Microbiota stimulation generates LCMV-specific memory CD8 T cells in SPF mice and determines their TCR repertoire during LCMV infection.

Both mouse and human harbour memory phenotype CD8 T cells specific for antigens in hosts that have not been previously exposed to these antigens. The origin and the nature of the stimuli responsible for generation of CD44 CD8 T cells in specific pathogen-free (SPF) mice remain controversial. It is known that microbiota plays a crucial role in the prevention and resolution of systemic infections by influencing myelopoiesis, regulating dendritic cells, inflammasome activation and promoting the production of type I and II interferons.

A new mechanism shapes the naïve CD8 T cell repertoire: the selection for full diversity.

During thymic T cell differentiation, TCR repertoires are shaped by negative, positive and agonist selection. In the thymus and in the periphery, repertoires are also shaped by strong inter-clonal and intra-clonal competition to survive death by neglect. Understanding the impact of these events on the T cell repertoire requires direct evaluation of TCR expression in peripheral naïve T cells.

Correction: Depletion of Regulatory T Cells Induces High Numbers of Dendritic Cells and Unmasks a Subset of Anti-Tumour CD8+CD11c+ PD-1lo Effector T Cells.

[This corrects the article DOI: 10.1371/journal.pone.

Depletion of Regulatory T Cells Induces High Numbers of Dendritic Cells and Unmasks a Subset of Anti-Tumour CD8+CD11c+ PD-1lo Effector T Cells.

Natural regulatory T (Treg) cells interfere with multiple functions, which are crucial for the development of strong anti-tumour responses. In a model of 4T1 mammary carcinoma, depletion of CD25+Tregs results in tumour regression in Balb/c mice, but the mechanisms underlying this process are not fully understood. Here, we show that partial Treg depletion leads to the generation of a particular effector CD8 T cell subset expressing CD11c and low level of PD-1 in tumour draining lymph nodes.

The cyclin D1 carboxyl regulatory domain controls the division and differentiation of hematopoietic cells.

Background: The family of D cyclins has a fundamental role in cell cycle progression, but its members (D1, D2, D3) are believed to have redundant functions. However, there is some evidence that contradicts the notion of mutual redundancy and therefore this concept is still a matter of debate.

Results: Our data show that the cyclin D1 is indispensable for normal hematopoiesis.

Regulatory T cells prevent CD8 T cell maturation by inhibiting CD4 Th cells at tumor sites.

Natural regulatory T cells (Tregs) are present in high frequencies among tumor-infiltrating lymphocytes and in draining lymph nodes, supposedly facilitating tumor development. To investigate their role in controlling local immune responses, we analyzed intratumoral T cell accumulation and function in the presence or absence of Tregs. Tumors that grew in normal BALB/c mice injected with the 4T1 tumor cell line were highly infiltrated by Tregs, CD4 and CD8 cells, all having unique characteristics.

Thymic selection revisited: how essential is it?

Intrathymic T cell development represents one of the best studied paradigms of mammalian development. Lymphoid committed precursors enter the thymus and the Notch1 receptor plays an essential role in committing them to the T cell lineages. The pre-T cell receptor (TCR), as an autonomous cell signaling receptor, commits cells to the alphabeta lineage while its rival, the gammadeltaTCR, is involved in generating the gammadelta lineage of T cells.

Extrathymic T cell lymphopoiesis: ontogeny and contribution to gut intraepithelial lymphocytes in athymic and euthymic mice.

In the absence of thymopoiesis, T lymphocytes are nevertheless present, mainly in the gut epithelium. Ontogeny of the extrathymic pathway and the extent of its involvement in euthymic mice are controversial. These questions have been addressed by assessing the expression of recombinase activating gene (RAG) through the use of green fluorescent protein RAG2 transgenic mouse models.

Characterization of T cell differentiation in the murine gut.

Gut intraepithelial CD8 T lymphocytes (T-IEL) are distinct from thymus-derived cells and are thought to derive locally from cryptopatch (CP) precursors. The intermediate stages of differentiation between CP and mature T-IEL were not identified, and the local differentiation process was not characterized. We identified and characterized six phenotypically distinct lineage-negative populations in the CP and the gut epithelium: (a) we determined the kinetics of their generation from bone marrow precursors; (b) we quantified CD3-epsilon, recombination activating gene (Rag)-1, and pre-Talpha mRNAs expression at single cell level; (c) we characterized TCR-beta, -gamma, and -alpha locus rearrangements; and (d) we studied the impact of different mutations on the local differentiation.

