Stimulation of splenic T cells on syngeneic monolayers of epidermal basal cells (EBC) in mice. Regulation by Lyt 1+ and Lyt 2+ cell subsets

Syngeneic proliferative response of splenic T cells against monolayers of epidermal basal cells (EBC) was obtained with C57BL/6 and DBA/2 mice. Optimal response, as assessed by [³H]thymidine uptake, occurred on the 6th day of coculture. The level of [^3H]thymidine uptake by unseparated spleen cells was lower than by fractionated T cells from C57BL/6 mice, and null for DBA/2 mice. It was not significantly different when lymphocytes were cocultured with syngeneic or allogeneic epidermal cells. Ia antigens did not appear to be involved in the syngeneic response, since it was not prevented by pretreating stimulator monolayers with monoclonal anti-Ia^k antibody or by adding this antibody directly to the cultures. When the proliferative responses of separated Lyt 1⁺ and Lyt 2⁺ cell subsets were compared, the prominent role of Lyt 1⁺ cells was demonstrated. Enhancement of the T-cell reactivity by eliminating Lyt 2⁺ cells and suppression of the response of a constant number of Lyt 1⁺ cells by adding Lyt 2⁺ cells suggested that Lyt 2⁺ cells could suppress and modulate the Lyt 1⁺ cell proliferation.     

Nonobese diabetic CD4 lymphocytosis maps outside the MHC locus on chromosome 17

Genetic control of homeostasis of peripheral CD4⁺ lymphocyte levels is incompletely understood. Recent genome scans have linked mouse peripheral CD4 levels to chromosome 17, with strongest linkage to the Ea region. Nonobese diabetic (NOD) mice demonstrate peripheral T-cell lymphocytosis, and previous studies also suggested that the MHC region might control this phenotype. Here we confirm that loci on Chr 17 control NOD peripheral CD4 lymphocytosis. An elevated NOD CD4:CD8 ratio maps to the same region, and we show it is due to increased numbers of CD4⁺ cells. However, using NOD MHC congenic mice, we demonstrate that the MHC region is excluded, and that NOD peripheral lymphocytosis is controlled by genetic intervals adjacent to the MHC region on Chr 17.     

Modulating the differentiation status of ex vivo-cultured anti-tumor T cells using cytokine cocktails

The genetic modification of CD8+ T cells using anti-tumor T-cell receptors (TCR) or chimeric antigen receptors is a promising approach for the adoptive cell therapy of patients with cancer. We previously developed a simplified method for the clinical-scale generation of central memory-like (Tcm) CD8+ T cells following transduction with lentivirus encoding anti-tumor TCR and culture in the presence of IL-2. In this study, we compared different cytokines or combinations of IL-2, IL-7, IL-12, IL-15, and IL-21 to expand genetically engineered CD8+ T cells. We demonstrated that specific cytokine combinations IL-12 plus IL-7 or IL-21 for 3 days followed by withdrawal of IL-12 yielded the phenotype of CD62L^highCD28^high CD127^highCD27^highCCR7^high, which is associated with less-differentiated T cells. Genes associated with stem cells (SOX2, NANOG, OCT4, and LIN28A), were also up-regulated by this cytokine cocktail. Moreover, the use of IL-12 plus IL-7 or IL-21 yielded CD8 T cells showing enhanced persistence in the NOD/SCID/γc?/? mouse model. This defined cytokine combination could also alter highly differentiated TIL from melanoma patients into cells with a less-differentiated phenotype. The methodology that we developed for generating a less-differentiated anti-tumor CD8+ T cells ex vivo may be ideal for the adoptive immunotherapy of cancer.     

