Emergence of CD52-, phosphatidylinositolglycan-anchor-deficient T lymphocytes after in vivo application of Campath-1H for refractory B- cell non-Hodgkin lymphoma

CD52 is a phosphatidylinositolglycan (PIG)-anchored glycoprotein (PIG- AP) expressed on normal T and B lymphocytes, monocytes, and the majority of B-cell non-Hodgkin lymphomas. We observed the emergence of CD52- T cells in 3 patients after intravenous treatment with the humanized anti-CD52 monoclonal antibody Campath-1H for refractory B- cell lymphoma and could identify the underlaying mechanism. In addition to the absence of CD52, the PIG-AP CD48 and CD59 were not detectable on the CD52- T cells in 2 patients. PIG-AP-deficient T-cell clones from both patients were established. Analysis of the mRNA of the PIG-A gene showed an abnormal size in the T-cell clones from 1 of these patients, suggesting that a mutation in the PIG-A gene was the cause of the expression defect of PIG-AP. An escape from an immune attack directed against PIG-AP+ hematopoiesis has been hypothesized as the cause of the occurrence of PIG-AP-deficient cells in paroxysmal nocturnal hemoglobinuria (PNH) and aplastic anemia. Our results support the hypothesis that an attack against the PIG-AP CD52 might lead to the expansion of a PIG-anchor-deficient cell population with the phenotypic and molecular characteristics of PNH cells.

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Heterogeneity of helper/inducer T lymphocytes. II. Effects of interleukin 4- and interleukin 2-producing T cell clones on resting B lymphocytes.

Journal of Experimental Medicine ◽

10.1084/jem.167.4.1350 ◽

1988 ◽

Vol 167 (4) ◽

pp. 1350-1363 ◽

Cited By ~ 126

Author(s):

W H Boom ◽

D Liano ◽

A K Abbas

Keyword(s):

T Cells ◽

T Cell ◽

B Cells ◽

B Cell ◽

B Lymphocytes ◽

Th1 Cells ◽

Specific Class ◽

Ifn Gamma ◽

T Cell Clones ◽

Cell Clones

To compare the helper function of murine T cell clones that secrete IL-2 and IFN-gamma (Th1 cells) or IL-4 and IL-5 (Th2), purified resting B cells were stimulated with F(ab')2 rabbit anti-mouse Ig (RAMG) and rabbit Ig-specific, class II MHC-restricted cloned T cells belonging to the two subsets. Both Th2 clones examined induced strong proliferative responses of B cells in the presence of RAMG, as well as the secretion of IgM and IgG1 antibodies. In contrast, the Th1 clones tested failed to stimulate B cell growth or antibody secretion. Th2-mediated B cell activation was dependent on IL-4 and IL-5, and was also inhibited by IFN-gamma or IFN-gamma produced by Th1 cells present in the same cultures. However, the failure of Th1 cells to help resting B cells could not be reversed with neutralizing anti-IFN-gamma antibody. In addition to this inhibitory effect, IFN-gamma was required for the secretion of IgG2a antibody, particularly when B cells were stimulated with polyclonal activators such as LPS. Finally, both sets of T cell clones secreted lymphokines when stimulated with purified B cells and RAMG. These experiments demonstrate that T cells that differ in lymphokine production also differ in their ability to help B cells as a result of cognate interactions at low concentrations of antigens. Moreover, IL-4, IL-5, and IFN-gamma serve different roles in the T cell-dependent proliferative and differentiative responses of resting B lymphocytes.

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Development of a Nonhuman Primate Model for Analysis of the Adoptive Transfer of Antigen-Specific T Cell Clones.

