963 resultados para LONG-LIVED ANTIBODY-SECRETING CELLS
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The mechanism of generation of memory cytotoxic T cells (CTL) following immunization remains controversial. Using tumor protection and IFN-gamma ELISPOT assays in mice to detect functional CTL, we show that the initial effector CTL burst size after immunization is not directly related to the amount of functional memory CTL formed, suggesting that memory CTL are unlikely to arise stochastically from effector CTL. Induction of MHC class II-restricted T helper cells at the time of immunization by inclusion of a T helper peptide or protein in the immunogen, is necessary to generate memory CTL, although no T helper cell induction is required to generate effector CTL to a strong MHC class I-binding peptide. Host protective T cell memory correlates with the number of CTL epitope responsive IFN-gamma-secreting memory T cells as measured in an ELISPOT assay at the time of tumor challenge. We conclude that a different antigen presenting environment is required to induce long-lasting functional memory CTL, and non-cognate stimulation of the immune system is essential to allow generation of a long-lasting host protective memory CTL response.
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Natural IgM (nIgM) is constitutively present in the serum, where it aids in the early control of viral and bacterial expansions. nIgM also plays a significant role in the prevention of autoimmune disease by promoting the clearance of cellular debris. However, the cells that maintain high titers of nIgM in the circulation had not yet been identified. Several studies have linked serum nIgM with the presence of fetal-lineage B cells, and others have detected IgM secretion directly by B1a cells in various tissues. Nevertheless, a substantial contribution of undifferentiated B1 cells to nIgM titers is doubtful, as the ability to produce large quantities of antibody (Ab) is a function of the phenotype and morphology of differentiated plasma cells (PCs). No direct evidence exists to support the claim that a B1-cell population directly produces the bulk of circulating nIgM. The source of nIgM thus remained uncertain and unstudied.
In the first part of this study, I identified the primary source of nIgM. Using enzyme-linked immunosorbent spot (ELISPOT) assay, I determined that the majority of IgM Ab-secreting cells (ASCs) in naïve mice reside in the bone marrow (BM). Flow cytometric analysis of BM cells stained for intracellular IgM revealed that nIgM ASCs express IgM and the PC marker CD138 on their surface, but not the B1a cell marker CD5. By spinning these cells onto slides and staining them, following isolation by fluorescence-activated cell sorting (FACS), I found that they exhibit the typical morphological characteristics of terminally differentiated PCs. Transfer experiments demonstrated that BM nIgM PCs arise from a progenitor in the peritoneal cavity (PerC), but not isolated PerC B1a, B1b, or B2 cells. Immunoglobulin (Ig) gene sequence analysis and examination of B1-8i mice, which carry an Ig knockin that prohibits fetal B-cell development, indicated that nIgM PCs differentiate from fetal-lineage B cells. BrdU uptake experiments showed that the nIgM ASC compartment contains a substantial fraction of long-lived plasma cells (LLPCs). Finally, I demonstrated that nIgM PCs occupy a survival niche distinct from that used by IgG PCs.
In the second part of this dissertation, I characterized the unique survival niche of nIgM LLPCs, which maintain constitutive high titers of nIgM in the serum. By using genetically deficient or Ab-depleted mice, I found that neither T cells, type 2 innate lymphoid cells, nor mast cells, the three major hematopoietic producers of IL-5, were required for nIgM PC survival in the BM. However, IgM PCs associate strongly with IL-5-expressing BM stromal cells, which support their survival in vitro when stimulated. In vivo neutralization of IL-5 revealed that, like individual survival factors for IgG PCs, IL-5 is not the sole supporter of IgM PCs, but is likely one of several redundant molecules that together ensure uninterrupted signaling. Thus, the long-lived nIgM PC niche is not composed of hematopoietic sources of IL-5, but a stromal cell microenvironment that provides multiple redundant survival signals.
In the final part of my study, I identified and characterized the precursor of nIgM PCs, which I found in the first project to be resident in the PerC, but not a B1a, B1b, or B2 cell. By transferring PerC cells sorted based on expression of CD19, CD5, and CD11b, I found that only the CD19+CD5+CD11b- population contained cells capable of differentiating into nIgM PCs. Transfer of decreasing numbers of unfractionated PerC cells into Rag1 knockouts revealed an order-of-magnitude drop in the rate of serum IgM reconstitution between stochastically sampled pools of 106 and 3x105 PerC cells, suggesting that the CD19+CD5+CD11b- compartment comprises two cell types, and that interaction between the two necessary for nIgM-PC differentiation. By transferring neonatal liver, I determined that the early hematopoietic environment is required for nIgM PC precursors to develop. Using mice carrying a mutation that disturbs cKit expression, I also found that cKit appears to be required at a critical point near birth for the proper development of nIgM PC precursors.
The collective results of these studies demonstrate that nIgM is the product of BM-resident PCs, which differentiate from a PerC B cell precursor distinct from B1a cells, and survive long-term in a unique survival niche created by stromal cells. My work creates a new paradigm by which to understand nIgM, B1 cell, and PC biology.
