Effect of Ionizing Radiation on the Expression of p16, CyclinDI and CDK4 in Mouse Thymocytes and Splenocytes

Objective To investigate the effect of ionizing radiation on the expression of p16, CyclinDl, and CDK4 in mouse thymocytes and splenocytes. Methods Fluorescent staining and flow cytometry analysis were employed for the measurement of protein expression. Results In time course experiments, it was found that the expression of p16 protein was significantly increased at 8, 24, and 48 h for thymocytes (P<0.05, P<0.01, and P<0.05, respectively) and at 24 h for splenocytes (P<0.05) after whole body irradiation (WBI) with 2.0 Gy X-rays. However, the expression of CDK4 protein was significantly decreased from 8 h to 24 h for thymocytes (P<0.05,P<0.01) and from 8 h to 72 h for splenocytes (P<0.05-P<0.01). In dose effect experiments, it was found that the expression of p16 protein in thymocytes and splenocytes was significantly increased at 24 h after WBI with 1.0, 2.0, and 4.0 Gy (P<0.05-P<0.01), whereas the expression of CDK4 protein was significantly decreased with 2.0Gy for thymocytes (P<0.05) and 0.5-6.0 Gy for splenocytes (P<0.05-P<0.01). Results also showed that the expression of CyclinDl protein decreased markedly in both thymocytes and splenocytes after exposure. Conclusion The results indicate that the expression of p 16 protein in thymocytes and splenocytes can be induced by ionizing radiation, and the p16-CyclinD1/CDK4 pathway may play an important role for G1 arrest of thymocytes induced by X-rays.

Clusterin mRNA expression in apoptotic and activated rat thymocytes

Clusterin is a 75-80 kDa heterodimeric glycoprotein, that is produced in most tissues but which exactbiological role is still not clear. Particularly, its role in protection or promotion of apoptosis is heavilydisputed, since data supporting both views have been reported in several independent studies. To clarify thisissue, and also to determine whether clusterin expression itself might be affected by apoptosis, in the presentstudy, rat thymocytes were treated with dexamethasone, -a synthetic glucocorticoid that elicits apoptosis inthymocytes-, and clusterin mRNA expression was analyzed by semi-quantitative RT-PCR before and afterinduction of apoptosis. Interestingly, neither the treatment with dexamethasone in vitro nor triggering ofapoptosis in vivo up- regulated clusterin expression, opposing the view that clusterin is involved in apoptoticprocesses. On the other hand, a new clusterin mRNA isoform was detected and isolated, whose expressionwas restricted to freshly isolated thymocytes. This novel isoform lacks the post-translational proteolyticcleavage site and is therefore predicted to encode a monomeric protein. The biological function undernormal circumstances, however, will need further investigations for clarification. While apoptosis could notmodulate clusterin expression, activation of thymocytes with concanavalin A and interleukin-2 resulted inup-regulation of clusterin mRNA level, indicating that clusterin expression is rather under the control ofcell activation-mediated rather than apoptosis- induced signals.

Effects of an immunosuppressive active component of Periplocae Cortex (Periploca sepium Bge.) on positive selection of thymocytes in vitro

Objective:To determine the effect of an immunosuppressive active component (periploside A) isolated from the stem bark of Periplocae Cortex (Periploca sepium Bge.),a Chinese medicinal herb used in the treatment of rheumatoid arthritis for centuries in China,on positive selection of thymocytes in vitro.Methods:Female C57BL/6 mice at 6 weeks of age were housed in specific pathogen-free conditions.Double-positive thymocytes from C57BL/6 mice were induced into positive selection in vitro with or without periploside A treatment.Cell viability and expression of CD69,CD4,and CD8 were analyzed by flow cytometry.Results:Flow cytometric examination of thymocyte populations revealed that the percentage of CD8+ single-positive thymocytes was decreased by periploside A upon differentiation induced by an anti-CD3 antibody.However,the percentage of CD4+ single-positive thymocytes was decreased by periploside A upon differentiation induced by phorbol 12-myristate 13-acetate/ionomycin.Expression of CD69 plays a major role in prohibiting differentiation of thymocytes.Treatment with periploside A decreased CD69 expression in thymocytes.Conclusion:These results demonstrate that periploside A influences positive selection of thymocytes in vitro.

