T-T interaction during thymic selection.

During thymic development, immature thymocytes are selected through the interaction with self peptides loaded on self MHC molecules. Although there is a great deal of debates on how specifically thymocytes recognize self peptides during thymic selection, recent data suggest an important role of peptide diversity in selecting an adequate T-cell repertoire in the thymus. The findings that human T-cells, unlike mouse T-cells, express MHC class II molecules on their surfaces and can play as antigen presenting cells suggesting possible peripheral T-T interaction network has not been intensively studied so far. However, the facts that human thymocytes have surface expression of MHC class II molecules and thymocytes can be selected by thymocytes in in vitro re-aggregation culture system led us to propose a novel hypothesis - "T-T interaction during thymic selection". Our proposition is that peripheral T-T interaction through TCR-derived peptides might reflect the selection process in the thymus and that T-T interaction also plays an important role in thymic selection. This review deals with our thymic T-T interaction hypothesis and its implications on human T-cell development.     

IL-2 protects against anti-CD3-induced cell death in human medullary thymocytes

In recent years, several studies have confirmed the clonal elimination of thymocytes with receptors that recognize Ag and MHC molecules present on the membrane of thymic stromal cells, a process that may be relevant to the establishment of self-tolerance. In our work, we show that anti-CD3 treatment of single positive CD4+ or CD8+ human medullary thymocytes (obtained by anti-CD1a plus C) induces their apoptotic death. Some events commonly associated with the early steps of normal activation (IL-2R expression, increase in cytoplasmic Ca2+) are also induced after anti-CD3 treatment. Nevertheless, IL-2 is not secreted by these activated cells. The addition of exogenous IL-2 inhibits the apoptosis induced by anti-CD3. We suggest that the lack of secretion of IL-2 by medullary thymocytes may be a physiologic mechanism implicated in the process of negative selection that leads to tolerance.     

Induction of thymocyte proliferation by supernatants from a mouse thymic epithelial cell line

The thymic stroma plays a critical role in the generation of T lymphocytes by direct cell-to-cell contacts as well as by secreting growth factors or hormones. The thymic epithelial cells, responsible for thymic hormone secretion, include morphologically and antigenically distinct subpopulations that may exert different roles in thymocyte maturation. The recent development of thymic epithelial cell lines provided an interesting model for studying thymic epithelial influences on T cell differentiation. Treating mouse thymocytes by supernatants from one of TEC line (IT-76M1), we observed an induction of thymocyte proliferation and an increase in the percentages of CD4-/CD8- thymocytes. This proliferation was largely inhibited when thymocytes were incubated with IT-76M1 supernatants together with an anti-thymulin monoclonal antibody, but could be enhanced by pretreating growing epithelial cells by triiodothyronine. We suggest that among the target cells for thymulin within the thymus, some putative precursors of early phenotype might be included.     

Characterization of the putative avian CD2 homologue.

We describe two mouse mAb recognizing the putative chicken homologue of mammalian CD2 Ag and provide evidence for both structural and functional conservation between the avian and mammalian CD2 molecules. The antibodies were T cell-specific and immunoprecipitated a single diffuse band of Mr 40,000 from lysates of surface-labeled chicken thymocytes and peripheral T cells. Removal of N-linked carbohydrate with endo-beta-N-acetylglucosaminidase F revealed the core protein size of Mr 25,000. A rabbit antiserum raised against a synthetic peptide (CD2-300), composed of 18 amino acid residues of the conserved cytoplasmic domain of human, mouse, and rat CD2, precipitated an Ag similar to chicken CD2. Sequential precipitation with CD2-300 antiserum indicated the conservation of an avian and mammalian CD2 epitope. CD2 expression on thymocytes starts at day 11 of embryonic development, and, during subsequent development, thymic gamma delta cells are all CD2+, whereas most peripheral gamma delta-T cells lack CD2. Functional conservation between the chicken and mammalian CD2 molecules was demonstrated by the induction of DNA synthesis in chicken thymocytes and peripheral T cells with the combination of anti-CD2 mAb and PMA.     