Resumo:
Infants born to HIV-infected mothers are at high risk of becoming infected during gestation or the breastfeeding period. A search is thus warranted for vaccine formulations that will prevent mother-to-child HIV transmission. The LAMP/gag DNA chimeric vaccine encodes the HIV-1 p55gag fused to the lysosome-associated membrane protein-1 (LAMP-1) and has been shown to enhance anti-Gag antibody (Ab) and cellular immune responses in adult and neonatal mice; such a vaccine represents a new concept in antigen presentation. In this study, we evaluated the effect of LAMP/gag DNA immunization on neonates either before conception or during pregnancy. LAMP/gag immunization of BALB/c mice before conception by the intradermal route led to the transfer of anti-Gag IgG1 Ab through the placenta and via breastfeeding. Furthermore, there were an increased percentage of CD4+ CD25+ Foxp3+ T cells in the spleens of neonates. When offspring were immunized with LAMP/gag DNA, the anti-Gag Ab response and the Gag-specific IFN-gamma-secreting cells were decreased. Inhibition of anti-Gag Ab production and cellular responses were not observed six months after immunization, indicating that maternal immunization did not interfere with the long-lasting memory response in offspring. Injection of purified IgG in conjunction with LAMP/gag DNA immunization decreased humoral and cytotoxic T-cell responses. LAMP/gag DNA immunization by intradermal injection prior to conception promoted the transfer of Ab, leading to a diminished response to Gag without interfering with the development of anti-Gag T- and B-cell memory. Finally, we assessed responses after one intravenous injection of LAMP/gag DNA during the last five days of pregnancy. The intravenous injection led to in utero immunization. In conclusion, DNA vaccine enconding LAMP-1 with Gag and other HIV-1 antigens should be considered in the development of a protective vaccine for the maternal/fetal and newborn periods.
Resumo:
Successful T cell priming in early postnatal life that can generate effective long-lasting responses until adulthood is critical in HIV vaccination strategies because it prevents early sexual initiation and breastfeeding transmission of HIV. A chimeric DNA vaccine encoding p55 HIV gag associated with lysosome-associated membrane protein 1 (LAMP-1; which drives the antigen to the MIIC compartment), has been used to enhance cellular and humoral antigen-specific responses in adult mice and macaques. Herein, we investigated LAMP-1/gag vaccine immunogenicity in the neonatal period in mice and its ability to generate long-lasting effects. Neonatal vaccination with chimeric LAMP/gag generated stronger Gag-specific immune responses, as measured by the breadth of the Gag peptide-specific IFN-gamma, proliferative responsiveness, cytokine production and antibody production, all of which revealed activation of CD4+ T cells as well as the generation of a more robust CTL response compared to gag vaccine alone. To induce long-lived T and B cell memory responses, it was necessary to immunize neonates with the chimeric IAMP/gag DNA vaccine. The LAMP/gag DNA vaccine strategy could be particularly useful for generating an anti-HIV immune response in the early postnatal period capable of inducing long-term immunological memory. (C) 2010 Elsevier Inc. All rights reserved.
Resumo:
RESUME Nous n'avons pas de connaissance précise des facteurs à l'origine de l'hétérogénéité phénotypique des cellules T CD4 mémoires. Une troisième population phénotypique des cellules T CD4 mémoires, caractérisée par les marqueurs CD45RA+CCR7- a été identifiée dans cette étude. Cette population présente un état de différentiation avancée, comme en témoigne son histoire de réplication, ainsi que sa capacité de prolifération homéostatique. Les réponses des cellules T CD4 mémoires à différentes conditions de persistance et charge antigénique ont trois patterns phénotypiques différents, caractérisés par les marqueurs CD45RA et CCR7. La réponse CD4 mono -phénotypique CD45RA-CCR7+ ou CD45RA- CCR7- est associée à des conditions d'élimination de l'antigène (telle la réponse CD4 tétanos spécifique) ou à des conditions de persistance antigénique et de virémie élevée (telle la réponse HIV chronique ou la primo-infection CMV) respectivement. D'autre part, les réponses T CD4 multi -phénotypiques CD45RA-CCR7+ sont associées à des conditions d'exposition antigénique prolongée et de faible virémie (telles les infections CMV, EBV et HSV ou les infections HIV chez les long term non progressons). La réponse mono -phénotypique CD45RA- CCR7+ est propre aux cellules T CD4 secrétant de IL2, définies également comme centrales mémoires, la réponse CD45RA- CCR7- aux cellules T CD4 secrétant de l'IFNγ et finalement la réponse mufti-phénotypique aux cellules T CD4 secrétant à la fois de l'IL2 et de l' IFNγ. En conclusion, ces résultats témoignent d'une régulation de l'hétérogénéité phénotypique par l'exposition et la charge antigénique. ABSTRACT The factors responsible for the phenotypic heterogeneity of memory CD4 T cells are unclear. In the present study, we have identified a third population of memory CD4 T cells characterized as CD45RA+CCRT that, based on its replication history and the homeostatic proliferative capacity, was at an advanced stage of differentiation. Three different phenotypic patterns of memory CD4 T cell responses were delineated under different conditions of antigen (Ag) persistence and load using CD45RA and CCR7 as markers of memory T cells. Mono-phenotypic CD45RA'CCR7+ or CD45RA'CCR7' CD4 T cell responses were associated with conditions of Ag clearance (tetanus toxoid-specific CD4 T cell response) or Ag persistence and high load (chronic HIV-1 and primary CMV infections), respectively. Multi-phenotypic CD45RA CCR7+, CD45RA'CCRT and CD45RA+CCRT CD4 T cell responses were associated with protracted Ag exposure and low load (chronic CMV, EBV and HSV infections and HIV-1 infection in long-term nonprogressors). The mono-phenotypic CD45RA'CCR7+ response was typical of central memory (TCM) IL-2-secreting CD4 T cells, the mono-phenotypic CD45RA CCRT response of effector memory (TEM) IFN-γ -secreting CD4 T cells and the multi-phenotypic response of both IL-2- and IFN-γ -secreting cells. The present results indicate that the heterogeneity of different Ag-specific CD4 T cell responses is regulated by Ag exposure and Ag load.