X-ray irradiation selectively kills thymocytes of different stages and impairs the maturation of donor-derived CD4^+CD8^+ thymocytes in recipient thymus

The aim of the present study was to determine whether the sensitivity of thymocytes to X-ray radiation depends on their proliferative states and whether radiation impairs the maturation of donor-derived thymocytes in recipient thymus.We assigned 8-week-old C57BL/6J mice into three treatment groups：1） untreated;2） X-ray radiation;3） X-ray radiation plus bone marrow transplantation with donor bone marrow cells from transgenic mice express-ing enhanced green fluorescent protein（GFP） on a universal promoter.After 4 weeks,the size of the thymus,the number and proliferation of thymocytes and ratios of different stage thymocytes were analyzed by immunohisto-chemistry and flow cytometry.The results showed that：1） CD4＋CD8＋ thymocytes were more sensitive to X-ray radiation-induced cell death than other thymocytes;2） the proliferative capacity of CD4＋CD8＋ thymocytes was higher than that of other thymocytes;3） the size of the thymus,the number of thymocytes and ratios of thymo-cytes of different stages in irradiated mice recovered to the normal level of untreated mice by bone marrow trans-plantation;4） the ratio of GFP-positive CD4＋CD8＋ thymocytes increased significantly,whereas the ratio of GFP-positive CD4＋ or CD8＋ thymocytes decreased significantly.These results indicate that the degree of sensitivity of thymocytes to X-ray radiation depends on their proliferative states and radiation impairs the maturation of donor-derived CD4＋CD8＋ thymocytes in recipient thymus.

RESPONSES OF HUMAN FETAL SPLENOCYTES AND THYMOCYTES TO INTERLEUKIN-2: LAK ACTIVITY AND PROLIFERATION

Using cytotoxicity and thymidine uptake assays, we investigated the effects of human recombinant in-terleukin-2 (rIL-2) on the induction of lympholine-activated killer (LAK) activity and cellular proliferation in splenocytes and thymocytes from human fetuses (18-22 weeks). We observed that fetal splenocytes and thymocytes incubated with low doses of rIL-2 (10-100 U ml) developed broad antitumor activity (LAK activity) although the kinetics and magnitudes of the responses were different. It indicated the LAK precursors are present in fetal spleen and thymus. Further, rIL-2 induced a strong proliferative response in splenocytes, but not in thymocytes. On the basis of the findings, we conclude that the responses of fetal splenocytes and thymocytes to IL-2 are different.

c-Fos enhances the survival of thymocytes during positive selection by upregulating Bcl-2

T cells are derived from progenitor thymocytes, of which only a minority receive the appropriate TCR signal, undergo positive selection and mature. Owing to the very short lifespan of thymocytes, the prerequisite for posi- tive selection is survival. TCR signal-induced Bcl-2 expression is believed to play a dominant role in the survival of positively selecting thymocytes, but how Bcl-2 is directly regulated is unknown. Here we report that the immediate early gene （IEG） c-Fos can stimulate the expression of Bcl-2, depending on a specific AP-l-binding site in the Bcl-2 promoter. In c-Fos transgenic （Fos-Tg） mice, c-Fos binds to this site and promotes the expression of Bcl-2. As a result, Fos-Tg thymocytes exhibited enhanced survival, and more mature single-positive （SP） thymocytes were generated, even on a unique TCR background. The TCR repertoire remained normal in Fos-Tg mice. Our results identified c-Fos as the mediator of the stimulatory effect of TCR signaling on Bcl-2 expression. Therefore, c-Fos, as an IEG, because of its early response ability, can quickly rescue the survival of short-lived thymocytes during positive selection. Our results provide novel insight into the mechanism regulating the survival of positively selecting thymocytes.