Autoantigen-independent deletion of diabetogenic CD4+ thymocytes by protective MHC class II molecules

Some MHC class II genes provide dominant resistance to certain autoimmune diseases via mechanisms that remain unclear. We have shown that thymocytes bearing a highly diabetogenic, I-Ag7-restricted beta-cell-reactive TCR (4.1-TCR) undergo negative selection in diabetes-resistant H-2g7/x mice by engaging several different antidiabetogenic MHC class II molecules on thymic (but not peripheral) hemopoietic cells, independently of endogenous superantigens. Here we have investigated 1) whether this TCR can also engage protective MHC class II molecules (I-Ab) on cortical thymic epithelial cells in the absence of diabetogenic (I-Ag7) molecules, and 2) whether deletion of 4.1-CD4+ thymocytes in I-Ab-expressing mice might result from the ability of I-Ab molecules to present the target beta-cell autoantigen of the 4.1-TCR. We show that, unlike I-Ag7 molecules, I-Ab molecules can restrict neither the positive selection of 4.1-CD4+ thymocytes in the thymic cortex nor the presentation of their target autoantigen in the periphery. Deletion of 4.1-CD4+ thymocytes by I-Ab molecules in the thymic medulla, however, is a peptide-specific process, since it can be triggered by hemopoietic cells expressing heterogeneous peptide/I-Ab complexes, but not by hemopoietic cells expressing single peptide/I-Ab complexes. Thus, unlike MHC-autoreactive or alloreactive TCRs, which can engage deleting MHC molecules in the thymic cortex, thymic medulla, and peripheral APCs, the 4.1-TCR can only engage deleting MHC molecules (I-Ab) in the thymic medulla. We therefore conclude that this form of MHC-induced protection from diabetes is based on the presentation of an anatomically restricted, nonautoantigenic peptide to highly diabetogenic thymocytes.     

Proteins contained in thymus factor X bind to the surface of rat thymocytes.

By means of an immunocytochemical method, using an antiserum directed against Thymus Factor X (TFX) the presence of TFX-cross-reactive antigen on the surface of rat thymocytes was demonstrated. In the electron microscope, the product of the immunocytochemical reaction was localized as a fine granular and electron opaque material on the surface of some medium-size and small thymocytes. It was shown that the intensity and distribution pattern of the reaction product on the surface of the thymocytes varied markedly. Preincubation of thymocytes with TFX resulted in more intense labelling. The presence of TFX and cross-reactive native thymic antigens on the surface of rat thymocytes as revealed by anti-TFX serum, allows us to suppose that these thymic proteins are bound to surface of the cells by specific surface receptors.     

Functional maturation of mouse CD4+CD8- thymocytes induced by medullary-type thymus epithelial cells

Murine CD4⁺CD8^- (CD4SP) thymocyte subset is a heterogeneous population, in which the Qa-2^- cells are less functional, whereas the Qa-2⁺ cells are fully functional. Evidence is provided here that the transition from Qa-2^- to Qa-2⁺ CD4SP thymocytes is an intrathymic process of differentiation induced by thymic medullary-type epithelial cells. The separated Qa-2^-CD4SP could be induced to express Qa-2 molecules up to 84%- 89% of the total viable celb after cocultured for 3d with MTEC1 cells, a murine thymic medullary type epithelial cell line established in our laboratory. Kinetic study showed that both the percentage of Qa-2⁺ cells and the density of the expressed Qa-2 molecules on CD4SP thymocytes induced by MTEC1 were progressively increasing in 72-h cultures. The MTECl-induced Qa-2⁺CD4SP thymocytes were fully functional, which exhibited capabilities of proliferation and cytokine secretion in response to Con A stimulation as high as those of freshly isolated Qa-2⁺CD4SP thymocytes. The profile of cytokines secreted by MTECl-induced Qa-2⁺CD4SP thymocytes was Thy 0 type specified by the production of IL-2, IL-4 and IL-6. The results suggest that Qa-2^-CD4SP thymocytes may give rise to the Qa-2⁺CD4SP thymocytes, and acquire fully functional competence in thymic medulla under the foster of local epithelial cells.     