Resumo:
OBJECTIVE To establish the role of the transcription factor Pax4 in pancreatic islet expansion and survival in response to physiological stress and its impact on glucose metabolism, we generated transgenic mice conditionally and selectively overexpressing Pax4 or a diabetes-linked mutant variant (Pax4R129 W) in β-cells. RESEARCH DESIGN AND METHODS Glucose homeostasis and β-cell death and proliferation were assessed in Pax4- or Pax4R129 W-overexpressing transgenic animals challenged with or without streptozotocin. Isolated transgenic islets were also exposed to cytokines, and apoptosis was evaluated by DNA fragmentation or cytochrome C release. The expression profiles of proliferation and apoptotic genes and β-cell markers were studied by immunohistochemistry and quantitative RT-PCR. RESULTS Pax4 but not Pax4R129 W protected animals against streptozotocin-induced hyperglycemia and isolated islets from cytokine-mediated β-cell apoptosis. Cytochrome C release was abrogated in Pax4 islets treated with cytokines. Interleukin-1β transcript levels were suppressed in Pax4 islets, whereas they were increased along with NOS2 in Pax4R129 W islets. Bcl-2, Cdk4, and c-myc expression levels were increased in Pax4 islets while MafA, insulin, and GLUT2 transcript levels were suppressed in both animal models. Long-term Pax4 expression promoted proliferation of a Pdx1-positive cell subpopulation while impeding insulin secretion. Suppression of Pax4 rescued this defect with a concomitant increase in pancreatic insulin content. CONCLUSIONS Pax4 protects adult islets from stress-induced apoptosis by suppressing selective nuclear factor-κB target genes while increasing Bcl-2 levels. Furthermore, it promotes dedifferentiation and proliferation of β-cells through MafA repression, with a concomitant increase in Cdk4 and c-myc expression.
Resumo:
In autoimmune type 1 diabetes mellitus, proinflammatory cytokine-mediated apoptosis of beta-cells has been considered to be the first event directly responsible for beta-cell mass reduction. In the Bio-Breeding (BB) rat, an in vivo model used in the study of autoimmune diabetes, beta-cell apoptosis is observed from 9 wk of age and takes place after an insulitis period that begins at an earlier age. Previous studies by our group have shown an antiproliferative effect of proinflammatory cytokines on cultured beta-cells in Wistar rats, an effect that was partially reversed by Exendin-4, an analogue of glucagon-like peptide-1. In the current study, the changes in beta-cell apoptosis and proliferation during insulitis stage were also determined in pancreatic tissue sections in normal and thymectomized BB rats, as well as in Wistar rats of 5, 7, 9, and 11 wk of age. Although stable beta-cell proliferation in Wistar and thymectomized BB rats was observed along the course of the study, a decrease in beta-cell proliferation and beta-cell mass from the age of 5 wk, and prior to the commencement of apoptosis, was noted in BB rats. Exendin-4, in combination with anti-interferon-gamma antibody, induced a near-total recovery of beta-cell proliferation during the initial stages of insulitis. This highlights the importance of early intervention and, as well, the possibilities of new therapeutic approaches in preventing autoimmune diabetes by acting, initially, in the insulitis stage and, subsequently, on beta-cell regeneration and on beta-cell apoptosis.
Resumo:
The brain tissue is made of neuronal and glial cells generated in the germinal layer bordering the ventricles. These cells divide, differentiate and migrate following specific pathways. The specification of GABAergic interneurons and glutamatergic neurons has been broadly studied but little is known about the origin, the fate and the function of early glial cells in the embryonic telencephalon. It has been commonly accepted since long that the glial cells and more particularly the astrocytes were generated after neurogenesis from the dorsal telencephalon. However, our work shows that, unlike what was previously thought, numerous glial cells (astroglia and polydendrocytes) are generated during neurogenesis in the early embryonic stages from E14.5 to E16.5, and originate from the ventral Nkx2.1-expressing precursors instead. NK2 homeobox 1 (Nkx2.1) is a member of the NK2 family of homeodomaincontaining transcription factors. The specification of the MGE precursors requires the expression of the Nkx2.1 homeobox gene. Moreover, Nkx2.1 is previously known to regulate the specification of GABAergic interneurons and early oligodendrocytes in the ventral telencephalon. Here, in my thesis work, I have discovered that, in addition, Nkx2.1 also regulates astroglia and polydendrocytes differentiation. The use of Nkx2.1 antibody and Nkx2.1 riboprobe have revealed the presence of numerous Nkx2.1-positive cells that express astroglial markers (like GLAST and GFAP) in the entire embryonic brain. Thus, to selectively fate map MGE-derived GABAergic interneurons and glia, we crossed Nkx2.1-Cre mice, Glast-Cre ERT+/- inducible mice and NG2-Cre mice with the Cre reporter Rosa26-lox-STOP-lox-YFP (Rosa26-YFP) mice. The precise origin of Nkx2.1-positive astroglia has been directly ascertained by combining glial immunostaining and focal electroporation of the pCAG-GS-EGFP plasmids into the subpallial domains of organotypic slices, as well as, by using in vitro neurosphere experiments and in utero electroporation of the pCAG-GS-tomato plasmid into the ventral pallium of E14.5 Nkx2.1-Cre+/Rosa-YFP+/- embryos. We have, thus, confirmed that the three germinal regions of the ventral telencephalon i.e. the MGE, the AEP/POA and the triangular septal nucleus are able to generate early astroglial cells. Moreover, immunohistochemistry for several astroglial cells and polydendrocyte markers, both in the Nkx2.1-/- and control embryos and in the neurospheres, has revealed a severe loss of both glial cell types in the Nkx2.1 mutants. We found that the loss of glia corresponded to a decrease of Nkx2.1-derived precursor division capacity and glial differentiation. There was a