Tumor-derived Fas ligand induces toxicity in lymphoid organs and plays an important role in successful chemotherapy

 Recent studies have suggested that Fas ligand (FasL⁺) tumor cells can induce apoptosis in Fas⁺ T cells. However, the effect of growth of FasL⁺ tumors in vivo, on lymphoid tissues of the host is not clear and therefore was the subject of this investigation. Injection of FasL⁺ LSA tumor caused a significant decrease in cellularity of the thymus and spleen, resulting from marked apoptosis, in syngeneic C57BL/6+/+ (wild-type) but not C57BL/6-lpr/lpr (Fas-deficient) mice. The tumor-induced toxicity resulted from tumor-derived rather than host-derived FasL, inasmuch as LSA tumor growth in C57BL/6-gld/gld (FasL-defective) mice, induced marked apoptosis and toxicity in the thymus and spleen. The LSA tumor growth induced a significant decrease in the percentage of CD4⁺CD8⁺ T cells in the thymus of C57BL/6+/+ mice and an increase in the percentage of CD4⁺, CD8⁺ and CD4⁻CD8⁻ T cells. Of the four subpopulations tested, the CD4⁺CD8⁺ T cells showed maximum apoptosis. The LSA (FasL⁺) but not P815(FasL⁻) tumor cell lysates and culture supernatants induced marked apoptosis in Fas⁺ thymocytes, when tested both in vitro and in vivo. The LSA-tumor-induced apoptosis in vitro was inhibited by antibodies against FasL or by caspase and other inhibitors of apoptosis. Chemotherapy of LSA-tumor-bearing C57BL/6+/+ mice at advanced stages of tumor growth failed to cure the mice, whereas, more than 80% of LSA-tumor-bearing C57BL/6-lpr/lpr mice, similarly treated, survived. Together, the current study demonstrates that FasL produced by LSA tumor cells is functional in vivo and can cause severe toxicity in lymphoid organs of the host. Also, Fas/FasL interactions may play an important role in the successful chemotherapy of FasL-bearing tumor. Received: 31 August 1999 / Accepted: 12 November 1999     

Selective Depletion of Eosinophils or Neutrophils in Mice Impacts the Efficiency of Apoptotic Cell Clearance in the Thymus

Developing thymocytes undergo a rigorous selection process to ensure that the mature T cell population expresses a T cell receptor (TCR) repertoire that can functionally interact with major histocompatibility complexes (MHC). Over 90% of thymocytes fail this selection process and die. A small number of macrophages within the thymus are responsible for clearing the large number of dying thymocytes that must be continuously cleared. We studied the capacity of thymic macrophages to clear apoptotic cells under acute circumstances. This was done by synchronously inducing cell death in the thymus and then monitoring the clearance of apoptotic thymocytes. Interestingly, acute cell death was shown to recruit large numbers of CD11b⁺ cells into the thymus. In the absence of a minor CSF-1 dependent population of macrophages, the recruitment of these CD11b⁺ cells into the thymus was greatly reduced and the clearance of apoptotic cells was disrupted. To assess a possible role for the CD11b⁺ cells in the clearance of apoptotic cells, we analyzed mice deficient for eosinophils and mice with defective trafficking of neutrophils. Failure to attract either eosinophils or neutrophils to the thymus resulted in the impaired clearance of apoptotic cells. These results suggested that there is crosstalk between cells of the innate immune system that is necessary for maximizing the efficiency of apoptotic cell removal.     

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^+/−, HSA^med/lo and heterogeneous for Qa-2 expression. The proliferation capability of TCRαβ⁺ 3Gl l⁻ 6C10⁻ CD4⁺ CD8⁻ thymocytes was high while using Con A stimulus. And Con A stimulation could result in secretion of IL4, 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 Th0 to Th2, with a propensity to Th2. Project supported by the National Natural Science Foundation of China (Grant No. 39730410).     

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^+/−, HSA^med/lo and heterogeneous for Qa-2 expression. The proliferation capability of TCRαβ⁺ 3Gl l⁻ 6C10⁻ CD4⁺ CD8⁻ thymocytes was high while using Con A stimulus. And Con A stimulation could result in secretion of IL4, 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 Th0 to Th2, with a propensity to Th2.     