Proteins contained in Thymus Factor X bind to the surface of rat thymocytes

Summary By means of an immunocytochemical method, using an antiserum directed against Thymus Factor X (TFX) the presence of TFX-cross-reactive antigen on the surface of rat thymocytes was demonstrated. In the electron microscope, the product of the immunocytochemical reaction was localized as a fine granular and electron opaque material on the surface of some medium-size and small thymocytes. It was shown that the intensity and distribution pattern of the reaction product on the surface of the thymocytes varied markedly. Preincubation of thymocytes with TFX resulted in more intense labelling. The presence of TFX and cross-reactive native thymic antigens on the surface of rat thymocytes as revealed by anti-TFX serum, allows us to suppose that these thymic proteins are bound to surface of the cells by specific surface receptors.     

The glycoprotein alpha-subunit is critical for secretion and stability of the human thyrotropin beta-subunit

TSH is a member of a family of heterodimeric glycoprotein hormones which have a common alpha-subunit but differ in their hormone-specific beta-subunit. To study the posttranslational processing and assembly of human TSH, eukaryotic expression vectors were constructed that contained either the human TSH beta gene only or both the TSH beta and alpha-genes. These vectors were transfected into Chinese hamster ovary cells and stable cell lines synthesizing TSH beta or TSH dimer were isolated. The kinetics of secretion of TSH beta and the rate of assembly of TSH dimer were compared to the known secretion and assembly of human LH and human CG. In the absence of the alpha-subunit, CG beta is secreted efficiently, but TSH and LH beta-subunits are slowly degraded intracellularly (t1/2 approximately equal to 6 h) and less than 10% is secreted into the medium. In the presence of the alpha-subunit CG beta was also secreted efficiently as dimer but only 50% of the LH beta appeared in the medium as LH dimer. However, unlike LH beta, the alpha-subunit efficiently combines with TSH beta since greater than 95% was secreted as TSH dimer. Thus, the determinants for human TSH beta secretion and assembly are unique from the other human glycoprotein hormone beta-subunits.     

Expression of non-MHC-restricted T cell antigen-binding molecules by thymic lymphocytes

Heterologous antisera which recognize non-major histocompatibility complex (MHC)-restricted T cell antigen-binding molecules (TABM) were used to characterize the expression and structure of TABM on thymic lymphocytes. Approximately 70% of thymocytes express membrane molecules bound by anti-TABM antibodies (mTABM). Antibody activity for thymocyte TABM could be removed by adsorption to splenic T cells, but not by adsorption to splenic B cells. Similarly, adsorption of the antiserum to thymocytes or splenic T cells removed antibody activity to a purified TABM whereas adsorption with B cells had no effect. Radioiodinated thymic and splenic T cell mTABM were resolved by 2D-polyacrylamide gel electrophoresis and when reduced, both populations of mTABM migrated primarily as Mr 23,000 proteins with an isoelectric point range of 6.8-7.8. Multimers of this protein were also observed at Mr 85-97,000 and 130-150,000 on both thymocytes and splenic T cells. These data indicate that MHC-unrestricted antigen-binding molecules are expressed by a majority of thymocytes and these thymic TABM are structurally and antigenically similar to mTABM on peripheral cells. This suggests an ontogenic relationship between thymic TABM and peripheral TABM.     

Accessory function of human thymic dendritic cells in Con A-induced proliferation of autologous thymocyte subsets.