drastic decrease of BrdU+ dividing cells labeled for Nkx2.1 in the MGE*, the POA* and the septal nucleus* of Nkx2.1 mutants. In addition, we noticed that while some remaining Nkx2.1+ precursors still succeeded to give rise to post-mitotic neurons in vitro and in vivo in the Nkx2.1-/-, they completely lost the capacity to differentiate in astrocytes. Altogether, these observations indicate for the first time that the transcription factor Nkx2.1 regulates the proliferation and differentiation of precursors in three subpallial domains that generate early embryonic astroglia and polydendrocytes. Furthermore, in order to investigate the potential function of these early Nkx2.1- derived glia, we have performed multiple immunohistochemical stainings on Nkx2.1-/- and wild-type animals, and Nkx2.1-Cre mice that were crossed to Rosa-DTA+/- mice in which the highly toxic diphtheria toxin aided to selectively deplete a majority of the Nkx2.1-derived cells. Interestingly, in these two mutants, we observed a drastic and significant loss of GFAP+, GLAST+, NG2+ and S100ß+ astroglial cells at the telencephalic midline and in the medial cortical areas. This cells loss could be directly correlated with severe axonal guidance defects observed in the corpus callosum (CC), the hippocampal commissure (HIC), the fornix (F) and the anterior commissure (AC). Axonal guidance is a key step allowing neurons to form specific connections and to become organized in a functional network. The contribution of guidepost cells inside the CC and the AC in mediating the growth of commissural axons have until now been attributed to specialized midline guidepost astroglia. Previous published results in our group have unravelled that, during embryonic development, the CC is populated in addition to astroglia by numerous glutamatergic and GABAergic guidepost neurons that are essential for the correct midline crossing of callosal axons. Therefore, the relative contribution of individual neuronal or glial populations towards the guidance of commissural axons remains largely to be investigated to understand guidance mechanisms further. Thus, we crossed Nkx2.1-Cre mice with NSE-DTA+/- mice that express the diphtheria toxin only in neurons and allowed us to selectively deplete Nkx2.1-derived GABAergic neurons. Interestingly, in the Nkx2.1-/- mice, the CC midline was totally disorganized and the callosal axons partly lost their orientation, whereas in the Nkx2.1Cre+/Rosa-DTA+/- and the Nkx2.1Cre+/NSE-DTA+/- mice, the axonal organization of the CC was not affected. In the three types of mice, hippocampal axons of the fornix were not properly fasciculated and formed disoriented bundles through the septum. Additionally, the AC formation was completely absent in Nkx2.1-/- mice and the AC was divided into two/three separate paths in the Nkx2.1Cre+/Rosa-DTA+/- mice that project in wrong territories. On the other hand, the AC didn't form or was reduced to a relatively narrower tract in the Nkx2.1Cre+/NSE-DTA+/- mice as compared to wild-type AC. These results clearly indicate that midline Nkx2.1-derived cells play a major role in commissural axons pathfinding and that both Nkx2.1-derived guidepost neurons and glia are necessary elements for the correct development of these commissures. Furthermore, during our investigations on Nkx2.1-/- and Nkx2.1Cre+/Rosa-DTA+/- mice, we noticed similar and severe defects in the erythrocytes distribution and the blood vessels network morphology in the embryonic brain of both mutants. As the Cre-mediated recombination was never observed to occur in the blood vessels of Nkx2.1-Cre mice, we inferred that the vessels defects observed were due to the loss of Nkx2.1-derived cells and not to the cells autonomous effects of Nkx2.1 in regulating endothelial cell precursors. Thereafter, the respective contribution of individual Nkx2.1-regulated neuronal or glial populations in the blood vessels network building were studied with the use of transgenic mice strains. Indeed, the use of Nkx2.1Cre+/NSE-DTA+/- mice indicated that the Nkx2.1-derived neurons were not implicated in this process. Finally, to discriminate between the two Nkx2.1-derived glial cell populations, the GLAST+ astroglia and the NG2+ polydendrocytes, an NG2-Cre mouse strain crossed to the Rosa-DTA+/- mice was used. In that mutant, the blood vessel network and the erythrocytes distribution were similarly affected as observed in Nkx2.1Cre+/Rosa-DTA+/- animals. Therefore, this result indicates that most probably, the NG2+ polydendrocytes are involved in helping to build the vessels network in the brain. Taken altogether, these observations show that during brain development, Nkx2.1- derived embryonic glial cells act as guidepost cells on the guidance of axons as well as forming vessels. Both Nkx2.1-regulated guidepost GABAergic neurons and glia collaborate to guide growing commissural axons, while polydendrocytes are implicated in regulating brain angiogenesis. - Le tissu cérébral est composé de cellules neuronales et gliales générées dans les couches germinales qui bordent les ventricules. Ces cellules se divisent, se différencient et migrent selon des voies particulières. La spécification des interneurones GABAergiques et des neurones glutamatergiques a été largement étudiée, par contre, l'origine, le destin et la fonction des cellules gliales précoces du télencéphale embryonnaire restent peu élucidées. Depuis longtemps, il était communément accepté que les cellules gliales, et plus particulièrement les astrocytes, sont générés après la neurogénèse à partir du télencéphale dorsal. Toutefois, notre travail montre que de nombreuses cellules gliales sont générées à partir de précurseurs ventraux qui expriment le gène Nkx2.1, entre E14.5 et E16.5, c'est-à dire,à des stades embryonnaires très précoces. Le gène NK2 homéobox 1 (Nkx2.1) appartient à une famille de facteurs de transcription appelée NK2. Il s'agit de protéines qui contiennent un homéo-domaine. La spécification des précurseurs de la MGE requiert l'expression du gène homéobox Nkx2.1. De plus, la fonction du gène Nkx2.1 dans