Changes in heat shock protein synthesis and heat sensitivity during mouse thymocyte development

Heat shock protein synthesis was examined in mouse thymocytes at three stages of development: early embryonic thymocytes, which are CD4^?CD8^?, adult thymocytes, which are primarily CD4⁺CD8⁺, and mature spleen T cells, which are CD4⁺CD8^? or CD4^?CD8⁺. After either a 41°C or 42°C heat shock, the synthesis of the maior heat-inducible protein (hsp68) was elevated during the first hour of recovery but then decreased abruptly in thymocytes from adult mice. In contrast, the synthesis of hsp68 continued for up to 4 h after heating embryonic mouse thymocytes or mature spleen T cells. The more rapid termination ofthe heat shock response in the adult thymocytes was not the result of eitherless heat damage or more rapid repair since the recovery of general protein synthesis was more severely delayed in these cells. As well, the double positive CD4⁺CD8⁺ cells were more sensitive to hyperthermia than either the double negative CD4^?CD8^? or single positive CD4⁺CD8^? or CD4^?CD8⁺ cells. Exposure of fetal thymus organ cultures to elevated temperature revealed that the double negative thymocytes were able to survive and differentiate normally following a heat shock treatment that was lethal for the double positive thymocytes. Exposure of thymocytes from adult mice to elevated temperatures induced apoptotic cell death. This was evident by the cleavage of DNA into oligonucleosome-sized fragments. Quantitation of the extent of DNA fragmentation and the number of apoptotic cells by flow cytometry demonstrated that the extent of apoptotic cell death was related to the severity of the heat stress. Double positive (CD4+CD8+) thymocytes are selected on the basis of their T-cell antigen receptor (TCR). Most of these cells are negatively selected and die within the thymus by an active process of cell deletion known as apoptosis. Restricting hsp synthesis in response to stress might be essential during developmental processes in which cell maturation is likely to result in death rather than functional differentiation. © 1993Wiley-Liss, Inc.     

Enhanced CD95-mediated apoptosis contributes to radiation hypersensitivity of <Emphasis Type="Italic">NBS</Emphasis> lymphoblasts

The molecular causes for enhanced radiosensitivity of Nijmegen Breakage Syndrome cells are unclear, especially as repair of DNA damage is hardly impeded in these cells. We clearly demonstrate that radiation hypersensitivity is accompanied by enhanced γ-radiation-induced apoptosis in NBS1 deficient lymphoblastoid cell lines. Differences in the apoptotic behavior of NBS1 ^−/− and NBS1 ^+/− cells are not due to an altered p53 stabilization or phosphorylation in NBS1 ^−/− cells. γ-radiation-induced caspase-8 activity is increased and visualization of CD95 clustering by laser scanning microscopy shows a significant higher activation of the death receptor in NBS1 ^−/− cells. Further investigation of the molecular mechanisms reveals a role for reactive oxygen species-triggered activation of CD95. These results demonstrate that NBS1 suppresses the CD95 death receptor-dependent apoptotic pathway after γ-irradiation and evidence is given that this is achieved by regulation of the PI3-K/AKT survival pathway.     

CD47 promotes both phosphatidylserine-independent and phosphatidylserine-dependent phagocytosis of apoptotic murine thymocytes by non-activated macrophages

The ubiquitously expressed cell surface glycoprotein CD47 on host cells can inhibit phagocytosis of unopsonized or opsonized viable host target cells. Here we studied the role of target cell CD47 in macrophage uptake of viable or apoptotic murine thymocytes. As expected, IgG-opsonized viable CD47^−/− thymocytes were taken up more efficiently than equally opsonized Wt thymocytes. However IgG-opsonized apoptotic thymocytes from Wt and CD47^−/− mice were taken up equally. Although uptake of apoptotic thymocytes by non-activated bone marrow-derived macrophages was phosphatidylserine (PS)-independent, while uptake by non-activated resident peritoneal macrophages was PS-dependent, both macrophage populations showed a reduced uptake of non-opsonized apoptotic CD47^−/− thymocytes, as compared with the uptake of apoptotic Wt thymocytes. This difference was only seen with non-activated macrophages, and not with β-1,3-glucan-activated macrophages. CD47 promoted binding of thymocytes to macrophages, which did not require F-actin polymerization. CD47 became clustered on apoptotic thymocytes, both co-localized with or separated from, clustered PS and cholesterol-rich GM-1 domains. Thus, CD47 does not inhibit, but rather support, both PS-independent and PS-dependent uptake of apoptotic cells in the murine system. This mechanism only comes into play in non-activated macrophages.     

