Gabriel Gachelin

Antigen-specific T regulatory-1 cells are associated with immunosuppression in a chronic helminth infection (onchocerciasis).

Different mechanisms underlie the phenomenon of peripheral tolerance. Recently, a new subset of CD4+ T cells, called T regulatory-1 (Tr1) cells, was described which show suppressor functions in vitro and in vivo and are characterized by a predominant production of IL-10 and/or TGF-beta. Tr1 cells have so far been generated experimentally in an IL-10-rich environment and hold promise for exploitation in the suppression of alloreactions and inflammatory or allergic dispositions. However, these cells have not been characterized in infectious diseases. Here we show that in the chronic helminth infection onchocerciasis (river blindness), where patients have relatively little sign of dermatitis despite the presence of millions of small worms in the skin, T cells can be obtained which bear characteristics of Tr1 cells, producing no IL-2 or IL-4 but substantial amounts of IL-10, variable amounts of IL-5, and some IFN-gamma. These cells display elevated amounts of CTLA-4 after stimulation and are able to inhibit other T cells in coculture, in contrast to Th1 and Th2 clones. This is the first time that this type of suppressor T cell has been cloned as naturally occurring during an infectious disease.

Effect of Chlamydia trachomatis Infection and Subsequent Tumor Necrosis Factor Alpha Secretion on Apoptosis in the Murine Genital Tract

ABSTRACT The pathology observed during Chlamydia infection is due initially to localized tissue damage caused by the infection itself, followed by deleterious host inflammatory responses that lead to permanent scarring. We have recently reported that the infection byChlamydia in vitro results in apoptosis of epithelial cells and macrophages and that infected monocytes secrete the proinflammatory cytokine interleukin-1β. At the same time, proinflammatory cytokines such as tumor necrosis factor alpha (TNF-α) can also trigger apoptosis of susceptible cells. To study the possible relationship between Chlamydia trachomatis infection and apoptosis in vivo, we used the terminal deoxynucleotidyltransferase-mediated dUTP nick end labeling technique to determine whether infection may cause apoptosis in the genital tract of mice and, conversely, whether cytokines produced during the inflammatory response may modulate the level of apoptosis. Our results demonstrate that infected cells in the endocervix at day 2 or 7 after infection are sometimes apoptotic, although there was not a statistically significant change in the number of apoptotic cells in the endocervix. However, large clumps of apoptotic infected cells were observed in the lumen, suggesting that apoptotic cells may be shed from the endocervix. Moreover, there was a large increase in the number of apoptotic cells in the uterine horns and oviducts after 2 or 7 days of infection, which was accompanied by obvious signs of upper tract pathology. Interestingly, depletion of TNF-α led to a decrease in the level of apoptosis in the uterine horns and oviducts of animals infected for 7 days, suggesting that the inflammatory cytokines may exert part of their pathological effect via apoptosis in infected tissues.

Comparison of the T Cell Patterns in Leprous and Cutaneous Sarcoid Granulomas: Presence of Vα24-Invariant Natural Killer T Cells in T-Cell-Reactive Leprosy Together with a Highly Biased T Cell Receptor Vα Repertoire

The T-cell-reactive (eg, tuberculoid and reversal) forms of leprosy represent a well-defined granulomatous reaction pattern against an invading pathogen. The immune response in cutaneous sarcoidosis is a granulomatous condition that pathologically is very similar to T-cell reactive leprosy. However, it lacks a defined causative agent. In view of the role of NKT cells in murine granulomas induced by mycobacterial cell walls, we have searched for the presence of NKT cells in the cutaneous lesions of both leprosy and sarcoidosis. These cells were present in T-cell-reactive leprosy but were undetectable in cutaneous sarcoidosis. We have also studied the TCR Valpha repertoire in the two diseases. In addition to Valpha24(+) NKT cells, all patients with T-cell-reactive leprosy showed a very restricted T-cell-reactive Valpha repertoire with a strong bias toward the use of the Valpha6 and Valpha14 segments. Valpha6 and Valpha14(+) T cells were polyclonal in terms of CDR3 length and Jalpha usage. In contrast, most sarcoidosis patients showed a diverse usage of Valpha chains associated with clonal or oligoclonal expansions reminiscent of antigen-driven activation of conventional T cells. Thus the origin and perpetuation of the two kinds of granulomatous lesions appear to depend on altogether distinct T-cell recruiting mechanisms.