Human thymic dendritic cells (DC) have previously been shown to be intimately associated with thymocytes in situ and in culture. We report that thymic DC express LFA-3 and ICAM-1 adhesion molecules and may spontaneously associate with autologous thymocytes within mitogen-independent clusters. Moreover, the accessory activity of isolated human thymic DC was investigated in Con A-stimulation assays. By proliferation experiments, measured as [3H]TdR incorporation, we demonstrated that irradiated thymic DC strongly increase the mitogen-induced activation of autologous PBL as well as of unfractionated thymocytes. More interestingly, in coculture assays performed with purified thymocyte subsets, we have found that thymic DC greatly enhance the Con A proliferation of CD1- CD3bright thymocytes whereas the accessory activity toward the CD1+ CD3- thymocytes was very weak. Inhibition experiments demonstrated that the DC accessory activity is inhibited by anti-DR-related and anti-IL-2R mAb. However, blocking assays with anti-CD11b, anti-CD11c, anti-LFA-3, and anti-ICAM1 mAb showed that the accessory function obtained is similar to that with untreated cultures. We conclude that isolated human thymic DC may present potent DR- and IL-2-dependent accessory activity mainly directed toward the CD1- CD3bright thymocyte subpopulation, suggesting that thymic DC may be involved in the in vivo proliferation of mature thymocytes.     

Histological distribution of the 35-KD protein substrate of the epidermal growth factor receptor/kinase in thymus

Rat thymus has been identified as a tissue comparatively enriched in a 35-KD substrate of the epidermal growth factor receptor/kinase (lipocortin-1) (J Biol Chem 261:13784, 1986). A polyclonal antiserum prepared against the 35-KD protein was used to determine histological distribution of the protein in thymus. Frozen sections of rat thymus were examined after indirect labeling of the 35-KD protein with a rhodamine conjugate of secondary antibody. The antigen was localized primarily in the reticular network of the thymic epithelium, with no detectable labeling of resident thymocytes. Immunoblotting (Western blots) of cytosol extracts also demonstrated that thymocytes did not contain detectable amounts of the antigen. Cultured thymic epithelial cells (TEC), however, contained an abundance of two immunologically related protein bands with molecular weights similar but not identical to the antigen from the parental cell line (human A-431 carcinoma). Paraffin sections of rat and human thymus were subjected to an immunoperoxidase staining procedure, and it was observed that Hassall's corpuscles (keratinized epithelial cells) and other cortical and medullary TECs were intensely stained. The demonstration that the antigen is primarily associated with TEC in thymus, in conjunction with its distribution in other tissues, will aid in deducing its physiological role.     

IFN-alpha secretion by type 2 predendritic cells up-regulates MHC class I in the HIV-1-infected thymus.

The ability of HIV-1 to evade the host immune response leads to the establishment of chronic infection. HIV-1 has been reported to up-regulate MHC I molecules on the surface of thymocytes from HIV-1-infected thymus. We demonstrate in this study that HIV-1 up-regulates MHC I on both HIV-1-infected and uninfected thymocytes in a manner that is independent of Nef, proportional to viral replication, and entirely mediated by IFN-alpha. IL-3Ralpha+ type 2 predendritic cells (preDC2) resident in the thymic medulla secrete IFN-alpha, which acts on IFN-alphabetaR-expressing immature thymocytes to induce MHC I expression. Furthermore, thymic preDC2 are permissive for HIV-1 infection and positive for intracellular p24. These data demonstrate the ability of IFN-alpha secreted by preDC2 to induce MHC I up-regulation in the HIV-1-infected human thymus.     

MHC non-restricted, CD95-independent apoptosis of immature thymocytes induced by thymic epithelial cells

The interaction of thymocytes with thymic epithelial cells in the absence of an exogenous antigen was studied in vitro. Thymic, but not splenic epithelial cells induced apoptosis of thymocytes. A thymic epithelial cell line (TEC) induced apoptosis of thymocytes but not of splenic T-cells. The target population for TEC-induced death were immature CD4(+)8(+) (double positive), but not mature single positive thymocytes. TEC also induced DNA fragmentation in day 18 foetal thymocytes, most of which are CD4(+)8(+) cells. Radiation leukemia virus (RadLV)-transformed thymic lymphoma clones expressing various phenotypes reflected this sensitivity, in that a CD4(+)8(+)3(+) clone apoptosed by thymic epithelial cells or TEC. Other, single positive or double negative clones were resistant. Thymocytes from C3H (H-2(k)), C57BL/6 (H-2(b)) and Balb/C (H-2(d)) mice apoptosed equally in response to either C57BL/6 thymic epithelial cells or TEC (H-2(b) x H-2(d)). Likewise, thymocytes from MRLIpr((-/-)) and B6Ipr((-/-)) mice, which do not express CD95 were also apoptosed by TEC.The data suggest that thymic epithelial cells induce MHC non-restricted, Fas-independent apoptosis of immature thymocytes. This response may reflect a mechanism through which thymocytes expressing TcR with no affinity to self MHC/peptide complexes are eliminated.     