Cytotoxic T cells infiltrating a glioma express an aberrant phenotype that is associated with decreased function and apoptosis

 In this study, we report on novel alterations found in rat intracranial (i.c.) tumor-infiltrating T lymphocytes (TIL) that are indicative of T cell defects and death. FACS analysis showed that the cytotoxic T cells (CTL) infiltrating rat T9.F gliomas were CD3ɛ⁺, αβTCR⁺, CD8α ⁺, but CD8β ⁻. These lymphocytes also stained positive for the B cell-specific marker, CD45RA, as well as Annexin-V, signifying apoptotic changes. Functional and biochemical analyses were performed to assess whether the aberrant phenotype was linked to other defects. When CD8α ⁺ TIL were purified and stimulated in vitro, their proliferative capacity was markedly diminished in comparison with CD3⁺CD8α ⁺CD8β ⁺ T cells isolated from the spleens of naive, non tumor-bearing rats. Furthermore, the mean fluorescence intensity of surface CD3ɛ was dramatically reduced in the CD3⁺CD8α ⁺CD8β ⁻ TIL population as compared with CD3⁺CD8α ⁺CD8β ⁺ TIL from the same tumor-bearing animal. Biochemical studies revealed that the expression of TCRζ and LAT were reduced in lysates generated from CD8α-purified TIL with respect to CD8α-purified T cells from naive spleen. We believe that these degenerative changes are reflective of chronic T cell receptor ligation, because in vitro culture of rat splenocytes or purified T cells with ConA or anti-CD3 mAb induced the same alterations. In vitro, the downregulation of CD8β could be inhibited by the caspase inhibitor, z-VAD. These results suggest that the aberrant CTL phenotype found in the TIL of glioma-bearing rats may be novel signals for their impending death and degenerating anti-tumor immune function. Received: 27 February 2001 / Accepted: 26 April 2001     

Enhanced anti-tumor activity of interferon-alpha in SOCS1-deficient mice is mediated by CD4<Superscript>+</Superscript> and CD8<Superscript>+</Superscript> T cells

Interferon-alpha (IFN-α) is an immunomodulatory cytokine that is used clinically for the treatment of melanoma in the adjuvant setting. The cellular actions of IFN-α are regulated by the suppressors of cytokine signaling (SOCS) family of proteins. We hypothesized that the anti-tumor activity of exogenous IFN-α would be enhanced in SOCS1-deficient mice. SOCS1-deficient (SOCS1^−/−) or control (SOCS1^+/+) mice on an IFN-γ^−/− C57BL/6 background bearing intraperitoneal (i.p.) JB/MS murine melanoma cells were treated for 30 days with i.p. injections of IFN-A/D or PBS (vehicle). Log-rank Kaplan-Meier survival curves were used to evaluate survival. Tumor-bearing control SOCS1^+/+ mice receiving IFN-A/D had significantly enhanced survival versus PBS–treated mice (P = 0.0048). The anti-tumor effects of IFN-A/D therapy were significantly enhanced in tumor-bearing SOCS1^−/− mice; 75% of these mice survived tumor challenge, whereas PBS-treated SOCS1^−/− mice all died at 13-16 days (P = 0.00038). Antibody (Ab) depletion of CD8⁺ T cells abrogated the anti-tumor effects of IFN-A/D in SOCS1^−/− mice as compared with mice receiving a control antibody (P = 0.0021). CD4⁺ T-cell depletion from SOCS1^−/− mice also inhibited the effects of IFN-A/D (P = 0.0003). IFN-A/D did not alter expression of CD80 or CD86 on splenocytes of SOCS1^+/+ or SOCS1^−/− mice, or the proportion of T regulatory cells or myeloid-derived suppressor cells in SOCS1^+/+ or SOCS1^−/− mice. An analysis of T-cell function did reveal increased proliferation of SOCS1-deficient splenocytes at baseline and in response to mitogenic stimuli. These data suggest that modulation of SOCS1 function in T-cell subsets could enhance the anti-tumor effects of IFN-α in the setting of melanoma.     

