Alterations of the intrathymic lymphocyte population in aged (NZB X SJL)F1 female mice as revealed by the differential effects of hydrocortisone and cyclophosphamide treatments

The thymus of NZB x SJL female (NSF) mice becomes enlarged during aging. The purpose of this study was to define the alterations of the intrathymic lymphocyte population underlying this thymic hypertrophy. Thymocyte subsets were delineated by their differential sensitivity to in vivo administration of hydrocortisone (HC) or Cyclophosphamide (CY) and were further characterized by their physical properties and their surface phenotype. The subset of relatively HC-resistant thymocytes (high-electrophoretic mobility (EPM), low Thy-1⁺, Lyt-1⁺,2^±, and low PNA⁺) was found expanded by four- to fivefold in 12-month-old NSF mice as compared to 3-month-old NSF mice. These cells were also resistant to CY. In contrast, the HC-sensitive thymocytes (low EPM, high Thy-1⁺, Lyt-1⁺,2⁺, and high PNA⁺), a subset of which was CY-resistant, were depleted by five- to sixfold in aged mice. Additionally, two subsets of HC-resistant, CY-sensitive cells were found to emerge in the thymus of 12-month-old NSF mice. The first of these subsets, with low EPM, was devoid of T-cell markers but expressed large amounts of surface immunoglobulins and thus probably corresponds to B cells. The other subset, which was more HC-resistant and possessed a higher EPM and larger volume than the former one, has been previously identified as plasma cells. These data indicate that the thymic hypertrophy of aging NSF mice reflects the intrathymic accumulation of HC-resistant, CY-resistant T cells and of HC-resistant, CY-sensitive cells of the B lineage.     

Immune and Inflammatory Cell Composition of Human Lung Cancer Stroma

Recent studies indicate that the abnormal microenvironment of tumors may play a critical role in carcinogenesis, including lung cancer. We comprehensively assessed the number of stromal cells, especially immune/inflammatory cells, in lung cancer and evaluated their infiltration in cancers of different stages, types and metastatic characteristics potential. Immunohistochemical analysis of lung cancer tissue arrays containing normal and lung cancer sections was performed. This analysis was combined with cyto-/histomorphological assessment and quantification of cells to classify/subclassify tumors accurately and to perform a high throughput analysis of stromal cell composition in different types of lung cancer. In human lung cancer sections we observed a significant elevation/infiltration of total-T lymphocytes (CD3⁺), cytotoxic-T cells (CD8⁺), T-helper cells (CD4⁺), B cells (CD20⁺), macrophages (CD68⁺), mast cells (CD117⁺), mononuclear cells (CD11c⁺), plasma cells, activated-T cells (MUM1⁺), B cells, myeloid cells (PD1⁺) and neutrophilic granulocytes (myeloperoxidase⁺) compared with healthy donor specimens. We observed all of these immune cell markers in different types of lung cancers including squamous cell carcinoma, adenocarcinoma, adenosquamous cell carcinoma, small cell carcinoma, papillary adenocarcinoma, metastatic adenocarcinoma, and bronchioloalveolar carcinoma. The numbers of all tumor-associated immune cells (except MUM1⁺ cells) in stage III cancer specimens was significantly greater than those in stage I samples. We observed substantial stage-dependent immune cell infiltration in human lung tumors suggesting that the tumor microenvironment plays a critical role during lung carcinogenesis. Strategies for therapeutic interference with lung cancer microenvironment should consider the complexity of its immune cell composition.     

Majority of TcRβ<Superscript>+</Superscript> T-lymphocytes located in thymus and midgut of the bony fish, <Emphasis Type="Italic">Dicentrarchus labrax </Emphasis>(L.)