Selective support of a mouse thymus epithelial cell line（MTEC1）to the viability and proliferation of CD4^+CD8^-,CD4^-CD8^-,and CD4^+CD8^+thymocytes in vitro

The MTEC1 cell line, established in our laboratory, is a normal epithelial cell line derived from thymus medulla of Balb/c mice and these cells constitutively produce multiple cytokines. The selection of thymic microenvironment on developing T cells was investigated in an in vitro system. Un-separated fresh thymocytes from Balb/c mice were cocul-tured with MTECl cells or/and MTEC1-SN,then,the viability, proliferation and phenotypes of cultured thymocytes were assessed. Without any exogenous stimulus, both MTECl cells and MTECl -SN were able to maintain the viability of thymocytes, while only the MTECl cells, not the MTECl -SN, could directly activate thymocytes to exhibit moderate proliferation, indicating that the proliferative signal is delivered through cell surface interactions of MTECl cells and thymocytes. Phenotype analysis on FACS of viable thymocytes after coculture revealed that MTECl cells preferentially activate the subsets of CD4+ CDS', CD4+ CD8+ and CD4- CD8- thymocytes; whereas MTEC1- SN preferentially maintained the viability of CD4+ CD8- and CD4-CD8+ thymocyte subsets.For the Con A-activated thymocytes, both MTEC1 cells and MTEC1-SN provided accessory signal(s) to significantly increase the number of viable cells and to markedly enhance the proliferation of thymocytes with virtually equal potency, phenotyped as CD4+CD8-, CD4-CD8+, and CD4- CD8- subsets. In summary, MTEC1 cells displayedselective support to the different thymocyte subsets , and the selectivity is dependent on the status of thymocytes.

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.

In vitro enhancing effects of thymic dendritic cells on apoptotic cell death of thymocytes

Using terminal deoxynucleotide transferase mediated dUTP digoxigenin nick end labeling (TUNEL) assay and propidium iodide DNA staining flow cytometry assay, the effects of mouse thymic dendritic cells (MTSC4) on the process of programmed cell death of thymocytes in vitro were investigated. It was noticed that thymocytes bound to MTSC4 used in this study. That the percentages of apoptotic nuclei of the bound thymocytes on MTSC4 were much higher than those of medium cultured thymocytes, while the bound thymocytes on mouse thymic epithelial cell (MTEC1) showed much lower percentages of apoptosis. FACS analysis quantitatively confirmed the observation. Phenotype analysis showed that MTSC4 induced the deletion of CD4+CD8+ cells and CD4+CD8 cells in 18 h of coculture. The results suggest that the negative selection of medullary thymocytes may be achieved by thymic dendritic cells through their enhancing effects on apoptosis.

Phenotypic analysis of the medullary-type CD4^-CD8^+ thymocytes in mice

Phenotypic analysis of the medullary-type CD4 CD8+ (CD8SP) thymocytes has revealed phenotypic heterogeneity within this cell population. The phenotype of mature peripheral CD8+T cells is TCRαβ+CD3+Qa-2+HSA3G11 6C10 , whereas in the medullary-type CD8SP thymocytes, 20% are Qa-2+; 33%, HAS ; 30%, 3G11 ; and 70% are 6C10 . The disparate expression patterns of these four cell surface markers suggest that medullary-type CD8SP thymocytes may undergo phenotypic maturation process. According to the distribution of these four celi surface markers, six subgroups of CD8SP thymocytes have been identified. The precursor-progeny relationship along with developmental pathway is postulated as follows: 6C10+HSA+3G11 Qa-2 - 6C10+HSA+ 3G11+Qa-2 6C10 HSA+3G11+Qa-2 -6C10 HSA 3G11 +Qa-2 -6C10 HSA 3G11 Qa-2 -6C10 HA S 3G11 Qa-2+, the cells inthe last subgroup exit the thymus and home into periphery.

Characterization of a murine thymic CD4^+ T cell subset-TCRαβ^+ 3G11^- 6C10^- CD4^+ CD8^- thymocytes

The presence of a relatively mature CD4+CD8- (SP)T cell subset in mouse thymus has been demonstrated. Composing of 10% of total CD4SP thymocytes, this subset is defined by the absence of 3G11 and 6C10 expression with a phenotype of CD69 +/- , HSAmed/lo and heterogeneous for Qa - 2 expression. The proliferation capability of TCRαβ+ 3G11-6C10- CD4+ CD8- thymocytes was high while using Con A stimulus. And Con A stimulation could result in secretion of IL-4, IL-10, IL-6 and a little amount of IFNγ. IL-2 was barely detectable. This is distinct from typical Th0 type cytokines. The cells of this subset were NK1.1 negative, but strongly expressed GATA-3 mRNA. The results suggest that the CD4+ subset of 3G11 - 6C10- NK1.1 - phenotype possesses immunocompetent cells with functions characteristic of Th2-like cytokines, which may indicate the cells at transitional status from ThO to Th2, with a propensity to Th2.