Absence of mitochondrial uncoupling protein 1 affects apoptosis in thymocytes,thymocyte/T-cell profile and peripheral T-cell number

Our laboratory has previously demonstrated the presence of constitutively expressed mitochondrial uncoupling protein 1 in mouse thymocytes. In our endeavours to understand the role of mitochondrial uncoupling protein 1 in thymocyte function, we compared cell profiles in thymus and spleen of wild-type with those of UCP 1 knock-out mice, which in turn led to comparative investigations of apoptotic potential in thymocytes from these mice. We demonstrate that spleen cell numbers were reduced ～ 3-fold in UCP 1 knock-out mice compared to wild-type mice. We record a halving of CD8 single positive cell numbers in thymus with a significant incremental increase in CD4/CD8 double positives cell numbers in the thymus of UCP 1 knock-out mice compared to wild-type mice. These data are mirrored by an approximate halving of CD8 single positive cell numbers and a doubling of CD4/CD8 double positive cell numbers in the spleen of UCP 1 knock-out mice compared to wild-type mice. These differences are most probably explained by our observations of decreased apoptotic potential and higher ATP levels in thymocytes of UCP 1 knock-out mice when compared to wild-type controls. We conclude that constitutively expressed UCP 1 is a factor in determining T-cell population selection in mice.     

Starvation‐induced MTMR13 and RAB21 activity regulates VAMP8 to promote autophagosome–lysosome fusion

Autophagy, the process for recycling cytoplasm in the lysosome, depends on membrane trafficking. We previously identified Drosophila Sbf as a Rab21 guanine nucleotide exchange factor (GEF) that acts with Rab21 in endosomal trafficking. Here, we show that Sbf/MTMR13 and Rab21 have conserved functions required for starvation‐induced autophagy. Depletion of Sbf/MTMR13 or Rab21 blocked endolysosomal trafficking of VAMP8, a SNARE required for autophagosome–lysosome fusion. We show that starvation induces Sbf/MTMR13 GEF and RAB21 activity, as well as their induced binding to VAMP8 (or closest Drosophila homolog, Vamp7). MTMR13 is required for RAB21 activation, VAMP8 interaction and VAMP8 endolysosomal trafficking, defining a novel GEF‐Rab‐effector pathway. These results identify starvation‐responsive endosomal regulators and trafficking that tunes membrane demands with changing autophagy status.     

Expression of Ly-6A/E alloantigens in thymocyte and T-lymphocyte subsets: variability related to the Ly-6 a and Ly-6 b haplotypes

We have studied the cellular basis for differential expression of the Ly-6A/E alloantigen on T cells obtained from mice of the Ly-6 ^a (10–20% Ly-6A/E ⁺) and Ly-6 ^b (50–60% Ly-6A/E ⁺) haplotypes. During T-cell ontogeny only a small fraction (< 12 %) of thymocytes expressed Ly-6A/E. By 4 weeks of age adult levels of Ly-6A/E bearing lymphocytes were seen in peripheral lymphoid tissue. Immunohistochemical studies of the thymus revealed that Ly-6A/E⁺ cells were located predominantly in the medulla with small clusters of Ly-6A/E⁺ cells throughout the cortex. Consistent with this result, phenotypic studies showed that in the adult thymus the majority of Ly-6A/E expression was on mature CD4⁺ CD8^– and CD4^– CD8⁺ cortisone-resistant and precursor CD4^– CD8^– thymocytes. However, a much higher percentage of CD4⁺ CD8^– and CD4^– CD8^– thymocytes as well as CD4⁺ CD8^– peripheral T cells expressed Ly-6A/E from Ly-6 ^b mice. Furthermore, although gamma interferon induced increased Ly-6A/E expression in certain thymocyte and T-cell subsets, this induction functioned preferentially for cells obtained from Ly-6 ^b mice. Studies using F₁ hybrid mice (Ly-6 ^a × Ly-6 ^b) indicated that the basal level of Ly-6A/E expression on these subsets appeared to be under codominant genetic control, whereas gamma interferon-induced regulation of Ly-6A/E expression appeared to be under dominant genetic control. Collectively, these results suggest that the expression of Ly-6A/E on a particular T-cell subset is established in the thymus and is a stable characteristic of each haplotype. In addition, the low levels of Ly-6A/E expression for the Ly-6 ^a haplotype appear to be partially due to the inability of the majority of resting CD4⁺ T cells to express Ly-6A/E and to the relatively poor induction of this protein by gamma interferon.     