la régulation de la spécification des interneurones GABAergiques et des oligodendrocytes dans le télencéphale ventral était déjà connue. Au cours de mon travail de thèse, j'ai également mis en évidence que, Nkx2.1 régule aussi les étapes de prolifération et de différenciation de divers sous-types de cellules gliales soit de type astrocytes ou bien polydendrocytes. L'utilisation d'un anticorps contre la protéine Nkx2.1 ainsi qu'une sonde à ribonucléotides contre l'ARN messager du gène Nkx2.1 ont révélé la présence de nombreuses cellules positives pour Nkx2.1 qui exprimaient des marqueurs astrocytaires (comme GLAST et GFAP) dans le télencéphale embryonnaire. Afin de déterminer de manière sélective le sort des interneurones GABAergiques, des polydendrocytes et des astrocytes dérivés de la MGE, nous avons croisé soit des souris Nkx2.1-Cre, des souris Glast-Cre ERT+/- inductibles ou bien des souris NG2-Cre avec des souris Rosa26-lox-STOP-lox-YFP (Rosa26-YFP) Cre rapportrices. L'origine précise des astroglies positives pour Nkx2.1 a été directement établie en combinant une coloration immunologique pour les glies et une électroporation focale d'un plasmide pCAG-GS-EGFP dans les domaines subpalliaux de tranches organotypiques, puis également, par des cultures de neurosphères in vitro et des expériences d'électroporation in utero d'un plasmide pCAG-GS-tomato dans le pallium ventral d'embryons Nkx2.1-Cre+/Rosa- YFP+/- au stade E14.5. Nous avons donc confirmé que les trois régions germinales du télencéphale ventral, c'est-à-dire, la MGE, l'AEP/POA et le noyau triangulaire septal sont capables de générer des cellules astrogliales. D'autre part, l'immunohistochimie pour plusieurs marqueurs d'astrocytes ou de polydendrocytes, dans les embryons Nkx2.1-/- et contrôles ainsi que dans les neurosphères, a révélé une sévère perte de ces deux types gliaux chez les mutants. Nous avons trouvé que la perte de glies correspondait à une diminution de la capacité de division des précurseurs dérivés de Nkx2.1, ainsi que l'incapacité de ces précurseurs de se différencier en cellules gliales. Nous avons en effet observé une diminution importante des cellules BrdU+ en division exprimant Nkx2.1dans la MGE*, la POA* et le noyau septal* des mutants pour Nkx2.1. D'autre part, nous avons pu mettre en évidence aussi bien in vitro, qu'in vivo, que certains précurseurs Nkx2.1+ chez le mutant gardent la capacité à se différencier en neurones tandis qu'ils perdent celle de se différencier en cellules gliales. Prises dans leur ensemble, ces observations indiquent pour la première fois que le facteur de transcription Nkx2.1 régule les étapes de prolifération et de différentiation des précurseurs des trois domaines subpalliaux qui génèrent les astroglies et polydendrocytes embryonnaires précoces. Par la suite, dans le but de comprendre la fonction potentielle de ces glies précoces, nous avons procédé à de multiples colorations immunohistochimiques sur des animaux Nkx2.1-/- et sauvages, ainsi que sur des souris Nkx2.1-Cre croisées à des souris Rosa-DTA+/- dans lesquelles la toxine diphthérique hautement toxique a permis de supprimer sélectivement la majorité des cellules dérivées de Nkx2.1. De manière intéressante, nous avons observé dans ces deux mutants, une perte drastique et significative de cellules astrogliales GFAP+, GLAST+ et polydendrocytaires NG2+ et S100ß+ dans le télencéphale, à la midline et dans les aires corticales médianes. Ces pertes ont pu être directement corrélées avec des défauts de guidage axonal observés dans le corps calleux (CC), la commissure hippocampique (HIC), le fornix (F) et la commissure antérieure (AC). Le guidage axonal est une étape clé permettant aux neurones de former des connections spécifiques et de s'organiser dans un réseau fonctionnel. La contribution des cellules « guidepost » dans le CC et dans la AC comme médiateurs de la croissance des axones commissuraux à jusqu'à aujourd'hui été attribuée spécifiquement à des astroglies « guidepost » de la midline. Des résultats publiés précédemment dans notre groupe, ont permis de montrer que, pendant le développement embryonnaire, le CC est peuplé en plus de la glie par de nombreux neurones « guidepost » glutamatergiques et GABAergiques qui sont essentiels pour le croisement correct des axones callosaux à la midline. Ainsi, la contribution relative des populations individuelles neuronales ou gliales pour le guidage des axones commissuraux demande à être approfondie afin de mieux comprendre les mécanismes de guidage. A ces fins, nous avons croisé des souris Nkx2.1-Cre avec des souris NSE-DTA+/- qui expriment la toxine diphthérique uniquement dans les neurones et ainsi, nous avons pu sélectivement supprimer les neurones dérivés de domaines Nkx2.1+. Dans les souris Nkx2.1-/-,nous avons découvert que le CC était désorganisé avec des axones callosaux perdant partiellement leur orientation, alors que dans les souris Nkx2.1Cre+/Rosa-DTA+/- et Nkx2.1Cre+/NSE-DTA+/-, l'organisation axonale n'était pas affectée. De plus, les faisceaux hippocampiques du fornix étaient défasciculés dans les trois types de mutants. Par ailleurs, la formation de la commissure antérieure (AC) était complètement absente dans les souris Nkx2.1-/- d'une part, et d'autre part, celle-ci était divisée en deux à trois voies séparées dans les souris Nkx2.1Cre+/Rosa-DTA+/-. Finalement, la AC était soit absente, soit réduite de manière ne former plus qu'un faisceau relativement plus étroit dans les souris Nkx2.1Cre+/NSE-DTA+/- en comparaison avec la AC sauvage. Ces derniers résultats indiquent clairement que les cellules dérivées de Nkx2.1 à la midline, jouent un rôle majeur dans le guidage des axones commissuraux et que, autant les neurones, que les astrocytes « guidepost » dérivés de Nkx2.1, sont des éléments nécessaires au développement correct de ces commissures. En outre, lors de nos investigations sur les souris Nkx2.1-/- et Nkx2.1Cre+/Rosa-DTA+/-, nous avons remarqués des défauts sévères et similaires dans la distribution des erythrocytes et dans la morphologie du réseau de vaisseaux sanguins dans le