Real-time polymerase chain reaction (PCR) and in situ hybridization analyses were performed to investigate the occurrence and distribution of T-lymphocytes expressing TcRβ in intestine and lymphoid tissues of the bony fish, Dicentrarchus labrax (sea bass). Immunohistochemistry with the monoclonal antibody DLT15 (pan-T-cell marker) was carried out to compare the cytology, distribution and number of T-cells and TcRβ⁺ cells in the various sampled lymphoid organs. The highest TcRβ expression was revealed by real-time PCR in the thymus, with high levels also being found in the gut. In the thymus, DLT15⁺ and TcRβ⁺ cell populations were concentrated in the cortex and TcRβ⁺ cells were notably reactive at the cortical-medullary border, suggesting a specialized role of this region in thymocyte selection. The density of DLT15⁺ T-cells increased from the anterior to posterior intestine, whereas TcRβ⁺ lymphocytes were more numerous in the middle intestine compared with other segments. The existence, in fish thymus, of a medulla and a cortex comparable with those of mammals is revealed by this study. The concentration of TcRβ⁺ cells in the sea bass midgut also strongly suggests a special role of this intestinal segment in antigen-specific cellular immunity. The large population of TcRβ^-/DLT15⁺ T-cells in the posterior gut can probably be ascribed to the TcRγδ phenotype fraction.     

Development of T lymphocytes in Xenopus laevis: appearance of the antigen recognized by an anti-thymocyte mouse monoclonal antibody

Development of T lymphocytes in Xenopus laevis was studied using a mouse monoclonal antibody (mAb), XT-1, that was produced against surface determinants on thymocytes of J strain frog. Ontogenic studies, employing immunofluorescence, showed that cells positive for the determinant recognized by XT-1 mAb (XT-1⁺ cells) were first detected in the thymus of J strain Xenopus by Nieuwkoop and Faber stage 48 (7 days postfertilization) and then in the spleen, liver and kidney by stage 52 (20 days postfertilization). Percentages of XT-1⁺ cells in the thymus increased rapidly by stage 49 (10 days postfertilization) and reached adult levels by stage 52, and those in the spleen, liver, and kidney reached adult levels by stage 56 (40 days postfertilization). Electron microscopic immunohistochemistry revealed that most XT-1⁺ cells in thymuses from stage 56 larvae were typical small lymphocytes (4–7 μm in diameter). In contrast, many XT-1⁺ cells in larval thymuses at stage 49 are large (8–10 μm in diameter) lymphoblastoid cells. Thymectomy at stage 46 (5 days postfertilization) depleted XT-1⁺ cells in larval and adult lymphoid organs to background levels. These results suggest that the XT-1⁺ cells are differentiated from the lymphoid precursor cells in the thymus before the appearance of small lymphocytes and migrate into peripheral lymphoid organs. The cell surface determinant recognized by the XT-1 mAb may provide an important marker for the differentiation of T lymphocytes in Xenopus.     

Trypanosoma cruzi Disrupts Thymic Homeostasis by Altering Intrathymic and Systemic Stress-Related Endocrine Circuitries

We have previously shown that experimental infection caused by Trypanosoma cruzi is associated with changes in the hypothalamus-pituitary-adrenal axis. Increased glucocorticoid (GC) levels are believed to be protective against the effects of acute stress during infection but result in depletion of CD4⁺CD8⁺ thymocytes by apoptosis, driving to thymic atrophy. However, very few data are available concerning prolactin (PRL), another stress-related hormone, which seems to be decreased during T. cruzi infection. Considering the immunomodulatory role of PRL upon the effects caused by GC, we investigated if intrathymic cross-talk between GC and PRL receptors (GR and PRLR, respectively) might influence T. cruzi-induced thymic atrophy. Using an acute experimental model, we observed changes in GR/PRLR cross-activation related with the survival of CD4⁺CD8⁺ thymocytes during infection. These alterations were closely related with systemic changes, characterized by a stress hormone imbalance, with progressive GC augmentation simultaneously to PRL reduction. The intrathymic hormone circuitry exhibited an inverse modulation that seemed to counteract the GC-related systemic deleterious effects. During infection, adrenalectomy protected the thymus from the increase in apoptosis ratio without changing PRL levels, whereas an additional inhibition of circulating PRL accelerated the thymic atrophy and led to an increase in corticosterone systemic levels. These results demonstrate that the PRL impairment during infection is not caused by the increase of corticosterone levels, but the opposite seems to occur. Accordingly, metoclopramide (MET)-induced enhancement of PRL secretion protected thymic atrophy in acutely infected animals as well as the abnormal export of immature and potentially autoreactive CD4⁺CD8⁺ thymocytes to the periphery. In conclusion, our findings clearly show that Trypanosoma cruzi subverts mouse thymus homeostasis by altering intrathymic and systemic stress-related endocrine circuitries with major consequences upon the normal process of intrathymic T cell development.     