Different initiation of pre-TCR and gammadeltaTCR signalling.

Lineage choice is of great interest in developmental biology. In the immune system, the alphabeta and gammadelta lineages of T lymphocytes diverge during the course of the beta-, gamma- and delta-chain rearrangement of T-cell receptor (TCR) genes that takes place within the same precursor cell and which results in the formation of the gammadeltaTCR or pre-TCR proteins. The pre-TCR consists of the TCRbeta chain covalently linked to the pre-TCRalpha protein, which is present in immature but not in mature T cells which instead express the TCRalpha chain.

Pleiotropic changes controlled by the pre-T-cell receptor.

The construction of various gene-deficient mice has facilitated the understanding of the role of various receptors and signaling pathways that control the generation of alphabeta lineage cells. A predominant role is occupied by the pre-TCR, which not only generates large numbers of alphabeta lineage cells but also controls TCRbeta allelic exclusion as well as commitment to the gammadelta lineage versus the alphabeta lineage.

Crucial function of the pre-T-cell receptor (TCR) in TCR beta selection, TCR beta allelic exclusion and alpha beta versus gamma delta lineage commitment.

The analysis of T-cell receptor (TCR) beta selection, TCR beta allelic exclusion and TCR beta rearrangement in gamma delta T cells from normal and pre-TCR-deficient mice has shown that the pre-TCR has a crucial role in T-lymphocyte development: The pre-TCR is by far the most effective receptor that generates large numbers of CD4+8+ T cells with productive TCR beta rearrangements. In the absence of the pre-TCR, TCR beta rearrangement proceeds in developing cells irrespective of whether they already contain a productive TCR beta gene. The pre-TCR directs developing T cells to the alpha beta lineage because gamma delta T cells from pT alpha-/- mice proceed much further in TCR beta rearrangement than gamma delta T cells from wild-type mice.

On the role of the pre-T cell receptor in alphabeta versus gammadelta T lineage commitment.

The role of the pre-T cell receptor (TCR) in lineage commitment to the gammadelta versus alphabeta lineage of T cells was addressed by analyzing TCRbeta chain rearrangements in gammadelta T cells from wild-type and pre-TCR-deficient mice by single cell polymerase chain reaction. Results show that the pre-TCR selects against gammadelta T cells containing rearranged Vbeta genes and that gammadelta T cell precursors but not gammadelta T cells express the pre-TCRalpha protein. Furthermore, pre-TCR-induced proliferation could not be detected in gammadelta T cells.

Essential role of the pre-T cell receptor in allelic exclusion of the T cell receptor beta locus.

Following the recent realization that TCR beta transgenes can severely inhibit the rearrangement of endogenous Vbeta gene segments in the absence of pre-TCR alpha (pT alpha) chains, we tested whether the pre-TCR has an essential role in TCR beta allelic exclusion under more physiological conditions by analyzing TCR rearrangement in immature thymocytes by single-cell PCR. Our results in pT alpha+ mice are consistent with an ordered model of TCR beta rearrangement beginning on one allele and continuing on the other only when the first attempt is unsuccessful. By contrast, a higher proportion of thymocytes from pT alpha-/- mice exhibited two productive TCR beta alleles.

A novel disulfide-linked heterodimer on pre-T cells consists of the T cell receptor beta chain and a 33 kd glycoprotein.

We describe a novel signal-transducing protein complex, which consists of the T cell receptor (TCR) beta chain that is disulfide linked to a 33 kd glycoprotein and noncovalently associated with proteins of the CD3 complex on the surface of the pre-T cell line SCB.29. This 33 kd glycoprotein, provisionally designated gp33, represents neither of the known TCR chains and has escaped previous detection because it labels poorly by surface iodination.

Molecular analysis of T-cell receptor transcripts in a human T-cell leukemia bearing a t(1;14) and an inv(7); cell surface expression of a TCR-beta chain in the absence of alpha chain.