Contribution of intercellular adhesion molecule 1 (ICAM-1) to control Mycobacterium avium infection

Mycobacterium avium is a facultative intracellular opportunistic pathogen especially relevant in cases of people living with AIDS. The aim of this study was to evaluate the role of intercellular adhesion molecule 1 (ICAM-1) in the inflammatory response against M. avium infection. Mice deficient for ICAM-1 (ICAM KO) and infected with M. avium presented increased bacterial load in the spleen, liver and lungs compared to C57BL/6. Moreover, ICAM deficient mice presented reduced granuloma area in liver at 30 days post-infection with reduced numbers of lymphocytes and granulocytes. The assessment of in vitro cytokine production by ICAM KO spleen cells showed lower levels of IFN-γ compared to C57BL/6, whereas TNF-α remained unaltered. Additionally, the production of IFN-γ in liver and spleen tissues was also diminished in ICAM-1 KO mice. Interestingly, a persistent reduction in IFN-γ production was observed in CD3⁺NK1.1⁺ cells of ICAM-1 deficient mice compared to wild-type animals. Together, these results demonstrate the importance of ICAM-1 in the efficient control of M. avium infection and granuloma formation and highlights its role on CD3⁺NK1.1⁺ cell population as important for IFN-γ production during infection.     

Preliminary results in HIV-1-infected patients treated with transfer factor (TF) and Zidovudine (ZDV)

The efficiency of HIV-1 specific transfer factor (TF) administration, combined with Zidovudine (ZDV), in asymptomatic persistent generalised lymphadenopaty, or AIDS related complex (ARC) patients was evaluated. Twenty patients were randomly assigned to receive only ZDV (1st group) or ZDV together with HIV-1-specific TF (2nd group). HIV-1-specific TF was administered orally at 2 × 10⁷ cell equivalent daily for 15 days, and thereafter once a week for up to 6 months. There were no significant differences between the two groups in clinical evolution, red blood cells, haemoglobin, lymphocytes, CD20 subset, transaminases,β-2-microglobulin, p24 antigen. White blood cells, CD8 lymphocytes as well as IL-2 levels increased in the second group, while the CD4 subset increased in the first group. The combination treatment with ZDV and TF appeared to be safe and well tolerated. Furthermore, levels of serum cytokines were investigated in 10 patients (8 asymptomatic and 2 ARC) treated with ZDV, and compared with 5 patients of the 2nd group (3 asymptomatic and 2 ARC) treated with ZDV plus HIV-1-specific TF. Peripheral lymphocytes, CD4, CD8 subsets, IL-2, TNFα, IL-6, p24 antigen, IL-2 soluble lymphocyte receptors (sR), CD4sR, CD8sR and ß-2-microglobulin were evaluated at the baseline and at the 3rd month. The CD4 subset was not significantly different in the two groups, whilst IL-2 increased in the 2nd group receiving ZDV plus TF, suggesting an activation of the Th1 secretion pattern.     

Ultrastructural and immunoelectron microscopic studies on infiltrating mononuclear cells in lymphocytic submandibulitis in NOD mice

The ultrastructural relations of the infiltrating mononuclear cells to the parenchymal tissues were studied in the submandibular gland of the female non-obese diabetic (NOD) mouse. In addition, the phenotype of mononuclear cells infiltrating the submandibular gland has been determined by light and electron microscopy by using monoclonal antibodies against T-cell subsets (Thy1.2, Lyt1, Lyt2). Ultrastructurally, lymphoid cells were frequently observed around and in the acini and ducts. Some of the lymphoid cells observed in the acini and ducts were irregular in shape and sometimes sent spike-like projections into acinar and ductal cells. Immunohistochemical study demonstrated that Thy1.2+ cells were predominant among the infiltrating cells, and the majority of these infiltrating T-cells were composed of Lyt1+ cells with a small proportion of Lyt2+ cells. By immunoelectron microscopy, lymphocytes carrying Thy1.2, Lyt1 or Lyt2 antigen were identified, as is demonstrated by an electron-dense reaction product on the entire cell surface, and these immunopositive cells were frequently observed around and in the acini and ducts. Some of the Thy1.2+, Lyt1+ or Lyt2+ cells observed in the acini and ducts demonstrated a close contact with acinar and ductal cells and both Lyt1+ and Lyt2+ cells sent spike-like projections into them. Occasionally, a partial degeneration of acinar cell adjacent to the invading lymphocytes was observed. These observations suggest that T-lymphocytes are involved in the direct destruction of acinar and ductal cells in the NOD mouse submandibular glands.     

