Characterization of the CD4+ and CD8+ tumor infiltrating lymphocytes propagated with bispecific monoclonal antibodies

To study the CD4+ and CD8+ tumor infiltrating lymphocytes (TIL) in the antitumor response, we propagated these subsets directly from tumor tissues with anti-CD3:anti-CD8 (CD3,8) and anti-CD3:anti-CD4 (CD3,4) bispecific mAb (BSMAB). CD3,8 BSMAB cause selective cytolysis of CD8+ lymphocytes by bridging the CD8 molecules of target lymphocytes to the CD3 molecular complex of cytolytic T lymphocytes with concurrent activation and proliferation of residual CD3+CD4+ T lymphocytes. Similarly, CD3,4 BSMAB cause selective lysis of CD4+ lymphocytes whereas concurrently activating the residual CD3+CD8+ T cells. Small tumor fragments from four malignant melanoma and three renal cell carcinoma patients were cultured in medium containing CD3,8 + IL-2, CD3,4 + IL-2, or IL-2 alone. CD3,8 led to selective propagation of the CD4+ TIL whereas CD3,4 led to selective propagation of the CD8+ TIL from each of the tumors. The phenotypes of the TIL subset cultures were generally stable when assayed over a 1 to 3 months period and after further expansion with anti-CD3 mAb or lectins. Specific 51Cr release of labeled target cells that were bridged to the CD3 molecular complexes of TIL suggested that both CD4+ and CD8+ TIL cultures have the capacity of mediating cytolysis via their Ti/CD3 TCR complexes. In addition, both CD4+ and CD8+ TIL cultures from most patients caused substantial (greater than 20%) lysis of the NK-sensitive K562 cell line. The majority of CD4+ but not CD8+ TIL cultures also produced substantial lysis of the NK-resistant Daudi cell line. Lysis of the autologous tumor by the TIL subsets was assessed in two patients with malignant melanoma. The CD8+ TIL from one tumor demonstrated cytotoxic activity against the autologous tumor but negligible lysis of allogeneic melanoma targets. In conclusion, immunocompetent CD4+ and CD8+ TIL subsets can be isolated and expanded directly from small tumor fragments of malignant melanoma and renal cell carcinoma using BSMAB. The resultant TIL subsets can be further expanded for detailed studies or for adoptive immunotherapy.     

Specific release of granulocyte-macrophage colony-stimulating factor, tumor necrosis factor-alpha, and IFN-gamma by human tumor-infiltrating lymphocytes after autologous tumor stimulation

Tumor-infiltrating lymphocytes (TIL) have been cultured from a variety of human tumors, and some melanoma TIL have demonstrated specific, MHC-restricted recognition of autologous tumor in short term lysis assays. The current study investigates cytokine release by TIL as an indicator of specific tumor recognition. We have identified two of four melanoma and one of seven breast carcinoma TIL cultures that specifically release granulocyte-macrophage-CSF, TNF-alpha, and IFN-gamma after autologous tumor stimulation. The other cultures either do not secrete cytokine or secrete cytokine in a nonspecific fashion. The amount of specific cytokine released is directly related to the number of TIL and stimulating tumor cells. Studies of TIL, from two melanoma patients, separated into CD4+ and CD8+ populations revealed that CD8+ cells were responsible for virtually all of the specific cytokine secretion, although both populations released cytokines when activated by immobilized anti-CD3 antibody. Specific cytokine release by CD8+ TIL was inhibited by anti-MHC class I mAb. Specific cytokine release was also detected from a CD4+ breast cancer TIL culture, and this was inhibited by anti-MHC class II mAb. The clinical significance of this specific mode of immune antitumor reactivity is currently under investigation.     