Blood ◽

10.1182/blood.v106.11.770.770 ◽

2005 ◽

Vol 106 (11) ◽

pp. 770-770

Author(s):

Carolina Berger ◽

Michael Jensen ◽

Stanley R. Riddell

Keyword(s):

T Cells ◽

T Cell ◽

Cd8 T Cells ◽

Adoptive Transfer ◽

Cell Transfer ◽

Primate Model ◽

T Cell Clones ◽

Cell Clones

Abstract In principle, the adoptive transfer of T cell clones specific for antigens expressed by pathogens or malignant cells could be therapeutically effective and allow precise control of the specificity, function, and magnitude of T cell immunity. However, the infusion of large numbers of cultured T cells or T cell clones in clinical trials has frequently failed to eradicate tumors or provide long-term control of infection. This may be due in part to the acquisition of an effector phenotype by the T cells during in vitro culture, which reduces their ability to survive in vivo and establish an immune response of sufficient magnitude for sustained efficacy. Several approaches including the administration of cytokines such as IL15, or lymphodepletion prior to cell transfer might promote the establishment of T cell memory after T cell transfer. To facilitate the rational development of clinical trials of T cell therapy, we have employed a nonhuman primate model of adoptive T cell transfer in which culture conditions and cell doses identical to those in human studies are utilized, and designed strategies to permit rigorous analysis of the persistence, function, phenotype, and migration of transferred cells. CD8+ CTL specific for macaque CMV were detected using an overlapping peptide panel and cytokine flow cytometry, isolated as individual T cell clones by limiting dilution, and propagated to large numbers in vitro. The T cell clones were transduced to express an intracellular truncated CD19 (ΔCD19) surface marker to allow tracking and functional assessment of T cells in vivo, and enriched by immunomagnetic selection to high purity (>98%) prior to transfer. The persistence of transferred ΔCD19+ T cells in the blood and their migration to the bone marrow and lymph nodes was determined by flow cytometry after staining with anti CD19, CD8, and CD3 antibodies. The infusion of ΔCD19+CD8+ CTL (3 x 108/kg) was safe and the cells remained detectable in vivo for >5 months. ΔCD19+CD8+ T cells were easily detected in the blood 1 day after transfer at a level of 2.7% of CD8+ T cells and gradually declined over 56 days to a stable population of 0.15–0.2% of CD8+ T cells. At the time of transfer the ΔCD19+CD8+ T cells had an effector phenotype (CD62L− CD127−), but gradually converted to a CD62L+CD127+ memory phenotype in vivo. The infused T cells were found at high levels in lymph node and bone marrow at day 14 after transfer (1.4% and 2.5%, respectively) and the cells at these sites were predominantly CD62L+. The ΔCD19+CD62L+ T cells lacked direct lytic function and expressed low levels of granzyme B, consistent with memory T cells. Sorting of these cells from post-transfer PBMC showed that in vitro activation restored lytic activity. The transferred ΔCD19+CD62L+ T cells in post-infusion PBMC produced IFNγ and TNFα comparable to endogenous CMV-specific CD8+ CTL. These results demonstrate that a subset (5–10%) of transferred CD8+ CTL clones can persist long-term as functional memory T cells. The macaque CD8+ T cell clones are responsive to IL15 in vitro and a safe regimen for administering IL15 to macaques that boosts endogenous T cells has been identified. Studies are now in progress to determine if IL15 can enhance the efficiency with which effector and memory CD8+ T cell responses can be augmented after adoptive transfer of T cell clones.

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Establishing T Cell Memory by Adoptive Transfer of T Cell Clones.

Blood ◽

10.1182/blood.v108.11.866.866 ◽

2006 ◽

Vol 108 (11) ◽

pp. 866-866

Author(s):

Carolina Berger ◽

Michael C. Jensen ◽

Stanley R. Riddell

Keyword(s):