Identification and characterization of a soluble suppressor factor(s) in the serum of AKR mice bearing lymphocytic leukemia

Leukemia in AKR mice was found to be associated with the presence of a serum factor(s) termed AKR leukemic suppressor factor (AKR-LSF). Suppression was quantitated by measuring the inhibition of PHA-stimulated [³H]thymidine incorporation by normal AKR spleen cells at various dilutions of leukemic mouse serum (LMS). AKR-LSF activity was expressed as units per milliliter, which is the reciprocal of the LMS dilution that inhibited [³H]thymidine uptake by 50% with respect to fetal calf serum control cultures. The amount of activity in the serum directly correlated to the rate of tumor cell growth. Mice receiving 10⁷ BW5147 transplanted leukemia cells had 130 ± 12 units of AKR-LSF activity/ml of serum compared to 40 ± 8 units/ ml for mice with spontaneous leukemia. Normal mouse serum contained 33 ± 11 units/ml. The leukemic serum exhibited no strain specificity in either phytohemagglutinin or lipopolysaccharide assays, but was found to be twofold more inhibitory against mouse spleen cells than that against rat spleen cells. Human lymphocyte blastogenesis was not inhibited by the leukemic serum. LMS did not inhibit the growth of L929 fibroblasts or murine tumor cells in vitro. Further work is necessary to determine what role the suppressor factor may play in the regulation of antitumor cell immunity.     

Centromeric interval of chromosome 4 derived from C57BL/6 mice accelerates type 1 diabetes in NOD.CD72 congenic mice

The nonobese diabetic (NOD) mouse is a useful model of autoimmune type 1 diabetes exhibiting many similarities to human type 1 diabetes patients including the presence of auto-reactive T cells and pancreas-specific autoantiboies. Multiple Idd loci control the development of diabetes in NOD mice. CD72, a B cell membrane-bound glycoprotein carrying a C-type lectin-like domain, is an inhibitory co-receptor of the B cell antigen receptor (BCR) that negatively regulates BCR signaling. Among four known haplotypes of mouse CD72, NOD mice carry the CD72^c haplotype, whereas most of the other inbred strains of mice carry either CD72^a or CD72^b. In this study, we generated congenic NOD.CD72^b mice that carry C57BL/6 (B6) mouse-derived centromeric chromosome 4 interval (24-45 cM) surrounding the CD72^b locus. Unexpectedly, NOD.CD72^b mice were not protected from diabetes, but rather exhibited accelerated development of both insulitis and diabetes. Our result defines novel locus or loci in the vicinity of CD72 gene that negatively control diabetes, indicating that NOD disease is under complex genetic controls of not only Idd genes but also disease-resistant genes.     

Both cloned interleukin 2 and purified interleukin 1 are required for optimal growth of purified L3T4+ and Lyt 2+ lymphocytes initiated by concanavalin A

Concanavalin A (Con A), cloned interleukin 2 (IL-2), purified interleukin 1 (IL-1) or two different crude preparations containing IL-1 activity alone, did not induce proliferation of rigorously accessory cell (AC)-depleted splenic L3T4+ or Lyt 2+ lymphocytes. Con A together with saturating concentrations of cloned IL-2 (100 U/ml) promoted less than 40% of the proliferative responses observed in AC-supplemented L3T4+ and Lyt 2+ T-cell cultures. The three preparations of IL-1 used supported minimal proliferation of Con A-treated purified L3T4+ or Lyt 2+ lymphocytes. However, all these IL-1 preparations promoted significant growth of the T-cell populations if AC (1%) were included in the cultures. Cloned IL-2 combined with purified IL-1 promoted proliferation of Con A-treated L3T4+ and Lyt 2+ lymphocytes achieving approximately 75% of the responses observed in AC-supplemented T-cell cultures. The additive effect of IL-1 was apparent in the presence of saturating concentrations of cloned IL-2. Finally, Con A alone induced a detectable number of both L3T4+ and Lyt 2+ lymphocytes to express IL-2 receptors as determined with the anti-mouse IL-2 receptor antibody 7D4 by immunofluorescence and FACS analysis. Purified IL-1 neither induced detectable number of L3T4+ or Lyt 2+ T cells to express IL-2 receptors nor increased the number of Con A-treated T cells bearing IL-2 receptors. We have interpreted these findings to indicate the following: Con A alone is sufficient to induce highly purified L3T4+ and Lyt 2+ lymphocytes to express IL-2 receptors. Cloned IL-2 and purified IL-1 are required for optimal growth of L3T4+ and Lyt 2+ lymphocytes and these cytokines together efficiently replace AC in growth of T cells initiated by Con A. IL-1 alone does not replace AC in Con A-induced activation of mouse T cells. IL-1 exerts potentiation on IL-2-driven growth of Con A-treated L3T4+ and Lyt 2+ lymphocytes. The additive activity of IL-1 on growth of normal T cells is not due to increased production of IL-2 in the cultures or induction of normal T cells to expression of IL-2 receptors by IL-1. We propose that IL-1 optimizes the action and/or interaction of IL-2 with its receptors on the T-cell membrane (by, i.e., increasing affinity of the IL-2 receptor for its ligand and/or stabilizing the IL-2 receptor).     