Construction of an expression system of insect lysozyme lacking thermal stability: the effect of selection of signal sequence on level of expression in the Pichia pastoris expression system.

Expression systems of human and silkworm lysozymes were constructed using the methylotrophic yeast Pichia pastoris as a host. The leader sequence and its prepro peptide of alpha-factor (a peptide pheromone derived from yeast) and the native signal sequences of these lysozymes, were used as secretion signals. When the alpha-factor leader is used as the signal sequence, human lysozyme is secreted at a much higher level than is silkworm lysozyme. On the other hand, silkworm lysozyme, when its native signal is used, is secreted more efficiently than human lysozyme. Therefore, we expected that human lysozyme cDNA with a silkworm native signal would be secreted more efficiently than human lysozyme with its native signal. However, its level of expression was not increased. This result indicates that the native signal of silkworm lysozyme does not promote the secretion of the lysozyme, but rather alpha-factor leader inhibits the secretion. Silkworm lysozyme with the alpha-factor leader is so unstable that it could be easily attacked by some proteases and our findings suggest that the level of expression of heterologous protein with signal peptides and its stability are greatly affected by the selection of the appropriate secretion signal sequence.     

Positive regulation of CXCR4 expression and signaling by interleukin-7 in CD4+ mature thymocytes correlates with their capacity to favor human immunodeficiency X4 virus replication

The emergence of X4 human immunodeficiency virus type 1 (HIV-1) variants in infected individuals is associated with poor prognosis. One of the possible causes of this emergence might be the selection of X4 variants in some specific tissue compartment. We demonstrate that the thymic microenvironment favors the replication of X4 variants by positively modulating the expression and signaling of CXCR4 in mature CD4(+) CD8(-) CD3(+) thymocytes. Here, we show that the interaction of thymic epithelial cells (TEC) with these thymocytes in culture induces an upregulation of CXCR4 expression. The cytokine secreted by TEC, interleukin-7 (IL-7), increases cell surface expression of CXCR4 and efficiently overcomes the downregulation induced by SDF-1 alpha, also produced by TEC. IL-7 also potentiates CXCR4 signaling, leading to actin polymerization, a process necessary for virus entry. In contrast, in intermediate CD4(+) CD8(-) CD3(-) thymocytes, the other subpopulation known to allow virus replication, TEC or IL-7 has little or no effect on CXCR4 expression and signaling. CCR5 is expressed at similarly low levels in the two thymocyte subpopulations, and neither its expression nor its signaling was modified by the cytokines tested. This positive regulation of CXCR4 by IL-7 in mature CD4(+) thymocytes correlates with their high capacity to favor X4 virus replication compared with intermediate thymocytes or peripheral blood mononuclear cells. Indeed, we observed an enrichment of X4 viruses after replication in thymocytes initially infected with a mixture of X4 (NL4-3) and R5 (NLAD8) HIV strains and after the emergence of X4 variants from an R5 primary isolate during culture in mature thymocytes.     