cerveau embryonnaire des deux mutants précités. Puisque nous n'avons jamais observé de recombinaison de la Cre recombinase dans les vaisseaux sanguins des souris Nkx2.1Cre, nous en avons déduit que les défauts de vaisseaux observés étaient dus à la perte de cellules dérivées de Nkx2.1. Il existerait donc en plus de la fonction cellulaire autonome de Nkx2.1 reconnue pour régulée directement la spécification des cellules endothéliales, une fonction indirecte de Nkx2.1. Afin de déterminer la contribution respective des populations individuelles neuronales ou gliales régulées par Nkx2.1 dans la construction du réseau de vaisseaux sanguins, nous avons utilisé diverses lignées de souris transgéniques. L'utilisation de souris Nkx2.1Cre+/NSE-DTA+/- a indiqué que les neurones dérivés de Nkx2.1 n'étaient pas impliqués dans ce processus. Finalement, afin de discriminer entre les deux populations de cellules gliales dérivées de Nkx2.1, les astroglies et les polydendrocytes, nous avons croisé une lignée de souris NG2-Cre avec des souris Rosa-DTA+/-. Dans ce dernier mutant, le réseau de vaisseaux sanguins du cortex ainsi que la distribution des erythrocytes étaient affectés de la même manière que dans le cortex des souris Nkx2.1Cre+/Rosa-DTA+/-. Par conséquent, ce résultat indique que très probablement, les polydendrocytes NG2+ sont impliqués dans la mise en place du réseau de vaisseaux dans le cerveau. Prises dans leur ensemble, ces observations montrent que durant le développement embryonnaire du cerveau, des sous-populations de glies régulées par Nkx2.1 jouent un rôle de cellules « guidepost » dans le guidage des axones, ainsi que des vaisseaux. Les polydendrocytes sont impliquées dans la régulation de l'angiogenèse tandis que, autant les neurones GABAergiques que les astrocytes collaborent dans le guidage des axones commissuraux en croissance.
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Using a direct binding assay based on photoaffinity labeling, we have studied the interaction of antigenic peptides with murine MHC class I molecules on living cells. Photoreactive derivatives were prepared by N-terminal amidation with iodo, 4-azido salicylic acid of the Kd restricted Plasmodium berghei circumsporozoite (P.b. CS) peptide 253-260 (YIPSAEKI) and the Db-restricted Adenovirus 5 early region 1A (Ad5 E1A) peptide 234-243 (SGPSNTPPEI). As assessed in functional competition experiments, both peptide derivatives retained the specific binding activity of the parental peptides for Kd or Dd, respectively. The P.b. CS photoprobe specifically labeled Kd molecules on P815 (H-2d) cells, but failed to label RMA (H-2b) cells. Conversely, the Ad5 E1A photoprobe specifically labeled Db molecules on RMA cells, but failed to label P815 cells. When the two photoprobes were tested on a panel of Con A-activated spleen cells expressing 10 different H-2 haplotypes, significant photoaffinity labeling was observed only on H-2d cells with the P.b. CS photoprobe and on H-2b cells with the Ad5 E1A photoprobe. Labeling of cell-associated Kd or Db molecules with the photoprobes was specifically inhibited by antigenic peptides known to be presented by the same class I molecule. Photoaffinity labeling of Kd with the P.b. CS photoprobe was used to study the dynamics of peptide binding on living P815 cells. Binding increased steadily with the incubation period (up to 8 h) at 37 degrees C and at ambient temperature, but was greatly reduced (greater than 95%) at 0 to 4 degrees C or in the presence of ATP synthesis inhibitors. The magnitude of the labeling was twofold higher at room temperature than at 37 degrees C. In contrast, binding to isolated Kd molecules in solution rapidly reached maximal binding, particularly at 37 degrees C. Dissociation of the photoprobe from either cell-associated or soluble Kd molecules was similar, with a half time of approximately 1 h at 37 degrees C, whereas the complexes were long-lived at 4 degrees C in both instances.
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Estudi realitzat a partir d’una estada a la the Salk Institute, Estats Units, entre 2010 i 2012. L'estabilitat del genoma és essencial per a la supervivència de les cèl • lules mare, però, l'estabilitat del proteoma pot tenir un paper igualment important en la identitat de cèl • lules mare i la seva funció. La nostra hipòtesi és que les cèl • lules mare tenen la capacitat de proteostasis augmentada en comparació amb els seus homòlegs diferenciats i ens varem preguntar si l'activitat del proteasoma és diferent a les cèl • lules mare embrionàries humanes (hESCs). En particular, els nostres resultats mostren que les poblacions de cèl• lules mare presenten una activitat del proteasoma que es correlaciona amb majors nivells de la subunitat 19S del proteasoma PSMD11/RPN-6 i un corresponent augment del ensamblatge del 26S/30S proteasoma. L'expressió ectòpica de PSMD11 és suficient per augmentar l'activitat del proteasoma. Sorprenentment, varem trobar que la llarga vida del GLP-1 C. elegans mutant té també un augment dramàtic en l'activitat del proteasoma associat a nivells augmentats en l'expressió de RPN-6. El factor de transcripció DAF-16 és essencial per l'augment de la longevitat de GLP-1 i els cucs mutants que trobem DAF-16 necessari per a l'augment d'expressió de RPN-6 i, per tant, per l'activació de l'activitat del proteasoma en GLP-1 mutant animals. Una possibilitat interessant és que els gens que regulen la vida i la resistència a l'estrès en C. elegans poden també regular la funció hESCs de mamífer, cèl • lules que son considerades immortals. Aquests resultats ens van portar a la conclusió de que FOXO4, un factor de transcripció sensible a la insulina/IGF-1, regula l'activitat del proteasoma en hESCs, el que suggereix un paper per FOXO4 en la funció d’aquestes cèl • lules. En efecte, FOXO4 es necessari per a la diferenciació en llinatges neuronals de les hESCs. Els nostres resultats estableixen una nova regulació de laproteostasis en hESCs que uneix la longevitat i la resistència a l'estrès en invertebrats amb la funció i identitat de les hESCs.