The polymerase chain reaction (PCR) was used to amplify cDNA in order to characterize normal and hybrid T-cell receptor (TCR) gene rearrangements derived from a T-cell acute lymphoblastic leukemia (T-ALL) bearing a chromosome 7 inversion. The nucleotide sequence analysis of the amplified product showed the presence of an out-of-frame V beta/J gamma/C gamma transcript and an in-frame V gamma/J gamma/C beta transcript which result from an interlocus recombination between the TCR-beta and gamma loci and the transcription of the reciprocal hybrid TCR gene. The sequence analysis of the reciprocal DNA segment directly involved in the breakpoint of the inversion showed a recombination between a J gamma-sequence heptamer signal and a coding J beta gene segment.

The use of anchored polymerase chain reaction for the study of large numbers of human T-cell receptor transcripts.

Anchored-PCR (A-PCR) is an approach designed to amplify and clone sequences with unknown 5' or 3' extremities. A-PCR is therefore appropriate for studying variable region of T-cell receptors (TCRs) expressed in polyclonal T-cell populations since it does not prejudge which variable gene segments are actually being used. We report here some critical modifications in the initial procedure to make it easy to clone and sequence large series of TCR transcripts.

Alternatively spliced T cell receptor transcripts expressed in human T lymphocytes.

We used the anchored-polymerase chain reaction (A-PCR) procedure to study human TCR transcripts derived from a variety of polyclonal T cell populations. In this series of experiments, 31 'unusual' cDNAs, which do not include exclusively V-J-C, J-C or 5'C genomic sequences, were identified. Ten of these were found to represent distinct types of alternatively spliced TCR alpha transcripts whose structure is derived from unusual splicing of one, two or even three intervening intronic sequences.

A third tal-1 promoter is specifically used in human T cell leukemias.

A common feature of T cell acute lymphoblastic leukemias (T-ALLs) is the presence of structural alteration of the 5' part of the tal-1 locus, localized on chromosomal band 1p32. These alterations consist of either a t(1;14)(p32;q11) chromosomal translocation (3% of T-ALLs) or tald submicroscopic deletion (12-25% additional T-ALLs). We have characterized a case of T-ALL with t(1;14)(p32;q11) in which, unlike the majority of t(1;14), the recombination with the T cell receptor delta elements affected the 3' side of the tal-1 locus.

Tumor-infiltrating CD3- NK cells are more effective than CD3+ T cells in killing autologous melanoma cells.

We have studied the phenotype and functional activity of tumor-infiltrating lymphocytes (TIL) derived from eight human melanomas cultured for up to 60 d in the presence of recombinant IL-2. In the early period of the cultures, TIL were predominantly T cells of CD8+ phenotype and contained 10-30% of CD3- cells. Four of the five early TIL cultures tested in a cytotoxicity assay displayed a degree of MHC-unrestricted lysis on a series of autologous and allogenic melanoma cell lines as well as the K562 natural killer-sensitive target.

[Adherence of monocytes to the aortic endothelium. Effect of the intraluminal pressure].

It is now generally accepted that most of the foam cells formed in the early fatty streak arise from circulating monocyte-macrophages. The effect of transmural pressure on mononuclear cells adherence to the vascular endothelium has been studied in excised rabbit thoracic aorta. Mononuclear cells were obtained from blood by centrifugation through lymphocyte separation medium (Ficoll-Paque, specific gravity 1.

Bone marrow transplantation for chronic granulocytic leukemia.

Thirty-seven patients with chronic granulocytic leukemia have been treated with supralethal chemoradiotherapy followed by transplantation of bone marrow from HLA-identical donors. All patients showed engraftment, and the Philadelphia chromosome (PH1) disappeared in each case. Four patients had syngeneic grafts before blast crisis and are still alive; 2 are in remission not maintained by therapy, and 2 others are receiving chemotherapy after having relapsed in the chronic phase.

Clinical significance of cytomegalovirus viremia in bone marrow transplantation.

Cytomegalovirus (CMV) viremia was systematically studied in 56 patients having undergone bone marrow transplantation for leukemia or aplastic anemia. Of the patients who survived at least three months, 57% had CMV viremia with a frequency peak between the 7th and the 9th weeks. We describe possible clinical signs associated with viremia, particularly late peripheral and/or central thrombocytopenia.