Tumour-infiltrating lymphocytes mediate lysis of autologous squamous cell carcinomas of the head and neck

Tumour-infiltrating lymphocytes (TIL) and tumours from six patients with squamous cell carcinomas of the head and neck (SCCHN) were investigated. The six tumours all expressed major histocompatibility complex (MHC) class I antigens both in vivo and as tumor cell lines grown in vitro. In addition, the cancer cells either overexpressed the tumour-suppressor gene product p53 or harboured human papilloma virus 16/18 (HPV). The TIL were expanded in vitro in the presence of interleukin-2, immobilised anti-CD3 mAb and soluble anti-CD28 mAb. Expanded TIL cultures contained both CD4+and CD8+T cells, but generally contained few CD56+CD3-cells of the natural killer (NK) phenotype. CD8+T cells dominated the individual TIL cultures from five of the six patients and showed significant autologous tumour cell lysis. In TIL cultures derived from four of these tumour-reactive TIL cultures, killing could be partially blocked by an anti-MHC class I mAb. TIL cultures reacting with autologous tumour cells also showed strong TCR/CD3-redirected cytotoxicity when assayed against hybridoma cells expressing anti-TCR/CD3 mAb as well as natural-killer(NK)-like activity. A number of TIL cultures devoid of autologous tumour cell lysis were capable of lysing the natural-killer(NK)-sensitive K562 cell line suggesting that the SCCHN cells themselves are resistant to NK-like lysis. In conclusion, TIL cultures from head and neck carcinomas contain T cells which, upon expansion in vitro, can lyse autologous tumour cells in a MHC-class-I-restricted fashion. Thus, the results of the present study document that carcinomas of the head and neck in some patients are infiltrated by cytotoxic T cell precursors potentially capable of rejecting the autologous tumour.     

Data integration from pathology slides for quantitative imaging of multiple cell types within the tumor immune cell infiltrate

Background

Immune cell infiltrates (ICI) of tumors are scored by pathologists around tumor glands. To obtain a better understanding of the immune infiltrate, individual immune cell types, their activation states and location relative to tumor cells need to be determined. This process requires precise identification of the tumor area and enumeration of immune cell subtypes separately in the stroma and inside tumor nests. Such measurements can be accomplished by a multiplex format using immunohistochemistry (IHC).

Method

We developed a pipeline that combines immunohistochemistry (IHC) and digital image analysis. One slide was stained with pan-cytokeratin and CD45 and the other slide with CD8, CD4 and CD68. The tumor mask generated through pan-cytokeratin staining was transferred from one slide to the other using affine image co-registration. Bland-Altman plots and Pearson correlation were used to investigate differences between densities and counts of immune cell underneath the transferred versus manually annotated tumor masks. One-way ANOVA was used to compare the mask transfer error for tissues with solid and glandular tumor architecture.

Results

The overlap between manual and transferred tumor masks ranged from 20%–90% across all cases. The error of transferring the mask was 2- to 4-fold greater in tumor regions with glandular compared to solid growth pattern (p < 10^?6). Analyzing data from a single slide, the Pearson correlation coefficients of cell type densities outside and inside tumor regions were highest for CD4 + T-cells (r = 0.8), CD8 + T-cells (r = 0.68) or CD68+ macrophages (r = 0.79). The correlation coefficient for CD45+ T- and B-cells was only 0.45. The transfer of the mask generated an error in the measurement of intra- and extra- tumoral CD68+, CD8+ or CD4+ counts (p < 10^?10).

Conclusions

In summary, we developed a general method to integrate data from IHC stained slides into a single dataset. Because of the transfer error between slides, we recommend applying the antibody for demarcation of the tumor on the same slide as the ICI antibodies.

     

Lymphocytes infiltrating human ovarian tumors. I. Role of Leu-19 (NKH1)-positive recombinant IL-2-activated cultures of lymphocytes infiltrating human ovarian tumors

Tumor-infiltrating lymphocytes (TIL) were obtained from human ovarian tumors, expanded in the presence of IL-2 in culture and studied for cytotoxicity against fresh autologous and allogeneic ovarian carcinoma (CA) targets. TIL from ovarian tumors grew well in long term cultures, achieving from 8- to 682-fold expansion. TIL cultured with IL-2 were cytotoxic against both autologous and allogeneic fresh ovarian CA targets, and no specificity for autologous tumor could be demonstrated in any of the cultures. In all fresh TIL preparations, CD3+ lymphocytes were the major cell type and contained a high proportion (up to 51%) of activated (IL-2R+) cells as determined by two-color flow cytometry. Sorting of bulk TIL cultures followed by cytotoxicity assays identified the Leu-19+ cells, both CD3+ and CD3-, as effectors of cytotoxicity against autologous and allogeneic tumor cell targets. Cold target inhibition assays showed that allogeneic targets (both ovarian CA and a sarcoma) competed effectively with autologous ovarian CA targets for Leu-19+ effectors in TIL cultures. mAb to Leu-19 or Leu-2a did not block lysis of autologous targets by sorted effectors. OKT3 antibody augmented lysis of autologous targets by CD3+Leu-19- effectors only. These results show that non-MHC-restricted Leu-19+ effectors in cultures of TIL with 1000 U/ml of rIL-2 mediate lysis of autologous and allogeneic tumor cells. The CD3+Leu-19- cells, the main population in these cultures, do not mediate tumor lysis. To determine the phenotype of antitumor effectors in IL-2 cultures of TIL, cell sorting followed by functional assays are necessary.     