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The factors responsible for the phenotypic heterogeneity of memory CD4 T cells are unclear. In the present study, we have identified a third population of memory CD4 T cells characterized as CD45RA(+)CCR7(-) that, based on its replication history and the homeostatic proliferative capacity, was at an advanced stage of differentiation. Three different phenotypic patterns of memory CD4 T cell responses were delineated under different conditions of antigen (Ag) persistence and load using CD45RA and CCR7 as markers of memory T cells. Mono-phenotypic CD45RA(-)CCR7(+) or CD45RA(-)CCR7(-) CD4 T cell responses were associated with conditions of Ag clearance (tetanus toxoid-specific CD4 T cell response) or Ag persistence and high load (chronic HIV-1 and primary CMV infections), respectively. Multi-phenotypic CD45RA(-)CCR7(+), CD45RA(-)CCR7(-) and CD45RA(+)CCR7(-) CD4 T cell responses were associated with protracted Ag exposure and low load (chronic CMV, EBV and HSV infections and HIV-1 infection in long-term nonprogressors). The mono-phenotypic CD45RA(-)CCR7(+) response was typical of central memory (T(CM)) IL-2-secreting CD4 T cells, the mono-phenotypic CD45RA(-)CCR7(-) response of effector memory (T(EM)) IFN-gamma-secreting CD4 T cells and the multi-phenotypic response of both IL-2- and IFN-gamma-secreting cells. The present results indicate that the heterogeneity of different Ag-specific CD4 T cell responses is regulated by Ag exposure and Ag load.
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Le développement des cellules B est constitué d'une première phase qui se déroule dans la moelle en absence d'antigène et d'une deuxième phase qui se déroule dans les organes lymphoïdes secondaires et qui débute uniquement en présence d'antigène. Cette deuxième partie est extrêmement importante et doit être très bien régulée pour lutter efficacement contre les pathogènes, ainsi que pour éviter de nombreuses maladies de type auto-immunes. Ce travail est basé à l'origine sur l'étude de souris mutantes dans lesquelles une protéine des cellules T est modifiée, impliquant une très forte activation des cellules B en absence d'antigène et de manière non spécifique. Ces souris constituent donc un outil de travail très intéressant pour étudier tout d'abord le mécanisme aboutissant à l'activation des cellules B dans ce contexte particulier. De plus comme ces souris contiennent énormément de cellules sécrétant des anticorps, à savoir les plasmocytes, il est facile d'étudier leur phénotype. Cela nous a permis de démontrer qu'un récepteur membranaire, CD93 est exprimé à leur surface. Cette observation a ensuite été confirmée dans des souris normales, de type sauvage. L'utilisation de ce marqueur de surface nous a permis de caractériser plus en détail les étapes du développement des plasmocytes. De plus nous avons tenté de trouver la fonction jouée par cette molécule à la surface de ces cellules, en utilisant des souris dans lesquelles ce récepteur a été supprimé. Si les premières étapes de l'activation des cellules B étaient normales, ces souris n'étaient par contre pas capables de produire des anticorps à long-terme dans le sang. Nous avons pu montrer que la survie des plasmocytes en l'absence de CD93 est moins efficace dans la moelle, probablement du au fait qu'en absence de cette molécule, les plasmocytes ont plus de difficultés à adhérer dans ce que l'on appelle des niches de survie. Nous avons essayé ensuite de déterminer si CD93 peut être utilisé comme cible thérapeutique dans le cadre de maladies auto-immunes ou de lymphomes. Bien que CD93 soit exprimé à la surface des cellules d'intérêt dans les souris souffrant de lupus, il n'a pas été possible de les éliminer avec un anticorps dirigé contre CD93. De plus nous n'avons pas pu mettre en évidence l'expression de CD93 à la surface des plasmocytes humains induits in vitro. SUMMARY : Antigen dependent B cell activation is a key aspect of the adaptive immunity which is involved in the efficient response against pathogens, but also in vaccination and in numerous pathologies. The aim of this project was to investigate two key aspects of the late B cell development, namely the role of costimulatory molecules in the immunological synapse between T and B cells and the characterization of a new plasma cell marker, CD93. This work was initially based on the study of the LatY136F mutant mouse. The latter harbors a point mutation in the LAT adaptor protein which is involved in T cell receptor signaling. As a consequence of this mutation, CD4 T cells in the periphery expand strongly and are polarized in a TH2 manner leading to a normal but exaggerated B cell response. For this reason, these mice provide a useful tool to investigate different aspects of the late B cell development. The first part of the project was focused on the role played by costimulatory molecules in LotY136F CD4 T cell mediated B cell activation. In vitro studies showed that CD80/CD86, IL-4 and LFA-1 were required for LatY136FT cells to activate B cells whereas CD40 and IcosL were not necessary. In vivo we showed that CD80/CD86 was required for initial T cell expansion whereas CD40 and IcosL deficiency led to a less efficient B cell activation. The large amount of plasma cells present in LatY136F mice allows investigating in more details their phenotype and CD93 was found to be expressed on their surface, This observation was confirmed in wild type B cells activated either in vivo or in vitro with T-independent or T-dependent antigens. Moreover we found that CD93 expression can occur either before CD138/Blimp-1 induction or after, showing that two independent pathways can lead to the formation of CD93/CD138 double positive population, which was shown to be the more mature. Indeed, their phenotype correlated with modified transcriptional network, high isotype switched antibody secretion and cell cycle arrest. Analysis of CD93 deficient mice demonstrated that the initial B cell activation after immunization was normal, but also showed that these mice failed to maintain a high antibody secretion level at later time points both after primary and boost immunization. This was shown to be due to a less efficient survival of the long-lived plasma cells in the bone marrow niches, most likely related with a defective adhesion process in absence of CD93. We investigated the possibility to use CD93 as a target to treat plasma cell pathologies, but even if this molecule is expressed on cells of interest in the bone marrow of lupus mice, it was not possible to deplete them using anti-CD93 antibodies. Moreover we were not able to show its expression on the surface of in vitro activated B cells and multiple myeloma cell lines of human origin. In conclusion, our data helped understand both the mechanisms leading to the polyclonal B cell activation occurring in the LatY136F KI mouse and the role played by CD93 on the surface of plasma cells, which could potentially open the way to therapeutic application.
