DC, immature at the time of the injection, play an important role in antitumor protection

    Lutte contre les bactéries multirésistantes

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    Soixante-douze % des infections nosocomiales sont d'origine bactérienne. Parmi cette catégorie, les bactéries multirésistantes jouent un rôle important. Devant la fréquence et la gravité de ces ipfections, il est apparu important d'organiser un programme spécifique de prévention et de lutte contre les bactéries multirésistantes. La mise en place de ce programme, au Centre Chirurgical Marie Lannelongue, ainsi que ses résultats au cours de l'année 2001 sont présentés et analysés.CHATENAY M.-PARIS 11-BU Pharma. (920192101) / SudocSudocFranceF

    Toll‐like receptor 4 signaling in hematopoietic‐lineage cells contributes to the enhanced activity of the human vaccine adjuvant AS01

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    International audienceThe 3-O-desacyl-4'-monophosphoryl lipid A (MPL) activates immunity through Toll-like receptor 4 (TLR4) signaling. The Adjuvant System AS01 contains MPL and is used in the candidate malaria vaccine and the licensed zoster vaccine. Recent studies reported that AS01 adjuvant activity depends on a transient inflammation at the site of vaccination, but the role of stromal or structural cells in the adjuvant effect is unknown. We investigated this question in mouse models by assessing the role of TLR4 on hematopoietic versus resident structural cells during immunization with AS01-adjuvanted vaccines. We first established that TLR4-deficient animals had a reduced immune response to an AS01-adjuvanted vaccine. Using bone marrow chimera, we consistently found that Tlr4 expression in radio-sensitive cells, i.e., hematopoietic cells, was required for an optimal adjuvant effect on antibody and T-cell responses. At day 1 after injection, the pro-inflammatory reaction at the site of injection was strongly dependent on TLR4 signaling in hematopoietic cells. Similarly, activation of dendritic cells in muscle-draining lymph nodes was strictly associated with the radio-sensitive cells expressing Tlr4. Altogether, these data suggest that MPL-mediated TLR4-signaling in hematopoietic cells is critical in the mode of action of AS01

    3-Aryl-2-quinolone derivatives: synthesis and characterization of in vitro and in vivo antitumor effects with emphasis on a new therapeutical target connected with cell migration

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    Among 25 3-aryl-2-quinolone derivatives synthesized, the antitumor activity of some of them was characterized both in vitro and in vivo. In this series, no compound appeared to be cytotoxic in vitro, as was known by the colorimetric MTT assay carried out on 12 distinct human cancer cell lines obtained from the American Type Culture Collection. Indeed, the concentration values decreasing the growth of the 12 cell lines by at least 50% (IC(50) index) were always higher than 10(-5) M. We then made use of a computer-assisted phase-contrast videomicroscopy system to quantitatively determine in vitro the level of migration of living MCF-7 human breast cancer cells. For example, at 10(-7) M, compounds 7, 13, 16, and 28 markedly decreased the migration level of these MCF-7 human breast cancer cells. The in vivo determination of the maximum tolerated dose showed that all compounds tested were definitively nontoxic. When the nontoxic, antimigratory compound 16 was combined with either doxorubicin or etoposide, two cytotoxic compounds routinely used in the clinic, this led to additive in vivo benefits from this treatment (as compared to individual administrations of the drugs) when the MXT mouse mammary adenocarcinoma was used. Thus, nontoxic antimigratory compounds, including the 2-quinolone derivatives synthesized here, can actually improve the efficiency of antitumor treatment when combined with conventional cytotoxic agents.Journal ArticleSCOPUS: ar.jinfo:eu-repo/semantics/publishe
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