Saccharides on teratocarcinoma cell plasma membranes their investigation with radioactively labelled lectins

We have studied the interaction of five lectins differing in their sugar specificity, with the surface of clonal cell lines derived from transplantable murine teratocarcinoma. The results show that the differentiation from primitive embryonal carcinoma cells into parietal yolk sac cells is accompanied by changes in cell surface saccharides. These changes consist of a marked decrease in the total number of binding sites for the L-fucose-specific lectin of Lotus tetragonolobus and a large increase in the total number of binding sites for wax bean agglutinin. It is suggested that these differences can be used as markers in the study of this early embryonic differentiation. No agglutination of primitive embryonal carcinoma cells or of parietal yolk sac cells by low concentrations (10mug/ml) of concanavalin A, soybean agglutinin or the fucose binding proteins was observed.

Complete sequence of the amphioxus (Branchiostoma lanceolatum) mitochondrial genome: Relations to vertebrates

The complete nucleotide sequence of the mitochondrial DNA of the amphioxus Branchiostoma lanceolatum has been determined. This mitochondrial genome is small (15 076 bp) because of the short size of the two rRNA genes and the tRNA genes. In addition, this genome contains a very short non-coding region (57 bp) with no sequence reminiscent of a control region. The organisation of the coding genes, as well as of the two rRNA genes, is identical to that of the sea lamprey. Some differences in the repartition of the tRNA genes occur when compared to the lamprey. The mitochondrial codon usage of the amphioxus is reminiscent of that of urochordates since the AGA codon is read as a glycine and not as a stop codon as in vertebrates. Moreover, the base composition at the wobble positions of the codon is strongly biased toward guanine. Altogether, these data clearly emphasise the close relationships between amphioxus and vertebrates, and reinforce the notion that prochordates may be viewed as the brother group of vertebrates.

Role of the Complementarity-Determining Region 3 (CDR3) of the TCR-β Chains Associated with the Vα14 Semi-Invariant TCR α-Chain in the Selection of CD4+ NK T Cells

The NK1.1+TCRαβint CD4+, or double negative T cells (NK T cells) consist of a mixture of CD1d-restricted and CD1d-unrestricted cells. The relationships between CD4+NK1.1+ T cells and conventional T cells are not understood. To compare their respective TCR repertoires, NK1.1+TCRαβint, CD4+ T cells have been sorted out of the thymus, liver, spleen, and bone marrow of C57BL/6 mice. Molecular analysis showed that thymus and liver used predominantly the Vα14-Jα281 and Vβ 2, 7, and 8 segments. These cells are CD1d restricted and obey the original definition of NK T cells. The complementarity-determining region 3 (CDR3) sequences of the TCR Vβ8.2-Jβ2.5 chain of liver and thymus CD4+ NK T cells were determined and compared with those of the same rearrangements of conventional CD4+ T cells. No amino acid sequence or usage characteristic of NK T cells could be evidenced: the Vβ8.2-Jβ2.5 diversity regions being primarily the same in NK T and in T cells. No clonal expansion of the β-chains was observed in thymus and liver CD1d-restricted CD4+NK T cells, suggesting the absence of acute or chronic Ag-driven stimulation. Molecular analysis of the TCR used by Vα14-Jα281 transgenic mice on a Cα−/− background showed that the α-chain can associate with β-chains using any Vβ segment, except in NK T cells in which it paired predominately with Vβ 2, 7, and 8+ β-chains. The structure of the TCR of NK T cells thus reflects the affinity for the CD1d molecule rather than a structural constraint leading to the association of the invariant α-chain with a distinctive subset of Vβ segment.

Changes in fucosyl-glycopeptides during early post-implantation embryogenesis in the mouse.