Ly-6.2: A new lymphocyte specificity of peripheral T-cells

A new cell-membrane alloantigen determining locus, Ly-6, has recently been described, and the single specificity Ly-6.2 has been defined by the serum (BALB/c× A)F₁ anti-CXBD. Using both fluorescence and cytotoxicity, we found this specificity predominantly on peripheral (extrathymic) T cells, as tissues react thus: thymus, 0–5 percent; spleen, 25 percent; lymph nodes, 69 percent; bone marrow, 15 percent. These reactions agree with the proportion of (Thy⁺, Ig^–) cells present in these tissues. Cortisone-resistant thymus cells were positive. Absorption studies with thymus cells demonstrated the sparse or absent representation of Ly-6.2 on intrathymic T cells. Examination of spleen and lymph node cells from T cell-depleted C57BL/6 mice (after in vitro treatment with anti-Thy-1 serum or examination of tissues of C57BL/6-nu/nu mice) also showed a depletion of Ly-6.2⁺ cells. Conversely, removal of Ig⁺ B cells, which caused a relative increase in the number of T cells in the residual population, also increased the number of Ly-6.2⁺ cells. Additive effects of anti-Thy-1.2 and anti-Ly-6.2 could not be demonstrated, which suggests that the same population was Thy-1.2⁺, Ly-6.2⁺. However, additive effects could be shown with an anti-Ia serum and anti-Ly-6.2. The Ly-6.2 specificity is not found on red cells, liver, brain, or antibody-forming cells, but has been identified on a T-cell (but not B-cell) tumor and on kidney. Ly-6.2 can therefore be considered to be a marker for peripheral T cells, and it differs from the Thy-1 and the Ly-1,2,3, and 5 specificities in its relative absence from the thymus.     

PNA-binding glycans are expressed at high levels on horse mature and immature T lymphocytes and a subpopulation of B lymphocytes

In mammals, the binding of peanut agglutinin (PNA) on the plasma membrane defines subpopulations among lymphocytes from peripheral blood and lymphoid organs. PNA binds Gal 1,3GalNAc residues provided that they are not sialylated. Here, we studied the expression of PNA-binding glycans on healthy horse peripheral blood, thymus, lymph node and spleen lymphocytes. We first demonstrated the binding specificity of PNA for galactose residues by competition experiments and the inhibitory role of sialic acids in PNA binding by sialidase digestion. Unlike human and murine lymphocytes, all equine lymphocytes were found positive by flow cytometry analysis. Double-staining analyses showed that lymphocytes expressing high levels of PNA-binding glycans (PNA^high lymphocytes) were made up of the great majority of CD5⁺, CD4⁺ and CD8⁺ cells, and of 30 and 50% of sIg-bearing lymphocytes in peripheral blood and in lymph nodes or spleen, respectively. Lectin histochemistry suggested that lymph node germinal centres contained PNA^high B cells. Contrary to what is found in humans and mice, PNA staining intensity on CD5⁺, CD4⁺ and CD8⁺ cells did not differentiate immature from mature T lymphocytes in the equine thymus. The functional consequences of these differences are discussed. Published in 2005.     

Effect of cytokines (IL-2, IL-7, and IL-15) having common γ-chain of receptors on differentiation and maturation of CD4+/CD8+ T-cells in a CD45RA T-lymphocyte population in vitro

The effect of cytokines (IL-2, IL-7, and IL-15) having a common γ-chain of receptors on the maturation and differentiation of CD3⁺CD45RA⁺CD4⁺/CD8⁺ lymphocytes in homeostatic cultivation model in vitro was analyzed. It was found that the maximum IL-2 concentration in the helper CD45RA⁺-T-cell population mediates an increase in the number of CD45RA⁺CD4⁺ T lymphocytes with the phenotype of mature and immature terminally differentiated TEMRA T cells. IL-15 leads to the production of lymphocytes with CD27^–CD62L⁺ phenotype (presumably, TEMRA, in which the CD62L expression persists). In the CD45RA⁺CD8⁺ T lymphocyte populations, the studied cytokines (IL-2, IL-7, and IL-15) initiate the production of mature TEMRA (E) T lymphocytes and memory T cells with the CD45RA^?CD27⁺CD62L⁺ central phenotype (TCM).     