Differential MHC expression requirements for positive selection of separate TCR Vb families

 Positive selection has been proposed to be involved in protection from diabetes. We examined positive selection by fluorescence-activated cell sorter analyses in thymocytes of protected and susceptible E-transgenic and non-transgenic NOD mice. Three Vb families showed positive selection in E-transgenic mice. Vb6⁺CD4⁺ and Vb10⁺CD4⁺ thymocytes were found at higher frequencies in both protected NOD-Ea and susceptible NOD-DY mice. The increased frequencies of Vb13⁺CD8⁺ thymocytes were found in protected NOD-Ea mice only, and not in susceptible NOD-DY transgenic mice. These three Vb families were further examined in bone-marrow chimeras between NOD-Ea and non-transgenic NOD mice, where we could examine the contribution of E-expressing bone-marrow-derived cells in positive selection. We find that NOD-Ea→NOD-Ea chimeras have an increased positive selection of Vb13⁺CD8⁺ cells and that positive selection is more efficient when both thymic epithelium and bone-marrow-derived cells express the E molecule. This was also seen for Vb6⁺CD4⁺ cells. However, for Vb6, bone-marrow-derived cells alone were also capable of positive selection. Positive selection of Vb10⁺CD4⁺ cells was restricted to E-expressing thymic epithelium only. For Vb13⁺CD8⁺ cells, we found that positive selection is most efficient with E-expression on both thymic epithelium and bone-marrow-derived cells, although positive selection also occurs with E-positive epithelium only. For Vb6⁺ CD4⁺ cells, the dominating selecting cells are bone-marrow-derived cells, and Vb10⁺CD4⁺ cells seem to be selected exclusively by the thymic epithelium. Thus, the conditions for positive selection seem to vary considerably between different Vb families. Received: 8 April 1998 / Revised: 29 June 1998     

The multi-functional SNARE protein Ykt6 in autophagosomal fusion processes

Autophagy is a degradative pathway in which cytosolic material is enwrapped within double membrane vesicles, so-called autophagosomes, and delivered to lytic organelles. SNARE (Soluble N-ethylmaleimide sensitive factor attachment protein receptor) proteins are key to drive membrane fusion of the autophagosome and the lytic organelles, called lysosomes in higher eukaryotes or vacuoles in plants and yeast. Therefore, the identification of functional SNARE complexes is central for understanding fusion processes and their regulation. The SNARE proteins Syntaxin 17, SNAP29 and Vamp7/VAMP8 are responsible for the fusion of autophagosomes with lysosomes in higher eukaryotes. Recent studies reported that the R-SNARE Ykt6 is an additional SNARE protein involved in autophagosome-lytic organelle fusion in yeast, Drosophila, and mammals. These current findings point to an evolutionarily conserved role of Ykt6 in autophagosome-related fusion events. Here, we briefly summarize the principal mechanisms of autophagosome-lytic organelle fusion, with a special focus on Ykt6 to highlight some intrinsic features of this unusual SNARE protein.     