The FOXP3+ subset of human CD4+CD8+ thymocytes is immature and subject to intrathymic selection

FOXP3, believed to be the regulatory T (Treg)-cell determining factor, is already expressed at the CD4+CD8+ thymocyte stage, but there is disagreement whether these cells are the precursors of mature CD4+CD8(-) Treg cells. Here, we provide a quantitative analysis of FOXP3 expression in the human thymus. We show that a subset of CD4+CD8+ cells already expressed as much FOXP3 as the FOXP3+ CD4+CD8(-) cells, and like mature Treg cells were CD127 low. In contrast to earlier data, CD8+CD4(-) thymocytes expressed significantly lower levels of FOXP3 than either the CD4+CD8+ or CD4+CD8(-) subsets. The CD4+CD8+ double-positive cells also expressed recombination-activating gene-2, suggesting that they were still immature. Although the FOXP3+ double-positive cells are thus putatively the precursors of the mature CD4+CD8(-)FOXP3+ subset, their frequency did not predict the frequency of more mature Treg cells, and analysis of T-cell antigen receptor repertoire showed clear differences between the two subsets. Although these data do not rule out an independent CD4+CD8+ Treg cell subset, they are consistent with a model of human Treg cell development in which the upregulation of FOXP3 is an early event, but the first FOXP3+ population is still immature and subject to further selection. The upregulation of FOXP3 may thus not be the final determining factor in the commitment of human thymocytes to the Treg cell lineage.     

Enhancement of in vitro tumor-infiltrating lymphocyte cytotoxicity by heteroconjugated antibodies.

Tumor-infiltrating lymphocytes (TIL) were obtained from a mouse melanoma cell line (CL 62) transfected with the gene for the human melanoma Ag p97. TIL were cultured with anti-CD3 antibody and IL-2 for up to 38 days. Flow cytometry identified these TIL as Thy-1.2 + ve/CD4-ve/CD8 + ve cells. A heteroconjugated antibody 500A2 x 96.5, specific for both the CD3 Ag on TIL and the p97 Ag on CL 62 melanoma cells, was prepared using N-succinimidyl-3-(2-pyridyldithio)-propionate as a linking agent. TIL alone demonstrated low levels of cytotoxicity against autologous CL 62 tumor and also against the parental K1735 tumor and an allogeneic murine melanoma (B16). The addition of 500A2 x 96.5 heteroconjugated antibody enhanced TIL-mediated lysis of CL 62 tumor, but not of the K1735 or B16 tumors. This enhanced cytotoxicity was elicited at E:T ratios as low as 0.4:1, and in TIL cultured for 7 to 38 days. These results suggest that hetero-conjugated antibody may enhance the anti-tumor effect of TIL in vivo.     

Tumor-infiltrating lymphocytes predict response to chemotherapy in patients with advance non-small cell lung cancer