Thymus cell maturation: II. Differentiation of three “mature” subclasses in Vivo

Several thymus cell subclasses may be defined on the basis of their sedimentation velocity, their light-scattering properties (a measure of cell volume), or binding of a fluoresceinated anti-Thy 1.2 antiserum. Using a multiparameter fluorescence-activated cell sorter (FACS), cells with distinguishable light-scattering or fluorescence intensity (after staining with fluorescein anti-Thy 1.2) were separable for analysis of intrathymic maturation pathways. Outer thymic cortical large and medium lymphocytes were the only cells labeled within 1 hr after transcapsular diffusion of administered [³H]thymidine. These labeled cells were also entirely contained in the brightest fluorescence intensity (with fluorescein anti-Thy 1.2) subclass. Under conditions of [¹H] thymidine “chase” in vivo, label shifted proportionately and apparently in parallel to three “mature” subclasses: (1) small thymocytes with high surface concentrations of Thy 1.2, representing ~ 80% of all thymus cells; (2) slightly larger cells, with very low surface Thy 1.2, which are indistinguishable from cortisone-resistant thymocytes, and which make up less than 10% of all thymus cells; (3) dead or fragile cells.     

Loss of Pten Disrupts the Thymic Epithelium and Alters Thymic Function

The thymus is the site of T cell development and selection. In addition to lymphocytes, the thymus is composed of several types of stromal cells that are exquisitely organized to create the appropriate environment and microenvironment to support the development and selection of maturing T cells. Thymic epithelial cells (TECs) are one of the more important cell types in the thymic stroma, and they play a critical role in selecting functional T cell clones and supporting their development. In this study, we used a mouse genetics approach to investigate the consequences of deleting the Pten tumor suppressor gene in the TEC compartment of the developing thymus. We found that PTEN deficiency in TECs results in a smaller thymus with significantly disordered architecture and histology. Accordingly, loss of PTEN function also results in decreased T cells with a shift in the distribution of T cell subtypes towards CD8⁺ T cells. These experiments demonstrate that PTEN is critically required for the development of a functional thymic epithelium in mice. This work may help better understand the effects that certain medical conditions or clinical interventions have upon the thymus and immune function.     

Decrease in pool of T lymphocytes with surface phenotypes of effector and central memory cells under Influence of TCR transgenic β-chain expression

Peripheral T lymphocytes can be subdivided into naive and antigen-experienced T cells. The latter, in turn, are represented by effector and central memory cells that are identified by different profiles of activation markers expression, such as CD44 and CD62L in mice. These markers determine different traffic of T lymphocytes in the organism, but hardly reproduce real antigenic experience of a T lymphocyte. Mechanisms of homeostasis maintenance of T lymphocytes with different activation phenotypes remain largely unknown. To investigate impact of T cell receptor (TCR) transgenic chains on formation of T lymphocytes, their peripheral survival and activation surface phenotypes, we have generated the transgenic mouse strain expressing transgenic β-chain of TCR 1D1 (belonging to the Vβ6 family) on the genetic background B10.D2(R101). Intrathymic development of T cells in these transgenic mice is not impaired. The repertoire of peripheral T lymphocytes in these mice contains 70–80% of T cells expressing transgenic β-chain and 20–30% of T cells expressing endogenous β-chains. The ratio of peripheral CD4⁺CD8^? and CD4^?CD8⁺ T lymphocytes remained unchanged in the transgenic animals, but the percent of T lymphocytes with the “naive” phenotype CD44^?CD62L⁺ was significantly increased, whereas the levels of effector memory CD44⁺CD62L^? and central memory CD44⁺CD62L⁺ T lymphocytes were markedly decreased in both subpopulations. On the contrary, T lymphocytes expressing endogenous β-chains had surface phenotype of activated T cells CD44⁺. Thus, for the first time we have shown that the pool of T lymphocytes with different activation phenotypes depends on the structure of T cell receptors.     