CD73 Is Dispensable for the Regulation of Inflationary CD8+ T-Cells after Murine Cytomegalovirus Infection and Adenovirus Immunisation

The ecto-5''-nucleotidase (CD73) is expressed by T-cell subsets, myeloid derived suppressive cells and endothelial cells. It works in conjunction with CD39 to regulate the formation and degradation of adenosine in vivo. Adenosine has previously been shown to suppress the proliferation and cytokine secretion of T-cells and recent evidence suggests that inhibition of CD73 has the potential to enhance T-cell directed therapies. Here we utilised a CD73 knockout mouse model to assess the suppressive ability of CD73 on CD8⁺ T-cell classical memory and memory “inflation”, induced by murine cytomegalovirus (MCMV) infection and adenovirus immunisation. We show that CD73 is dispensable for normal CD8⁺ T-cell differentiation and function in both models. Thus CD73 as a suppressor of CD8⁺ T-cells is unlikely to play a deterministic role in the generation and functional characteristics of antiviral memory in these settings.     

5'-nucleotidase activity of murine T-cell subpopulations separated according to their Lyt2 and L3T4 phenotypes

Murine T lymphocytes were separated by "panning" into four subpopulations, according to their Lyt2 and L3T4 phenotypes: Lyt2+L3T4+, Lyt2-L3T4-, Lyt2+L3T4-, and Lyt2-L3T4+. The activity of ecto-5'-nucleotidase in each subpopulation was measured. 5'-Nucleotidase activity was undetectable in Lyt2+L3T4+ cortical cells but was expressed in medullary Lyt2-L3T4+ and Lyt2+L3T4- T lymphocytes. The small cortical subpopulation of thymocyte precursors with the Lyt2-L3T4- phenotype expressed levels of 5'-nucleotidase comparable to the levels of medullary, mature lymphocytes. These results suggest that the use of ecto-5'-nucleotidase as a marker of the degree of T-cell maturation is questionable.     

Lyt phenotype analysis of the effector cells responsible for evoking lymphocyte-induced angiogenesis (LIA)

Lymphocyte-induced angiogenesis (LIA) is a vascular response observed when allogeneic or semiallogeneic immunocompetent lymphocytes are inoculated intradermally into immunosuppressed or irradiated host mice. The reported experiments were carried out to characterize the effector cell population(s) responsible for causing LIA. Lyt 1.2, Lyt 2.2, and monoclonal Thy 1.2 antisera were used for negative selection with complement (C′) to investigate the ability of selected subsets of lymphocytes to evoke angiogenesis. Treatment of C57BL/6 spleen cells with either anti-Lyt 1.2 or anti-Thy 1.2 and C′ resulted in an almost complete abrogation of the LIA reaction. In contrast, depletion of Lyt 2+ cells, under conditions which fully abrogated their ability to generate cell-mediated cytotoxicity in allogeneic mixed leukocyte cultures, resulted only in a partial (45%) reduction in the induced vascular response. Synergistic interaction between cell preparations treated separately with either anti-Lyt 1.2 or anti-Lyt 2.2 serum was not observed. We conclude that (i) Lyt 1 + 2?T lymphocytes can induce a significant LIA reaction; (ii) lymphocytes resistant to negative selection with anti-Lyt-1.2 serum are incapable of inducing such a reaction; and (iii) Lyt 1 + 2+ cells directly or indirectly play an additional role in generating a maximal LIA response.     