Accumulating preclinical evidence suggests that anticancer immune responses contribute to the success of chemotherapy. The predictive significance of tumor-infiltrating lymphocytes (TILs) for response to neoadjuvant chemotherapy in non-small cell lung cancer (NSCLC) remains unknown. The aim of this study was to investigate the prognostic and predictive value of TIL subtypes in patients with advanced NSCLC treated with platinum-based chemotherapy. In total, 159 patients with stage III and IV NSCLC were retrospectively enrolled. The prevalence of CD3(+), CD4(+), CD8(+) and Foxp3(+) TILs was assessed by immunohistochemistry in tumor tissue obtained before chemotherapy. The density of TILs subgroups was treated as dichotomous variables using the median values as cutoff. Survival curves were estimated by the Kaplan-Meier method, and differences in overall survival between groups were determined using the Log-rank test. Prognostic effects of TIL subsets density were evaluated by Cox regression analysis. The presence of CD3(+), CD4(+), CD8(+), and FOXP3(+) TILs was not correlated with any clinicopathological features. Neither the prevalence of TILs nor combined analysis displayed obvious prognostic performances for overall survival in Cox regression model. Instead, higher FOXP3(+)/CD8(+) ratio in tumor sites was an independent factor for poor response to platinum-based chemotherapy in overall cohort. These findings suggest that immunological CD8(+) and FOXP3(+)Tregs cell infiltrate within tumor environment is predictive of response to platinum-based neoadjuvant chemotherapy in advanced NSCLC patients. The understanding of the clinical relevance of the microenvironmental immunological milieu might provide an important clue for the design of novel strategies in cancer immunotherapy.     

Efficient expansion of tumor-infiltrating lymphocytes from solid tumors by stimulation with combined CD3 and CD28 monoclonal antibodies

Combined CD3 and CD28 monoclonal antibodies (mAb) may initiate efficient activation and expansion of tumor-infiltrating lymphocytes (TIL). In this study we compared phenotypical and functional characteristics of TIL from a group of 17 solid human tumors, stimulated either by high-dose recombinant interleukin 2 (rIL-2, 1000 IU/ml) or by a combination of anti-CD3 and anti-CD28 monoclonal antibodies in the presence of low-dose rIL-2 (10 IU/ml). Compared to activation with high-dose rIL-2, stimulation of TIL with CD3/CD28 mAb induced significantly stronger proliferation and yielded higher levels of cell recovery on day 14. Following the CD3/CD28 protocol, expansion of an almost pure population of CD3⁺ cells was obtained. Whereas CD4⁺ cells dominated in the first week of culturing, within 4 weeks the CD8⁺ population increased to over 90%. The specific capacity to kill autologous tumor cells was not increased as compared to the high-dose rIL-2 protocol, but all cultures showed high cytotoxic T cell activity as measured in a CD3-mAb-mediated redirected kill assay. These studies show that combined CD3 and CD28 mAb are superior to rIL-2 with respect to the initiation of expansion of CD8⁺ cytolytic TIL from solid tumors. Stimulation with specific tumor antigens at a later stage of culturing may further augment the expansion of tumor-specific cytolytic T cells.     

Semiquantitative analysis of Th1 and Th2 cytokine expression in CD3+, CD4+, and CD8+renal-cell-carcinoma-infiltrating lymphocytes

The mRNA expression of Th1 and Th2 cytokines was compared in freshly isolated CD3⁺ tumor-infiltrating lymphocytes (CD3⁺ TIL) and in autologous CD3⁺ peripheral blood lymphocytes (CD3⁺ PBL) obtained simultaneously from 20 patients with renal cell carcinomas (RCC). In addition cytokine expression was compared in CD4⁺ TIL and CD8⁺ TIL from another group of 20 patients with RCC. TIL were isolated from mechanically disaggregated tumor material and PBL from peripheral blood by gradient centrifugation and subsequent selection with anti-CD3, anti-CD4 or anti-CD8 magnetic beads. In these pure lymphocyte preparations the constitutive expression of interleukin-1 (IL-1), IL-2, IL-10, interferon γ (IFN), and tumor necrosis factor α (TNF) was determined by using a polymerase-chain-reaction-assisted mRNA amplification assay. In the CD3⁺ TIL, levels of mRNA for IFN, IL-10, IL-1 and TNF were significantly higher than in the autologous CD3⁺ PBL whereas IL-2 expression was rather low and did not differ in the two populations. Comparison of cytokine mRNA expression in CD4⁺ TIL and simultaneously obtained CD8⁺ TIL revealed a significantly higher expression of IFN in the CD8⁺ cells. These data reflect an in vivo activation of RCC-infiltrating lymphocytes at the mRNA level with respect to the Th1 as well as the Th2 immune response. Th1 activation seems to be most evident in the CD8⁺ TIL. Received: 14 January 1999 / Accepted: 30 April 1999     