T Cells ◽

T Cell ◽

Adoptive Transfer ◽

Annexin V ◽

T Cell Memory ◽

T Cell Clones ◽

Cell Clones

Abstract Adoptive transfer of T cells has been employed to reconstitute T cell immunity to viruses such as cytomegalovirus (CMV) in immunodeficient allogeneic stem cell transplant (SCT) patients and is being investigated to treat malignancies. In the allogeneic SCT setting, the T cells are derived from the donor and need to be isolated as clones or highly pure populations to avoid graft-versus-host disease. CD8+ T cells can be divided into defined subsets including CD62L− effector memory (TEM) and central memory T cells (TCM) expressing the CD62L lymph node homing molecule. Both TCM and TEM can give rise to cytolytic effector T cells (TE) after antigen stimulation and can be expanded in vitro for immunotherapy. However, the potential of T cells derived from either the TEM or TCM subset to persist in vivo has not been investigated. We used a macaque model to determine whether reconstitution of T cell memory to CMV by adoptive transfer of CD8+ T cell clones depended on their origin from either the CD62L+ TCM or CD62L− TEM subset. T cell clones were retrovirally transduced to express the macaque CD19 or CD20 surface marker to allow tracking of T cells in vivo. Clones derived from both TCM and TEM had similar avidity and proliferative capacity in vitro, and had a TE phenotype (CD62L−CCR7−CD28−CD127−, granzyme B+). TCM and TEM-derived T cell clones were transferred to macaques at doses of 3–6×108/kg and were both detected in the blood one day after transfer at 1.2–2.7% (low dose) to 20–25% (high dose) of CD8+ T cells. However, the frequency of TEM-derived T cells was undetectable after 3–5 days, and the cells were not present in lymph node or bone marrow obtained at day 14. By contrast, TCM-derived clones persisted in peripheral blood, migrated to tissue sites, and were detectable long-term at significant levels. A distinguishing feature of TCM-derived cells was their responsiveness to homeostatic cytokines. Only TCM-derived clones were rescued from apoptotic cell death by low-dose IL15 for >30 days in vitro and this correlated with higher levels of IL15Rα, IL2Rβ, and IL2Rγ, and of Bcl-xL and Bcl-2, which promote cell survival. To determine if the inability of TEM-derived clones to survive in vitro correlated with an increased susceptibility of cell death in vivo, we measured the proportion of infused cells that were positive for propidium iodide (PI) and Annexin V during the short period of in vivo persistence. One day after transfer, 41–45% of TEM-derived T cells were Annexin V+/PI+, analyzed directly in the blood or after 24 hours of culture. By contrast, only a minor fraction of an adoptively transferred TCM-derived T cell clone was Annexin V+/PI+ and the infused cells survived in vivo. A subset of the persisting T cells reacquired TCM marker (CD62L+CCR7+CD127+CD28+) in vivo and regained functional properties of TCM (direct lytic activity; rapid proliferation to antigen). These T cells produced IFN-γ and TNF-α after peptide stimulation, and studies are in progress to assess their in vivo response to antigen by delivery of T cells expressing CMV proteins. Our studies in a large animal model show for the first time that CD8+ TE derived from TCM but not TEM can persist long-term, occupy memory T cell niches, and restore TCM subsets of CMV-specific immunity. Thus, taking advantage of the genetic programming of cells that have become TCM might yield T cells with greater therapeutic activity and could be targeted for human studies of T cell therapy for both viral and malignant disease.

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Therapeutic Efficacy of Engineered T Cells Targeting CD19 in a B-Cell Lymphoma Model.

Blood ◽

10.1182/blood.v108.11.5486.5486 ◽

2006 ◽

Vol 108 (11) ◽

pp. 5486-5486

Author(s):

Robert E. Hawkins ◽

David E. Gilham ◽

Fiona C. Thistlethwaite ◽

John A. Radford ◽

Eleanor J. Cheadle

Keyword(s):

T Cells ◽

T Cell ◽

B Cell ◽

Cell Lymphoma ◽

B Cell Lymphoma ◽

Phase I Clinical Trials ◽

Specific Receptor ◽

Cell Engraftment ◽

Engineered T Cells

Abstract The success of monoclonal antibodies in the treatment of certain cancers demonstrates that immune based therapies can work and are particularly effective in B cell malignancies. However, tumours can still avoid antibody mediate mechanisms of attack and there is currently no estalbished method of effectively recruiting T cells to harness their potential anti-tumour effects. We are exploring gene therapy approaches to endow T cells with antibody type specificity in order to more efficiently target and lyse tumours and thereby improve the overall immune therapy of cancer T cells grafted with a CD19 specific receptor consisting of a CD19 scFv linked to human CD3zeta (CD19z) were tested for their potency against B cell lymphoma lines in vivo. T cells were engineered using retroviral vestors to possess a CD19 specific receptor which endows the T cells with specificity for B cell lymphoma. The vector incorporates a truncated hCD34 gene as a marker to facilitate assessment of transduced cells using as clinically applicable, non-immunogenic marker gene. Mice bearing B cell lymphoma were treated with a systemic infusion of targeted T cells with or without non-myeloablative chemotherapy. Human T cells targeting CD19 cured 40% of SCID/beige mice with 6 day established metastatic tumour but only in conjunction with a single dose of cyclophosphamide. Murine T cells expressing the CD19z receptor were also effective with cure of 24hr established s.c human CD19+ tumour in SCID/beige and immunocompetent mice. Pretreatment with cyclophosphamide did not affect T cell engraftment or efficacy in immuno-compromised animals but was necessary for T cell engraftment in immuno-competent animals. These results which parallel the approach successfully used with tumour infiltrating lymhocytes in melanoma patients conclusively demonstrate that the combination of engineered T cells with “pre-conditioning” chemotherapy significantly impacts upon tumour growth in vivo and this evidence supports the development of phase I clinical trials targeting B cell lymphoma.