PF18-3, a 35-ku molecule, expresses specifically on apoptotic subset of mouse thymocytes

PF18-3 monoclonal antibody (mAb), one of the rat mAbs against mouse thymic stromal cells (MTSC), has been found to inhibit thymocyte apoptosis induced by a mouse thymic dendritic cell line, MTSC4, in previous co-culture study. The aim of this research is to investigate the character of PF18-3 mAb recognized molecule ( PF18-3 molecule) and its role in MTSC4-induced thymocyte apoptosis. The characterization of PF18-3 molecule expression has been conducted by FACS analysis. PF18-3 molecules have been found to express on MTSC4 as well as on Con A activated but not freshly isolated thymocytes. Up-regulated expression of PF18-3 molecules has been also observed on thymocytes after being co-cultured with MTSC4 for 48 h. The results from FACS analyses by Pl staining for detecting apoptosis-related hypodiploid and by PF18-3 mAb staining reveal that PF18-3 molecules expresss specifically on the apoptotic subgroup of thymocytes with high hypodiploid content. The PF18-3 molecule expressed on apoptotic thymocytes

Liver X receptorβis required for the survival of single-positive thymocytes by regulating IL-7Rαexpression

Liver X receptors(LXRs)are known as key transcription factors in lipid metabolism and have been reported to play an important role in T-cell proliferation.However,whether LXRs play a role in thymocyte development remains largely unknown.Here,we demonstrated that LXRβdeficiency caused a reduction in single-positive(SP)thymocytes,whereas the transitions from the double-negative to SP stage were normal.Meanwhile,LXRβ-null SP thymocytes exhibited increased apoptosis and impairment of the IL-7Rα-Bcl2 axis.In addition,the LXR agonist T0901317 promoted the survival of SP thymocytes with enhanced IL-7Rαexpression in wild-type mice but not in LXRβ-deficient mice.Mechanistically,LXRβpositively regulated the expression of IL-7Rαvia direct binding to the Il7r allele in SP thymocytes,and forced expression of IL-7Rαor Bcl2 restored the survival of LXRβ-defective SP thymocytes.Thus,our results indicate that LXRβfunctions as an important transcription factor upstream of IL-7Rαto promote the survival of SP thymocytes.

Sin1-mTORC2 signaling drives glycolysis of devetoping thymocytes

Emerging studies highlight the import-ance of metabolic reprogramming in T cell development and function, although how these processes are regulated remains to be fully understood. Recent advances in dissecting the roles of Sinl-m T0RC2 signaling in early thymocyte development provide new in sight into the dynamic in terplay between immune signaling and cell metabolism, as well as the crucial role in directi ng thymocyte pro life ration and development.

Functional maturation of two murine medullary-type CD8SP thymocytes

TCRαβTCD4-CD8+ thymocytes are heterogeneity. They may undergo phenotypic and functional maturation within thymic medulla. Medullary-type CD8SP thymocytes were divided into seven subsets based on phenotypic analysis, and their precursor-progeny relationship along with the differential pathway was also delineated. To further testify the validity of the maturation pathway, we purified 6C10-CD69+ cells representing the early stage and 6C10-Qa-2+ cells representing the later stage among medullary-type CD8SP thymocytes and compared their functional maturation levels. CD8+ T cells of spleen were used as the control. It is shown that there is no obvious difference of proliferation ability among these three subsets; however, intracytoplasmic cytokine assay shows that there is a hierarchy of IFN-γ and TNFα secretion among these subsets, strikingly comparable to their phenotypic status among medullary type CD8SP thymocytes. The bioassays of IL-2 and IFN-γ in culture supernatant give the similar results.