Culture of tumour-infiltrating lymphocytes from melanoma and colon carcinoma: Removal of tumour cells does not affect tumour-specificity

The therapeutic potential of adoptive therapy using tumour-infiltrating lymphocytes (TIL) has been demonstrated in a number of clinical trials. However, freshly isolated tumour-infiltrating lymphocytes (TIL) are often impaired in their proliferative and cytotoxic responses, which limits their use in immunotherapy. Several hypotheses with regard to the poor effector function of TIL have been postulated, including the production of immunosuppressive factors by tumour cells. In a previous paper we reported the efficient expansion of immunoreactive TIL from a variety of solid tumours by stimulation with a combination of monoclonal antibodies (mAbs) against CD3 and CD28. In the present study we analysed whether this protocol would be improved by the removal of tumour cells at the start of the culture. We tested a highly immunogenic tumour, melanoma, and a poorly immunogenic tumour, colon carcinoma. Removal of tumour cells highly improved anti-CD3/CD28 stimulated expansion of TIL from colon carcinoma, resulting in a significantly higher percentage of potentially tumour-specific CD8-positive T-cells and a reduced CD4/CD8 ratio compared to expansion in the presence of tumour cells. In contrast, expansion and CD4/CD8 ratio of melanoma-derived TIL was not significantly influenced by the removal of autologous tumour cells. CD3/CD28-stimulated melanoma TIL cultured in the absence of tumour cells showed specific lysis of autologous tumour cells comparable to melanoma TIL cultured in high-dose IL2. However, no cytotoxicity could be detected in colon TIL irrespective of the culture conditions used. On the other hand, 3/8 colon carcinoma TIL cultures and 9/12 melanoma-derived TIL cultures showed IFN secretion upon stimulation with autologous tumour cells. We conclude that stimulation of TIL with a combination of mAbs to CD3 and CD28 in the absence of tumour cells induces efficient expansion of potentially tumour-specific cells from a highly and a poorly immunogenic tumour. Removal of tumour cells does not have a negative influence on the generation of tumour-specific T cells, while cell yield improves. Therefore, for large-scale cultures this protocol can efficiently induce the outgrowth of tumour-specific TIL, at the same time providing a useful source of autologous tumour cells that can be stored and used to direct or test antitumour specificity.     

Cytolytic antitumor effector cells in long-term cultures of human tumor-infiltrating lymphocytes in recombinant interleukin 2

Summary Lymphocytes infiltrating human solid tumors (TIL) and autologous peripheral blood lymphocytes (A-PBL) were cultured with 1000 units/ml of recombinant interleukin 2 (rIL2) in long-term cultures. TIL isolated from 26 primary squamous cell carcinomas of the head and neck expanded better (P<0.01) and achieved higher total lytic units of activity against fresh tumor cell targets (P<0.05) than A-PBL. TIL obtained from primary hepatocellular carcinomas (n=7) showed a higher degree of expansion than those from metastatic liver tumors (n=7). Further, TIL from metastatic tumors of the head and neck, liver, and ovary were delayed up to 50 days in their proliferative response to rIL2. Long-term mass cultures in rIL2 of TIL, A-PBL, or normal PBL were serially monitored for cytotoxicity with different cultured and fresh tumor cell targets and for phenotypic markers of the predominating cell populations. Antitumor cytotoxicity was found in cultures enriched in CD3 + Leu19 + and/or CD3-Leu19 + cells. Two-color sorting of such cultures followed by cytotoxicity assays confirmed that the human antitumor effectors expressed either the CD3 + Leu19 + or CD3-Leu19 + phenotype. CD3 + Leu19- cells had little or no antitumor cytotoxicity. The two types of Leu19 + effector cells were present in low numbers in fresh TIL, A-PBL, or normal PBL; in contrast, in some rIL2-expanded long-term cultures, they represented a majority of proliferating cells. This study identifies for the first time two types of antitumor effector cells in rIL2 cultures of human TIL, one of which may represent activated natural killer cells on the basis of the absence of the CD3 and expression of the Leu19 antigen. These antitumor effector cells mediate non-MHC-restricted cytotoxicity of fresh or cultured tumor cell targets of different histologic types.     