Heterogeneity of B cell clones: immunoglobulin-secreting subsets

Staphylococcus aureus Cowan I bacteria (SpA CoI) is known to be a polyclonal B-cell activator of human lymphocytes. In this study, we investigated which of the B-cell subsets SpA CoI could stimulate and induce immunoglobulin (Ig) production. B-Cell subsets were separated from peripheral blood and tonsil lymphocytes by rosette formation with E, EA_IgG, EAC, anti-Ig-conjugated ox erythrocytes (OE-anti-Ig), and protein A-conjugated OE (OE-Pro A), or on a bovine serum albumin (BSA) discontinuous density gradient. The cells responding to SpA CoI included E^?, C3 receptor-positive (C3R⁺), Fc receptor-negative (FcR^?), and surface Ig-positive (SIg⁺) B-cell subsets. These B-cell populations responded well to SpA CoI and produced significant amounts of IgG, IgM, and a lesser amount of IgA. Among SIg⁺ B cells, IgG, IgA, and IgM⁺ B-cell subsets responded to SpA CoI and produced large amounts of Ig belonging to each corresponding Ig class. IgD⁺ B cells failed to produce Ig of any class, except for minimal amounts of IgG and IgM. While both the protein A receptor-positive (Pro A · R⁺) and negative (Pro A · R^?) cells responded well to SpA CoI, Pro A · R⁺ B cells produced IgG mainly and Pro A · R^? B cells produced IgM. Fractionation of B cells on a BSA gradient revealed that comparatively small-sized and denser B-cell subsets responded well to SpA CoI and produced every class of Ig.     

Preparation of 2-dGuo-Treated Thymus Organ Cultures

In the thymus, immature CD4+8+ thymocytes expressing randomly rearranged T-cell receptor α- and b-chain genes undergo positive and negative selection events based on their ability to recognize self-peptide/major histocompatibility complex (MHC) molecules expressed by thymic stromal cells. In vivo analysis of the role of thymic stromal cells during intrathymic selection is made difficult by the cellular complexity of the thymic microenvironment in the steady-state adult thymus, and by the lack of appropriate targeting strategies to manipulate gene expression in particular thymic stromal compartments. We have shown that the thymic microenvironment can be readily manipulated in vitro through the use of reaggregate thymus organ cultures, which allow the preparation of three-dimensional thymus lobes from defined stromal and lymphoid cells. Although other in vitro systems support some aspects of T-cell development, reaggregate thymus organ culture remains the only in vitro system able to support efficient MHC class I and II-mediated thymocyte selection events, and so can be used as an effective tool to study the cellular and molecular regulation of positive and negative selection in the thymus.Download video file.^{(93M, mp4)}     

Reaggregate Thymus Cultures

In the thymus, immature CD4+8+ thymocytes expressing randomly rearranged T-cell receptor α- and b-chain genes undergo positive and negative selection events based on their ability to recognize self-peptide/major histocompatibility complex (MHC) molecules expressed by thymic stromal cells. In vivo analysis of the role of thymic stromal cells during intrathymic selection is made difficult by the cellular complexity of the thymic microenvironment in the steady-state adult thymus, and by the lack of appropriate targeting strategies to manipulate gene expression in particular thymic stromal compartments. We have shown that the thymic microenvironment can be readily manipulated in vitro through the use of reaggregate thymus organ cultures, which allow the preparation of three-dimensional thymus lobes from defined stromal and lymphoid cells. Although other in vitro systems support some aspects of T-cell development, reaggregate thymus organ culture remains the only in vitro system able to support efficient MHC class I and II-mediated thymocyte selection events, and so can be used as an effective tool to study the cellular and molecular regulation of positive and negative selection in the thymus.Download video file.^{(67M, mp4)}     