The Possible Involvement of Apoptotic Decay of Terminal Deoxynucleotidyl Transferase-Positive Lymphocytes in the Reutilization of the Extracellular DNA Fragments by Surrounding Living Cells

The migrating TdT+ thymocytes can die in other tissues, promoting the surrounding cells’ renewing likes holocrine secretion does. To clarify the role of TdT-enzyme for this function of progenitor lymphocytes, their extracellular media with its components included by living cells analyzed in vitro before and after in vivo irradiation of donor rats. The nucleoid with DNase-sensitive (free) DNA and TdT activity discovered in extracellular media conditioned preliminary by spontaneous apoptotic death of a minor part of the thymocyte’s suspension in vitro. The penetration of labeled products of non-template synthesis with free DNA’ primers from media into cells by pinocytosis confirmed by exogenous polymeric DNA marked artificially. The DNA penetration into cells follows an increase of the cell’s viability and acceleration of spontaneous intracellular DNA-synthesis controlled with labeled thymidine uptake. Both phenomena are typical for either the lowest initial concentration of intact cells or their preliminary irradiation in vivo. The data point to possible involvement of apoptotic decay of TdT+ cells in the reutilization of the extracellular DNA fragments for reparation/regeneration of surrounding living cells.

The Effect of Tremella Fuciformis Spores Polysaccharides (TSP) on Immune Cellular Function of Mice in Vitro

TSP could markedly enhance the proliferative response of the murine splenocyte to LPS and induce the mitogenesis of the spleen cells.Furthermore,it was able to augment the activity of natural killer cell and ADGG;at a dosage of 25-250μg/ml,the ability of splenocytes to produce IL-2 induced by onA had been improved; at the concentration of 250μg／ml or more,TSP could inhibit the proliferative response of the murine lymphocyte to GonA and the ~3-HTdR spontaneous incorporation rate of thymocytes,and the inhibitory action ran in paralell with the increase in concentration of TSP.

Electrophoretic Analysis on RNA of Deltamethrin-resistant Culex Pipiens Pallens

TSP could markedly enhance the proliferative response of the murine splenocyte to LPS and induce the mitogenesis of the spleen cells.Furthermore,it was able to augment the activity of natural killer cell and ADGG;at a dosage of 25-250μg/ml,the ability of splenocytes to produce IL-2 induced by onA had been improved; at the concentration of 250μg/ml or more,TSP could inhibit the proliferative response of the murine lymphocyte to GonA and the ￣3-HTdR spontaneous incorporation rate of thymocytes,and the inhibitory action ran in paralell with the increase in concentration of TSP.

The role of apoptosis in the development and function of T lymphocytes

Apoptosis plays an essential role in T cell biology. Thymocytes expressing nonfunctional or autoreactive TCRs are eliminated by apoptosis during development. Apoptosis also leads to the deletion of expanded effector T cells during immune responses. The dysregulation of apoptosis in the immune system results in autoimmunity, tumorogenesis and immunodeficiency. Two major pathways lead to apoptosis: the intrinsic cell death pathway controlled by Bcl-2 family members and the extrinsic cell death pathway controlled by death receptor signaling. These two pathways work to- gether to regulate T lymphocyte development and function.

Effect of bilateral testicular resection on thymocyte and its microenvironment in aged mice

Aim: To observe the changes in thymocyte and its microenvironment in aged mice after bilateral testicular resection.Methods: In male old mice, at the 25th day after testicular resection, the peripheral blood and thymus were collect-ed . Blood and thymus suspension smears were prepared for quantitative histochemistry and immunohistochemistry studyunder light and electron microscopes. Results; In testes resected mice the size and the weight of thymus weremarkedly increased. The demarcation between cortex and medulla was clear. The cortex was thickened and the celldensity was increased. The ratio of cortex/medulla stereometry was increased. The total cell count, thymocyte count,the percentage of acid a-naphthyl acetate esterase (ANAE) positive thymocytes, nonlymphocytes and the rosette forma-tion of macrophages and thymocytes were all increased. The thymocytes surrounded closely to the light thymic epithelialcells, dendritic cells or macrophages. The lymphocytes, particularly the ANAE positive lymphocytes of peripheralblood were increased. Conclusion; After bilateral testicular resection, the thymus of aged male mice showed mor-phological regeneration and the thymocytes and its microenvironment appeared to be definitely improved. It is suggestedthat testicular resection may improve immune function. (Asian J Androl 2001 Dec; 3; 271 — 275)