Mechanism of tumor rejection in anti-CD3 monoclonal antibody-treated mice

The present study was undertaken to determine the mechanism of tumor rejection in mice treated with low dose anti-CD3 mAb. It was found that treated mice developed nonrestricted antitumor cytolytic spleen cells of the Thy-1+, asialo GM-1+, CD4-, CD8- phenotype. Although these cells might play a role in immunopotentiating some immune responses, in vivo depletion studies using anti-asialo GM-1 mAb demonstrated that these cells were not involved in the rejection of the progressor tumor, 1591-PRO4L, by anti-CD3 mAb-treated mice. Mice treated with anti-CD3 did develop lasting tumor specific immunity as demonstrated by their ability to reject PRO4L on tumor rechallenge while being unable to reject an unrelated UV-induced tumor. The specificity of this memory implicated T cells in the response to PRO4L in anti-CD3-treated mice. Using in vivo T cell subset depletion of anti-CD3-treated animals, it was shown that both CD4+ and CD8+ T cells are required for anti-CD3-induced tumor rejection. The CD4+ cells provide helper function and are only required in the early rejection period, whereas CD8+ cells are required throughout the immune response. In fact, examination of rejecting tumors from treated animals revealed the presence of tumor-specific CD8+ cytolytic T cells capable of cytolysis immediately after removal from the rejecting PRO4L tumor. Thus, in vivo treatment with anti-CD3 mAb likely results in the pan-stimulation of the entire T cell population, which enhances the generation of specific CD8+ T cells, which then eliminate the tumor.     

Analysis of the immune reactivity of infiltrating and peripheral lymphocytes from patients with renal cell carcinoma by measuring cytokine secretion

 The immunological properties of tumor-infiltrating (TIL) and peripheral blood lymphocytes (PBL) from 29 patients with renal cell carcinomas were characterized with respect to their phenotypic expression and cytokine production. TIL were isolated from mechanically disaggregated tumor material and PBL from peripheral blood by gradient centrifugation. To eliminate all non-lymphoid cells, CD3-positive cells were specifically separated from these cell fractions with anti-CD3 magnetic beads. These pure CD3-positive PBL (CD3⁺PBL) and TIL (CD3⁺TIL) were cultured with pokeweed mitogen and the levels of the cytokines interleukin-1α (IL-1α), IL-1β, IL-2, interferon γ (IFNγ), and tumor necrosis factor α (TNFα) measured in the 4-day post-inductional cell culture supernatants. In all cell cultures a wide range of cytokine values was found, indicating a large variation in the immunological activity of the lymphocytes of each individual. When the cell cultures of the CD3⁺TIL and CD3⁺PBL were compared in each patient similar values for IL-1α, IL-1β, IFNγ and TNFα were found. However CD3⁺TIL produced significantly lower levels of IL-2 than CD3⁺PBL upon mitogenic stimulation. This may be due to a lower CD4/CD8 ratio in the CD3⁺TIL as compared to the CD3⁺PBL. These results suggest that there are no fundamental qualitative and quantitative differences in the lymphokine-producing capacity of CD3⁺TIL and CD3⁺PBL derived from patients with renal cell carcinomas. Received: 8 August 1995 / Accepted: 23 January 1996     

Epigenetic biomarkers of T-cells in human glioma

Immune factors are thought to influence glioma risk and outcomes, but immune profiling studies to further our understanding of the immune response are limited by current immunodiagnostic methods. We developed a new assay to capture glioma immune biology based on quantitative methylation specific PCR (qMSP) of two T-cell genes (CD3Z: T-cells, and FOXP3: Tregs). Flow cytometry of T-cells correlated well with the CD3Z demethylation assay (r = 0.93; p < 2.2 × 10^?16), demonstrating the validity of the assay. Furthermore, there was a high correlation between qMSP and immunohistochemistry (IHC) in quantifying tumor infiltrating T-cells (r = 0.85; p = 3.4 × 10^?11). Applying our qMSP methods to archival whole blood from 65 glioblastoma multiforme (GBM) cases and 94 non-diseased controls, GBM cases had highly statistically significantly lower T-cells (p = 1.7 × 10^?9) as well as Tregs (p = 5.2 × 10^?11) and a modestly lower ratio of Tregs/T-cells (p = 0.024). Applying the methods to 120 excised glioma tumors, we observed that tumor infiltrating CD3+ T-cells were positively correlated with glioma tumor grade (p = 5.7 × 10^?7), and that Tregs were enriched in tumors compared with peripheral blood indicating active chemoattraction of suppressive Tregs into the tumor compartment. Poorer patient survival was correlated with higher levels of tumor infiltrating T-cells (p = 0.01) and Tregs (p = 0.04). DNA methylation based immunodiagnostics represent a new generation of powerful laboratory tools offering many advantages over conventional methods that will facilitate large clinical epidemiologic studies and capitalize on stored archival blood and tissue banks.     