Enhanced expansion of the thymic CD8+ cell subset as a potential mechanism for the generation of enhanced antitumor cytotoxicity by thymocytes from low-dose melphalan-treated MOPC-315 tumor bearers

Summary We have previously shown that thymocytes from low-dose melphalan (l-phenylalanine mustard)-treated MOPC-315-tumor-bearing mice (melphalan TuB) are able to generate an enhanced level of anti-MOPC-315 cytotoxicity, as compared to thymocytes from untreated MOPC-315-tumor-bearing mice or thymocytes from untreated or low-dose melphalan-treated normal mice, upon in vitro stimulation with MOPC-315 tumor cells in the presence of a low concentration of recombinant interleukin-2 (rIL-2). Here we show that the generation of enhanced anti-MOPC-315 cytotoxicity by melphalan TuB thymocytes depends on the ability of the thymocytes to proliferate. In addition, the ability of melphalan TuB thymocytes to generate an enhanced level of anti-MOPC-315 cytotoxicity correlated with their ability to proliferate more readily than thymocytes from untreated tumor-bearing mice and thymocytes from untreated or melphalan-treated normal mice in response to stimulation with MOPC-315 tumor cells plus a low concentration of rIL-2. Moreover, although fresh melphalan TuB thymocytes do not contain a higher percentage of phenotypically mature cells (i.e., CD4^–/CD8⁺ or CD4⁺/CD8^–) than do thymocytes from normal mice or untreated tumor-bearing mice, after a 5-day culture with both MOPC-315 tumor cells and a low concentration of rIL-2, cultures of thymocytes from melphalan TuB contained a much higher percentage of CD4^–/CD8⁺ (but not CD4⁺/CD8^–) cells than did cultures of thymocytes from the other two sources. Since CD4^–/CD8⁺ cells were previously shown to be responsible for the exertion of antitumor cytotoxicity by thymocytes stimulated with MOPC-315 in vitro, our results indicate that the enhanced antitumor cytotoxicity exerted by melphalan TuB thymocytes following in vitro stimulation with MOPC-315 tumor cells in the presence of a low concentration of rIL-2 is due, at least in part, to an expansion of the pool of CD4^–/CD8⁺ effector cells.Supported by research grant CA-35 761 from the National Cancer InstituteIn partial fulfillment of the requirements for the Doctor of Philosophy degreeSupported by career development award CA-01 350 from the National Cancer Institute     

Impact of aging on immune modulation by tumor

 Tumor development and aging can each alter immune competence. The present study aimed to determine the impact of Lewis lung carcinoma (LLC) presence on immune parameters of middle-aged (averaging 6.5 months) versus aged (averaging 21.3 months) mice. An age-associated decline in the CD4⁺ cell frequency was seen in freshly isolated spleen and lymph node cells, as well as in cultures stimulated with immobilized anti-CD3. This decline was not further exacerbated by tumor presence. What was prominently inhibited by tumor was the capacity of either splenic or lymph node CD4⁺ cells to become stimulated to express IFN-γ. Spleen and lymph node cultures from aged tumor-bearing mice had the lowest frequency of CD4⁺IFN-γ ⁺ cells and the least amount of secreted IFN-γ. CD8⁺ cells were not affected by aging, but tumor presence reduced the induction of CD8⁺IFN-γ ⁺ cells in lymph node cultures. We previously showed that LLC growth stimulates myelopoiesis, as seen by splenomegaly and the mobilization of immune inhibitory CD34⁺ progenitor cells. Tumor presence in middle-aged mice reduced spleen cell blastogenesis, which was mediated by CD34⁺ cells. Aged mice had reduced blastogenesis, and this was further reduced by presence of tumor. However, neither the age-associated immune dysfunction nor the tumor-induced immune suppression in aged mice was due to CD34⁺ progenitor cells. These studies show how tumor presence can further compromise the immune dysfunction that accompanies aging. In addition, they show that aging impacts on the mechanisms by which tumors inhibit T-cell capabilities, with myelopoiesis-associated CD34⁺ cells mediating the immune depression of middle-aged tumor-bearers and an independent mechanism being responsible for the immune depression in aged tumor-bearing mice. Received: 19 March 2001 / Accepted: 4 May 2001     