Lysis of herpes simplex virus-infected targets: II. Nature of the effector cells

Peripheral blood lymphocytes (PBL) from patients with herpes simplex virus (HSV)-1 recurrences in the cornea only (Group I) exhibited reduced lysis of HSV-1-infected targets compared to PBL from patients with oral-facial and corneal HSV recurrences (Group II). The cytotoxic lymphocytes appeared to belong to a subpopulation of natural killer (NK-HSV) cells. Monoclonal antibodies to human lymphocyte differentiation antigens were used to define the surface phenotype of the NK-HSV cells. Most of the NK-HSV activity was mediated by lymphocytes expressing the surface markers Leu-7⁺ (HNK-1), OKT3⁺ (pan T), OKM1⁺ (myeloid and NK), Leu-2^? (cytotoxic/ suppressor T cell), and Leu-8^? (regulatory T cell). In contrast, lysis of K562 cells (NK-K562) was mediated by lymphocytes bearing the surface phenotype Leu-7⁺, OKT3^?, OKM1⁺, Leu-2^+/?, and Leu-8^?. The low level of NK-HSV activity in PBL from Group I donors appeared to be due to active suppression by suppressor T lymphocytes. Depletion of Leu-2⁺ cells from PBL of Group I donors resulted in significant augmentation of NK-HSV activity. Similar treatment of PBL from Group II donors either had no effect or slightly diminished the NK-HSV activity.     

Interplay between BMP4 and IL-7 in human intrathymic precursor cells

Bone morphogenetic proteins (BMPs) play a pivotal role during vertebrate embryogenesis and organogenesis, and have also been described to function in regulating cell fate and determination in self-renewing tissues in adults. Recent results have demonstrated that the different components of the BMP2/4 signaling pathway are expressed in the human thymus. In this study, we provide evidence that BMP4 and IL-7 interplay is important in the maintenance of the human thymic progenitor population. Intrathymic CD34⁺ cells express BMP receptors (BMPRIA, BMPRIB, ActRIA, BMPRII), signal transduction molecules (Smad1, 5, 8 and 4), and produce BMP4. Neutralization of endogenous BMP4 by treatment with the antagonist Noggin reduces thymic precursor cell survival, and the addition of exogenous BMP4 decreases their proliferation. The treatment of chimeric human-mouse fetal thymus organ cultures with BMP4 inhibits cell expansion, arrests thymocyte differentiation, and leads to the accumulation of human CD34⁺ precursor cells. This effect is mainly attributed to the ability of BMP4 to counteract the IL-7-induced proliferation and differentiation of CD34⁺ cells. BMP4 down-regulates in the precursor cell population the expression of CD127 and inhibits the IL-7-dependent STAT5 phosphorylation. In addition, BMP signaling is promoted by IL-7. Our results also demonstrate that in thymic progenitors BMPs act downstream of Sonic Hedgehog, previously described to function as a maintenance factor for human intrathymic CD34⁺ precursor cells.     

Prognostic impact of B-cell density in cutaneous melanoma

Studies on the prognostic importance of tumor-infiltrating lymphocytes have mainly focused on T cells, while little is known about the role of tumor-infiltrating B lymphocytes. We investigated the prevalence of CD20⁺ B cells by immunohistochemistry in primary melanoma samples of 106 patients and analyzed in relation to clinicopathological parameters and patients’ survival. The majority of samples contained a significant amount of B lymphocytes, predominantly dispersed in the stroma surrounding tumor deposits (mean peritumoral and intratumoral densities: 178.7 ± 156.1 vs. 4.9 ± 6.9 cells/mm², respectively). B cells organized in follicle-like aggregates were also observed in 26% of the samples. B-cell density correlated with that of activated (CD25⁺ or OX40⁺) T lymphocytes. Infiltration by CD20⁺ lymphocytes did not correlate with tumor thickness, while the presence of B-cell aggregates was observed more frequently in thick melanomas. On the other hand, B-cell infiltration was more pronounced in nonmetastatic or lymph node metastatic tumors, compared to visceral metastatic ones. Accordingly, high number of these cells provided significant survival advantage (P = 0.0391 and P = 0.0136 for intra- and peritumoral infiltration, respectively). Furthermore, combination of peritumoral B-cell density with the number of activated T lymphocytes identified patient subgroups with different disease outcome, which was most favorable in the case of high density, while very poor in the case of low density of both cell types. Multivariate survival analysis identified tumor thickness and CD20⁺/OX40⁺ cell density combination as significant independent prognostic factors. Taken together, our results show correlation between low number of CD20⁺ B lymphocytes and melanoma progression, indicating a possible role of tumor-infiltrating B cells in antitumoral immune response. It was also reflected in better outcome of the disease since the density of B lymphocytes alone as well as in combination with that of activated T cells proved of prognostic importance in patients with malignant melanoma.