Visualizing Antigen Specific CD4+ T Cells using MHC Class II Tetramers

Major histocompatibility complex (MHC) class II tetramers allow the direct visualization of antigen specific CD4+ T cells by flow cytometry. This method relies on the highly specific interaction between peptide loaded MHC and the corresponding T-cell receptor. While the affinity of a single MHC/peptide molecule is low, cross-linking MHC/peptide complexes with streptavidin increases the avidity of the interaction, enabling their use as staining reagents. Because of the relatively low frequencies of CD4+ T cells (~1 in 300,000 for a single specificity) this assay utilizes an in vitro amplification step to increase its threshold of detection. Mononuclear cells are purified from peripheral blood by Ficoll underlay. CD4+ cells are then separated by negative selection using biotinylated antibody cocktail and anti-biotin labeled magnetic beads. Using adherent cells from the CD4- cell fraction as antigen presenting cells, CD4+ T cells are expanded in media by adding an antigenic peptide and IL-2. The expanded cells are stained with the corresponding class II tetramer by incubating at 37 C for one hour and subsequently stained using surface antibodies such as anti-CD4, anti-CD3, and anti-CD25. After labeling, the cells can be directly analyzed by flow cytometry. The tetramer positive cells typically form a distinct population among the expanded CD4+ cells. Tetramer positive cells are usually CD25+ and often CD4 high. Because the level of background tetramer staining can vary, positive staining results should always be compared to the staining of the same cells with an irrelevant tetramer. Multiple variations of this basic assay are possible. Tetramer positive cells may be sorted for further phenotypic analysis, inclusion in ELISPOT or proliferation assays, or other secondary assays. Several groups have also demonstrated co-staining using tetramers and either anti-cytokine or anti-FoxP3 antibodies. Open in a separate windowClick here to view.^{(85M, flv)}     

Selective depletion of FOXP3high cells by Fas–Fas-L–induced apoptosis occurs in CD4+CD25+-enriched populations during repeated expansion

Background aimsExpansion of anti-CD25 bead-isolated human Tregs culture has paradoxically resulted in reduced suppressive activity, but the mechanism(s) responsible for these observations are poorly defined.MethodsMagnetic-bead isolated human CD25⁺ cells were expanded with anti-CD3/CD28 beads and high doses of rhIL-2. Detection of Fas and Fas ligand (Fas-L) expression, activation of Caspase 8, cell proliferation and cytokine production was evaluated by multi-color fluorescence-activated cell sorting analysis. The role of Fas–Fas-L–mediated cell death was dissected through the use of agonist or antagonist monoclonal antibodies directed at Fas and Fas-L.ResultsRepeated expansion of bead-enriched CD4⁺CD25⁺ cells generated a cellular product with markedly reduced suppressive activity and with significantly increased CD8⁺ T cells and CD4⁺ T cells producing interferon-γ and/or interleukin-2. We showed that Fas–Fas-L–mediated apoptosis of CD4⁺FOXP3^high cells and rapid cell-cycling of CD8⁺ T cells were collectively responsible for the reduced proportion of CD4⁺FOXP3^high cells in expanded cultures. The depletion of CD4⁺FOXP3^high cells and activation of Caspase 8 in CD4⁺FOXP3^high cells was attenuated by Fas antagonist antibody, ZB4, in short-term culture. However, the loss of CD4⁺FOXP3^high cells during expansion was not prevented by either Fas or Fas-L antagonist antibodies.ConclusionsTaken together, the data show that Fas–Fas-L–mediated apoptosis may limit the expansion of anti-CD25 bead-isolated cells in vitro.