A primary study of the subgroups of T lymphocytes in MHV-3 induced chronic viral hepatitis

To study the contribution of T cell subsets in the pathogenesis of Murine hepatitis virus Type 3 (MHV-3) induced chronic viral hepatitis in C3H/Hej mice, ninety C3H/Hej mice were chosen to individually receive 10 plaque forming units (PFU) of MHV-3 intraperitoneally. The changes of virus titer and pathology in liver tissue were examined by standard plaque assay and by the hematoxylin/eosin (HE) staining method from 2 days post MHV-3 infection. The ratios of T cell subsets including CD3⁺CD4⁺CD8⁻, CD3⁺CD4⁻CD8⁺, CD3⁺CD4⁻CD8⁻, CD3⁺CD4⁺CD25⁺, CD3⁺CD4⁺CD25⁻ and CD3⁺ CD4⁻CD25⁺ T lymphocyte of total T lymphocytes in blood, spleen and liver were examined at 0, 2, 4, 6, 8, 10, 12, 15, 20, 25, 30, 40 days post MHV-3 infection by flow cytosorting. We observed that the virus titer raised and showed persistent virus duplications and inflammatory changes in the livers of C3H/Hej mice from 2 days post MHV-3 infection. The double negative T cell (DN Treg cell) and CD4⁺CD25⁺ T cell ratios increased significantly from 2 days post MHV-3 infection in C3H/Hej mice, and CD3⁺CD4⁺CD8⁻, CD3⁺CD4⁻CD8⁺, CD3⁺CD4⁺CD25⁻ and CD3⁺CD4⁻CD25⁺ T cell ratios decreased accordingly. In conclusion, the changes of virus titer and pathology in the livers of C3H/Hej mice post MHV-3 suggest their contribution to viral persistence. Further characterizations of DN Treg cells are that infection indicates that MHV-3 could induce the chronic inflammation in livers of C3H/Hej mice. The increase of the DN Treg cell and CD4⁺CD25⁺ T cell ratios in C3H/Hej mice post MHV-3 infection suggests that DN Treg cells and CD4⁺CD25⁺ T cells may both have important suppressive immunomodulation functions in the development of chronic viral hepatitis and have important roles in the virus persistent infection. Further characterizations of DNT cell and CD4⁺CD25⁺ T cell are under investigation. Foundation items: National Nature Science Foundation (30571643, 30672380), Major State Basic Research Development Program of China (2005CB522901, 2007CB512904)     

Distinct myeloid suppressor cell subsets correlate with plasma IL-6 and IL-10 and reduced interferon-alpha signaling in CD4<Superscript>+</Superscript> T cells from patients with GI malignancy

Interferon-alpha (IFN-α) promotes anti-tumor immunity through its actions on immune cells. We hypothesized that elevated percentages of myeloid-derived suppressor cells (MDSC) and increased pro-inflammatory cytokines in peripheral blood would be associated with impaired response to IFN-α in patients with gastrointestinal (GI) malignancies. This study evaluated relationships between plasma IL-6, IL-10, circulating MDSC subsets, and IFN-α-induced signal transduction in 40 patients with GI malignancies. Plasma IL-6 and IL-10 were significantly higher in patients versus normal donors. CD33⁺HLADR⁻CD11b⁺CD15⁺ and CD33⁺HLADR^−/lowCD14⁺ MDSC subsets were also elevated in patients versus normal donors (P < 0.0001). Plasma IL-6 was correlated with CD33⁺HLADR⁻CD15⁺ MDSC (P = 0.008) and IL-10 with CD33⁺HLADR⁻CD15⁻ MDSC (P = 0.002). The percentage of CD15⁺ and CD15⁻ but not CD14⁺ MDSC subsets were inversely correlated with IFN-α-induced STAT1 phosphorylation in CD4⁺ T cells, while co-culture with in vitro generated MDSC led to reduced IFN-α responsiveness in both PBMC and the CD4⁺ subset of T cells from normal donors. Exploratory multivariable Cox proportional hazards models revealed that an increased percentage of the CD33⁺HLADR⁻CD15⁻ MDSC subset was associated with reduced overall survival (P = 0.049), while an increased percentage of the CD33⁺HLADR^−/lowCD14⁺ subset was associated with greater overall survival (P = 0.033). These data provide evidence for a unique relationship between specific cytokines, MDSC subsets, and IFN-α responsiveness in patients with GI malignancies.     