Defining the post-2015 development agenda is a daunting yet inspiring and historic task for the United Nations (UN) and its Member States. Now is the time for the international community to go beyond existing geo-political and ideological divides and together shape a bold and ambitious agenda. The conversations around post-2015 have been the most open of its kind to date. The decisions on the shape of the next agenda still rest with Member States. The next twelve months will be critical in securing an agreement on a new vision and a responsive framework integrating economic growth, social justice and environmental stewardship. The success of the post-2015 development agenda will depend on how well it can mobilize political will and resources of all partners at various levels. A true transformation will require ownership and mutual accountability.

Evolution of the major histocompatibility complex: a hundred-fold amplification of MHC class I genes in the African pigmy mouse Nannomys setulosus

The genome of the African murine rodent Nannomys setulosus was found to harbor several thousand major histocompatibility complex (MHC) class I genes instead of the 30–40 genes found in conventional laboratory mice, which are mostly of Mus musculus domesticus origin. Other genes of N. setulosus, either functionally or physically linked to class I genes, are not amplified. Amplified genes derive from as few as three ancestors and amplification has likely occured after the divergence of the two Nannomys species, N. setulosus and N. minutoides, which took place about three million years ago. Amplified genes are mostly pseudogenes. Statistical analysis of dinucleotide frequencies leads us to propose that inactivation of the genes has occured through the repeat induced mutation process, a possible “newcomer” in the evolution of the MHC.

Total Enantioselective Synthesis and In Vivo Biological Evaluation of a Novel Fluorescent BODIPY α‐Galactosylceramide

Natural killer T (NKT) cells are a distinct subset of mature lymphocytes endowed with features of activated and regulatory T cells. α‐Galactosylceramides (α‐GalCers), the synthetic prototype of which is KRN7000, are the only natural reagents recognised by the T‐cell receptor of NKT cells. The α‐GalCer‐activated NKT cells promptly release IFNγ and IL‐4 (IFN=interferon; IL=interleukin) and undergo apoptotic death within hours. In mice, activated NKT cells are responsible for antitumour activity and protection against autoimmune diseases. KRN7000 can thus be considered as the root of a family of novel immunoregulatory drugs. To get insights into the in vivo behaviour of α‐galactosylceramides, an original fluorescent derivative has been prepared by following a convergent synthetic scheme. This strategy allows the introduction of different acyl chains, carbohydrate residues and various labels in the final steps of the synthesis. The fluorescent BODIPY probe derived from a versatile glycolipid precursor is as active as KRN7000 for inducing apoptosis of liver NKT cells. Fluorescence was detected in peritoneal macrophages and splenic antigen‐presenting cells, in Kupffer‐like cells in the liver, but not in lymphocytes.

An H-2K gene of the tw32 mutant at the T/t complex is a close parent of an H-2Kq gene.

Two recombinant mice have been recovered from the progeny of Ttf/tw32+ animals. They have lost the tw32 lethality factor(s) and gained tufted, presumably from the T chromosome. Southern blot analysis of class I genes of these two new partial tPA027 and tPA286 haplotypes indicates that they have retained at least part of the major histocompatibility complex of the tw32 chromosome (H-2 haplotype H-2w28). We have prepared a phage library of Eco RI-digested DNA from homozygous tPA027 animals. Upon screening the library with a cDNA probe specific for H-2K genes, we isolated a class I gene displaying all of the distinctive features of a genuine H-2K gene, and which could thus be defined as an H-2Kw28 gene. The H-2Kw28 gene is 92–95% homologous to H-2Kband H-2Kdgenes and differs significantly from the other class I genes sequenced so far. Homology with the H-2Kbsequence reaches nearly 100% in the 3′ part of the H-2Kw28 gene. Moreover, the homology with an H-2KqcDNA sequence reaches 99.8%. Several hypotheses can account for the near identity of H-2Kb, H-2Kq,and H-2Kw28 gene sequences: either recombination between H-2w28 and H-2band H-2qsequences occurred before or at the.time the strain was established, or the class I genes of the tw32 chromosome and the H-2band H-2qgenes found in inbred strains of mice have separated from each other rather recently.