Leptin acts centrally to induce the prepubertal secretion of luteinizing hormone in the female rat

Recent data generated from adult male and female rats indicates that leptin is capable of stimulating luteinizing hormone (LH) secretion via a hypothalamic action. Consequently, we hypothesized that this peptide may similarly play a role in controlling LH secretion during late juvenile and peripubertal development; hence, contributing to hypothalamic-pituitary function during sexual maturation. Therefore, this study was conducted to determine if leptin is capable of stimulating LH release during this critical time of development and, if so, to determine whether this action is due to an effect at the hypothalamic level. Results showed that leptin, when administered directly into the brain third ventricle (3V), can stimulate (P < 0. 01) LH release in late juvenile animals at doses of 0.01-1.0 microg. A higher dose of 10 microg was ineffective in stimulating LH release. Immunoneutralization of luteinizing hormone-releasing hormone (LHRH) via 3V administration of LHRH antiserum to late juvenile animals indicated a hypothalamic site of action, since the leptin-induced LH release was blocked in the animals that received anti-LHRH, but not in the control animals that received normal rabbit serum. Leptin did not significantly stimulate LH release from animals in first proestrus, estrus, or diestrus. We also report that the serum levels of leptin increase (P < 0.05) during the late juvenile period of development, then decrease (P < 0.05) once the animal enters the peripubertal period. Collectively, our results show that leptin is capable of acting centrally to stimulate LH release, but only during late juvenile development; thus, we suggest the peptide likely plays a facilitatory role on late juvenile LH secretion, but does not drive the LHRH/LH releasing system to first ovulation and hence, sexual maturity.     

A carboxyl-terminal sequence in the lutropin beta subunit contributes to the sorting of lutropin to the regulated pathway

Although synthesized in the same pituitary gonadotropes, the secretion profiles of lutropin (LH) and follitropin (FSH) differ. LH is secreted through a regulated pathway and associated with a bolus release at mid-estrous cycle. In contrast, the majority of FSH is secreted constitutively with an incremental increase until ovulation. Both share an identicalalpha subunit, and thus thebeta subunit contains determinants for sorting into the regulated pathway. Previously, we demonstrated that a hydrophobic carboxyl-terminal heptapeptide of the LHbeta subunit (Leu-Ser-Gly-Leu-Leu-Phe-Leu), not found in the FSHbeta subunit, influences the intracellular behavior of the LH dimer. To test the hypothesis that the peptide contributes to differential sorting, we monitored the fates of LH and LHDeltaT (LHbeta subunit lacking the carboxyl-terminal seven amino acids) dimers in the rat somatotrope-derived GH(3) cell line in which both the regulated and constitutive secretory pathways operate. Pulse-chase labeling demonstrated that the LHDeltaT dimer was diverted to the constitutive pathway, resulting in a significant decrease in the corresponding intracellular pool. Forskolin stimulated LH dimer release 3-fold, which was accompanied by a parallel decrease of intracellular LH; only marginal forskolin stimulation of LHDeltaT was seen. Immunofluorescence after cycloheximide treatment demonstrated decreased retention of LHDeltaT compared with LH, consistent with increased constitutive secretion of LHDeltaT. We also demonstrated that fusing the heptapeptide to the carboxyl terminus of the FSHbeta subunit resulted in an increased regulated secretion of this FSH analog compared with wild-type FSH. These data are the first to identify a novel structural determinant responsible for the sorting of a member of the glycoprotein hormone family into the regulated secretory pathway.     

Endogenous IFN-alpha production by plasmacytoid dendritic cells exerts an antiviral effect on thymic HIV-1 infection

Plasmacytoid dendritic cells (pDC) are the principal producers of IFN-alpha in response to viral infection. Because pDC are present in the thymus, we investigated the consequences of HIV-1-induced IFN-alpha production by thymic pDC. We observed that thymic pDC as well as thymocytes express intracellular IFN-alpha upon infection with HIV-1. However, only the pDC could suppress HIV-1 replication, because depletion of pDC resulted in enhancement of HIV-1 replication in thymocytes. Thymic pDC could also produce IFN-alpha in response to CpG oligonucleotides, consistent with the observations of others that peripheral pDC produce IFN-alpha upon engagement of TLR-9. Importantly, CpG considerably increased IFN-alpha production induced by HIV-1, and addition of CpG during HIV-1 infection enhanced expression of the IFN response protein MxA in thymocytes and strongly reduced HIV-replication. Our data indicate that thymic pDC modulate HIV-1 replication through secretion of IFN-alpha. The degree of inhibition depends on the level of IFN-alpha produced by the thymic pDC.