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OBJECTIVE: The pro-inflammatory cytokine interleukin-1 beta (IL-1 beta) generates pancreatic beta-cells apoptosis mainly through activation of the c-Jun NH(2)-terminal kinase (JNK) pathway. This study was designed to investigate whether the long-acting agonist of the hormone glucagon-like peptide 1 (GLP-1) receptor exendin-4 (ex-4), which mediates protective effects against cytokine-induced beta-cell apoptosis, could interfere with the JNK pathway. RESEARCH DESIGN AND METHODS: Isolated human, rat, and mouse islets and the rat insulin-secreting INS-1E cells were incubated with ex-4 in the presence or absence of IL-1 beta. JNK activity was assessed by solid-phase JNK kinase assay and quantification of c-Jun expression. Cell apoptosis was determined by scoring cells displaying pycnotic nuclei. RESULTS: Ex-4 inhibited induction of the JNK pathway elicited by IL-1 beta. This effect was mimicked with the use of cAMP-raising agents isobutylmethylxanthine and forskolin and required activation of the protein kinase A. Inhibition of the JNK pathway by ex-4 or IBMX and forskolin was concomitant with a rise in the levels of islet-brain 1 (IB1), a potent blocker of the stress-induced JNK pathway. In fact, ex-4 as well as IBMX and forskolin induced expression of IB1 at the promoter level through cAMP response element binding transcription factor 1. Suppression of IB1 levels with the use of RNA interference strategy impaired the protective effects of ex-4 against apoptosis induced by IL-1 beta. CONCLUSIONS: The data establish the requirement of IB1 in the protective action of ex-4 against apoptosis elicited by IL-1 beta and highlight the GLP-1 mimetics as new potent inhibitors of the JNK signaling induced by cytokines.
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Follicular Th (T(FH)) cells have emerged as a new Th subset providing help to B cells and supporting their differentiation into long-lived plasma cells or memory B cells. Their differentiation had not yet been investigated following neonatal immunization, which elicits delayed and limited germinal center (GC) responses. We demonstrate that neonatal immunization induces CXCR5(high)PD-1(high) CD4(+) T(FH) cells that exhibit T(FH) features (including Batf, Bcl6, c-Maf, ICOS, and IL-21 expression) and are able to migrate into the GCs. However, neonatal T(FH) cells fail to expand and to acquire a full-blown GC T(FH) phenotype, as reflected by a higher ratio of GC T(FH)/non-GC CD4(+) T cells in immunized adults than neonates (3.8 × 10(-3) versus 2.2 × 10(-3), p = 0.01). Following the adoptive transfer of naive adult OT-II CD4(+) T cells, OT-II T(FH) cells expand in the vaccine-draining lymph nodes of immunized adult but not infant recipients, whereas naive 2-wk-old CD4(+) OT-II cells failed to expand in adult hosts, reflecting the influence of both environmental and T cell-intrinsic factors. Postponing immunization to later in life increases the number of T(FH) cells in a stepwise manner, in direct correlation with the numbers of GC B cells and plasma cells elicited. Remarkably, adjuvantation with CpG oligonucleotides markedly increased GC T(FH) and GC B cell neonatal responses, up to adult levels. To our knowledge, this is the first demonstration that the T(FH) cell development limits early life GC responses and that adjuvants/delivery systems supporting T(FH) differentiation may restore adultlike early life GC B cell responses.
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AIMS/HYPOTHESIS: Exposure of pancreatic beta cells to cytokines released by islet-infiltrating immune cells induces alterations in gene expression, leading to impaired insulin secretion and apoptosis in the initial phases of type 1 diabetes. Long non-coding RNAs (lncRNAs) are a new class of transcripts participating in the development of many diseases. As little is known about their role in insulin-secreting cells, this study aimed to evaluate their contribution to beta cell dysfunction. METHODS: The expression of lncRNAs was determined by microarray in the MIN6 beta cell line exposed to proinflammatory cytokines. The changes induced by cytokines were further assessed by real-time PCR in islets of control and NOD mice. The involvement of selected lncRNAs modified by cytokines was assessed after their overexpression in MIN6 cells and primary islet cells. RESULTS: MIN6 cells were found to express a large number of lncRNAs, many of which were modified by cytokine treatment. The changes in the level of selected lncRNAs were confirmed in mouse islets and an increase in these lncRNAs was also seen in prediabetic NOD mice. Overexpression of these lncRNAs in MIN6 and mouse islet cells, either alone or in combination with cytokines, favoured beta cell apoptosis without affecting insulin production or secretion. Furthermore, overexpression of lncRNA-1 promoted nuclear translocation of nuclear factor of κ light polypeptide gene enhancer in B cells 1 (NF-κB). CONCLUSIONS/INTERPRETATION: Our study shows that lncRNAs are modulated during the development of type 1 diabetes in NOD mice, and that their overexpression sensitises beta cells to apoptosis, probably contributing to their failure during the initial phases of the disease.