CD133<Superscript>+</Superscript>CD44<Superscript>+</Superscript> subgroups may be human small intestinal stem cells

The identification and separation of small intestinal epithelial stem cells are still on the preliminary stage. In this study, we planned to utilize immunohistochemistry, fluorescence-activated cell sorting (FACS) and RT-PCR to investigate the possibility of CD133 and CD44 as markers of human small intestinal epithelial stem cells. The expressions of CD133, CD44 and Lgr5 were studied by immunohistochemistry. Four subgroups of CD133⁺CD44⁺, CD133⁺CD44⁻, CD133⁻CD44⁺, CD133⁻CD44⁻ were sorted out through FACS and the expression level of Lgr5 gene was measured by RT-PCR and polyacrylamide gel electropheresis (PAGE) with sliver stained. Ten cases of samples were available for analyzing. By immunohistochemical staining, few cells with positive expressions of CD133, CD44 and Lgr5 were distributed in the bottom of crypts with the expression locations somewhat overlapped. The average percentage of CD133⁺CD44⁺ cells was 0.0580 ± 0.0403%, while the corresponding contents of CD133⁺CD44⁻ cells, CD133⁻CD44⁺ cells and CD133⁻CD44⁻ cells were 0.4000 ± 0.1225%, 0.7000 ± 0.2646% and 76.5600 ± 3.5529% respectively. Ten times of positive expressions of Lgr5 were detected in the CD133⁺CD44⁺ groups, while 9/10, 8/10 and 4/10 times for CD133⁺CD44⁻, CD133⁻CD44⁺ and CD133⁻CD44⁻ subgroups respectively. With the help of Quantityone 4.62 software, the densities of corresponding place to Lgr5 and reference gene were obtained. The density ratios of corresponding place to Lgr5 to reference gene were significant difference between subgroups (P < 0.001). By means of LSD method, the density ratios in CD133⁺CD44⁺ subgroups had statistical differences from the other subgroups (P < 0.05). We concluded CD133⁺CD44⁺ cells may be human small intestinal epithelial stem cells, which need further researches to confirm.     

Fidelity of a BAC-EGFP transgene in reporting dynamic expression of IL-7Rα in T cells

Interleukin-7 receptor α chain (IL-7Rα)-derived signals are critical for normal T cell development, mature T cell homeostasis, and longevity of memory T cells. IL-7Rα expression in T cells is dynamically regulated at different developmental and antigen-responding stages. However, the molecular mechanism underlying the dynamic regulation is not completely understood. Here we describe generation of a bacterial artificial chromosome (BAC)-based reporter transgenic mouse strain, which contains 210 kb DNA sequence flanking the Il7r locus. We used in vitro validated EGFP reporter and insulator sequences to facilitate the reporter transgene expression. Consistent with endogenous IL-7Rα expression, the BAC transgene was expressed in mature T cells, a portion of natural killer cells but not in mature B cells. In the thymus, the EGFP reporter and endogenous IL-7Rα showed synchronized silencing in CD4⁺CD8⁺ double positive stage, were both upregulated in CD4⁺ or CD8⁺ single positive thymocytes, and both continued to be co-expressed in na?ve T cells in the periphery. Upon encountering antigen, the antigen-specific effector CD8⁺ T cells downregulated both endogenous IL-7Rα and the EGFP reporter, which were upregulated in synchrony in antigen-specific memory CD8 T cells. These results indicate that the BAC-EGFP transgene reports endogenous IL-7Rα regulation with high fidelity, and further suggest that the 210 kb sequence flanking the Il7r locus contains sufficient genetic information to regulate its expression changes in T lineage cells. Our approach thus represents a critical initial step towards systematic dissection of the cis regulatory elements controlling dynamic IL-7Rα regulation during T cell development and cellular immune responses.