Intrahepatically transplanted human cord blood cells reduce SW480 tumor growth in the presence of bispecific EpCAM/CD3 antibody

Humanized mice were generated in order to investigate the anti-tumor efficacy of bispecific antibodies. The engraftment, distribution and differentiation of mononuclear cells (MNC) from cord blood transplanted into the liver of newborn non-obese diabetic/severe combined immunodeficiency (NOD/SCID) mice were measured. Using a human-specific polymerase chain reaction (PCR), human cells were found to be present in the liver for a time range from 5 min to 5 days. After long-term engraftment of 42 days, the highest level of human cells was measured in mouse thymus, with lower levels in spleen and bone marrow. Engrafted human cells in mouse organs showed T-cell differentiation only, as measured by CD3, CD4 and CD8 expression. The MNC transplanted intrahepatically into newborn mice were tested for T-cell mediated anti-tumor activity in vivo against subcutaneously transplanted human SW480 colon carcinoma in NOD/SCID mice. A delay of SW480 tumor growth in mice in the presence of a bispecific epithelial cell-adhesion molecule (EpCAM)/CD3 antibody was found to be associated with the presence of immunoreactive human CD3 cells within the SW480 tumor. Our data provide evidence that the intrahepatic transplantation of cord blood stem cells into newborn mice represents a valuable model for establishing functionally active human T cells with anti-tumor activity.     

A novel CD93 polymorphism in non-obese diabetic (NOD) and NZB/W F1 mice is linked to a CD4+ iNKT cell deficient state

In the present study, we characterize a polymorphism in the CD93 molecule, originally identified as the receptor for the C1q complement component (i.e., C1qRp, or AA4.1) in non-obese diabetic (NOD) mice. This allele carries a coding polymorphism in the first epidermal growth factor-like domain of CD93, which results in an amino acid substitution from Asn→His at position 264. This polymorphism does not appear to influence protein translation or ecto-domain cleavage, as CD93 is detectable in bone-marrow-derived macrophage and B-cell precursor lysates and in soluble form in the serum. The NOD CD93 isoform causes a phenotypic aberrancy in the early B-cell developmental stages (i.e., pro-, pre-, immature, and transitional), likely related to a conformational variation. Interestingly, the NZB/W F1 strain, which serves as a murine model of Lupus, also expresses an identical CD93 sequence polymorphism. Cd93 is located within the NOD Idd13 locus and is also tightly linked to the NZB/W F1 Wbw1 and Nkt2 disease susceptibility loci, which are thought to regulate natural killer T (NKT) cell homeostasis. Consistent with this genetic linkage, we found B6 CD93^−/− and B6.NOD^Idd13 mice to be susceptible to a profound CD4⁺ NKT cell deficient state. These data suggest that Cd93 may be an autoimmune susceptibility gene residing within the Idd13 locus, which plays a role in regulating absolute numbers of CD4⁺ NKT cells.     

In vitro generated anti-tumor T lymphocytes exhibit distinct subsets mimicking in vivo antigen-experienced cells

The T-lymphocyte pool can be subdivided into naïve (Tn), effector memory (Tem), and central memory (Tcm) T cells. In this study, we characterized in vitro short-term cultured anti-tumor human T lymphocytes generated by lentiviral transduction with an anti-tumor antigen TCR vector. Within 2 weeks of in vitro culture, the cultured T cells showed a Tcm-like phenotype illustrated by a high percentage of CD62L and CD45RO cells. When the cells were sorted into populations that were CD45RO+/CD62L-(Tem), CD45RO+/CD62L+(Tcm), or CD45RO^low/CD62L+(Tn) and co-cultured with antigen-matched tumor lines, the magnitude of cytokine release from these populations for IFNγ (Tn < Tcm < Tem) and IL-2 (Tn > Tcm > Tem) mimicked the types of immune cell responses observed in vivo. In comparing cell-mediated effector function, Tn were found to be deficient (relative to Tcm and Tem) in the ability to form conjugates with tumor cells and subsequent lytic activity. Moreover, analysis of the gene expression profiles of the in vitro cultured and sorted T-cell populations also demonstrated patterns consistent with their in vivo counterparts. When Tcm and Tem were tested for the ability to survive in vivo, Tcm displayed significantly increased engraftment and persistence in NOD/SCID/γc^?/? mice. In general, a large percentage of in vitro generated anti-tumor T lymphocytes mimic a Tcm-like phenotype (based on phenotype, effector function, and increased persistence in vivo), which suggests that these Tcm-like cultured T cells may be optimal for adoptive immunotherapy.     

MHC class II Ab diabetogenic residue 57 Asp/non-Asp dimorphism influences T-cell recognition and selection

 Human and mouse major histocompatibility complex class II beta chain alleles associated with predisposition to type I diabetes often encode a non-charged residue at position 57 rather than the negatively charged aspartate residue characteristic of non-susceptible haplotypes. The mechanism(s) whereby this polymorphism promotes eventual pancreatic beta cell destruction is unclear. The type I diabetes-susceptible mouse strain NOD (H2^g7) encodes serine at Ab position 57 and is one of the few mouse class II molecules not encoding aspartate at this position. To gain insight into the structural impact of this amino acid substitution and any influence it may have on T-cell selection, we assessed whether T-cell repertoires selected by diabetogenic class II (A^g7) are tolerant of mutant Ab (residues 56 and 57) H2-A^g7. We find that NOD mice mount an allogeneic response to skin grafts expressing mutant position 57 (serine to aspartate) Ab^g7; but not to grafts expressing mutant position 56 (histidine to proline) Ab^g7. Graft rejection correlates with the presence of CD4⁺ T cells specific for the mutant H2-A^g7 heterodimer. Genetic analyses are consistent with Ab position 57 aspartate/non-aspartate dimorphism influencing peptide selection and hence repertoire selection. Direct evidence for the serine to aspartate substitution at position 57 influencing T-cell selection is found by analysis of peripheral T-cell receptor (TCR) usage and the CD4/CD8 T-cell ratio. Received: 18 June 1997 / Revised: 18 September 1997     

Regulation of IL-21 signaling by suppressor of cytokine signaling-1 (SOCS1) in CD8(+) T lymphocytes

Mice lacking the gene for suppressor of cytokine signaling 1 (SOCS1) show defective homeostasis of T lymphocytes due to accumulation of CD8⁺ T cells, resulting at least partly from dysregulated IL-15 signaling. IL-15 alone does not stimulate proliferation of naïve CD8 T cells, but can synergize with IL-21 to induce proliferation, suggesting a potential role for IL-21 in the defective homeostasis of CD8⁺ T lymphocytes in SOCS1^−/− mice. Since IL-21 strongly induced SOCS1 mRNA in CD8⁺ T cells, we investigated whether SOCS1 regulates their response to IL-21. CD8⁺ T cells isolated from SOCS1-deficient mice proliferated vigorously in response to IL-21 + IL-15. In CD8⁺ T lymphocytes expressing transgenic TCR, IL-21 + IL-7 provided a stronger stimulus to naïve cells whereas IL-15 + IL-21 potently stimulated memory cells. Compared to truly naïve or memory cells, SOCS1^−/− H-Y TCR⁺ CD8⁺ T cells displayed CD44^loLy6C^hiCD122^intCD127^lo partial memory phenotype and exhibited stronger response to IL-15 + IL-21 than truly naïve cells. In SOCS1^−/− CD8⁺ T cells, IL-21 caused greater reduction in IL-15 threshold for activation in a dose-dependent manner. SOCS1 deficiency did not modulate IL-21Rα expression or sensitivity to IL-21, but delayed the loss of IL-21-induced phospho-STAT3 signal. These results show that SOCS1 is a critical regulator of IL-21 signaling in CD8⁺ T cells, and support the notion that sustained IL-21 signaling might also contribute to the aberrant T cell homeostasis in SOCS1-deficient mice.