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The Molecular Characteristics in CDR3 of TCR Vα and Vβ Genes Associated with cGVHD in Patients after Allogeneic Hematopoietic Stem Cell Transplantation.

Blood ◽

10.1182/blood.v110.11.3247.3247 ◽

2007 ◽

Vol 110 (11) ◽

pp. 3247-3247

Author(s):

Xiuli Wu ◽

Yangqiu Li ◽

Kanger Zhu ◽

Xin Du ◽

Shaohua Chen ◽

...

Keyword(s):

T Cells ◽

Stem Cell ◽

T Cell ◽

T Cell Immunity ◽

Molecular Characteristics ◽

Hematopoietic Stem ◽

T Cell Clones ◽

New Name ◽

Cell Immunity ◽

Cell Clones

Abstract Successful allogeneic hematopoietic stem cell transplantation (allo-HSCT) requires reconstitution of normal T-cell immunity. Chronic graft-versus-host disease (cGVHD) is one of the major complications following allo-HSCT. The poor reconstitution of T-cell immunity (including the reconstitution of recent thymic output function and T-cell receptor (TCR) repertoire) was associated with cGVHD. In the previous study, we found that cGVHD predicted low TCR rearrangement excision circles (TRECs) levels and slow naïve T-cell recovery. Because GVHD displayed as clonal proliferation of special T-cells clones, which was triggered by donor T cells to recognize the host’s allogene antigen, in the present study we analyzed the TCR Vα and Vβ repertoire and cloanlity in patients with cGVHD, in order to find the special T-cell clones associated with cGVHD and evaluate the molecular characteristics of the CDR3 of TCR Vα and Vβ repertoire of GVHD-associated T-cell clones. Peripheral blood mononuclear cells (PBMNCs) were obtained from 5 leukemia patients with cGVHD after allo-HSCT. The expression and cloanlity analysis of TCR Vα and Vβ repertoire were detected by RT-PCR and genescan technique. Six donors served as controls. Almost all of TCR Vα and Vβ repertoire with polyclonal pattern were identified in normal controls. However, the skew expression pattern of TCR Vα and Vβ repertoire could be detected in patients with cGVHD even more than 4 year after allo-HSCT. Among 29 Vα and 24 Vβ subfamilies, there were only 4∼12 Vα and 4∼11 Vβ subfamilies expressed in patients with cGVHD. Oligoclonal or monoclonal expanded T cells were identified in TCR Vα 2, 3, 6, 10, 12, 14, 15, 25, 26 and TCR Vβ 1, 3, 7∼9, 13, 17, 19, 20 subfamilies respectively. The CDR3 sequences were further analyzed and all the sequences were blasted by internet (http://www.ncbi.nlm.nih.gov) and confirmed that it belonged to specific TCR Vα or Vβ gene rearrangement. The lengths of CDR3 were ranged from 12 to 15 amino acids. The molecular characteristics of the CDR3 of TCR Vα and Vβ genes rearrangement were TCRVα 3 (new name: Vα 17*01)-N-Jα 48*01-Cα (motif: CATEVDFGNEKLIF), TCRVα 2 (new name: Vα 12–2*01)-N-Jα 20*01-Cα (motif: CAVNLNDYKLIF), TCRVβ 1 (new name: Vβ 9*01)-N-Dβ 2*01-N-Jβ 2–1*01-Cβ 2 (motif: CASSDPPETYNEQFF), TCRVβ 7 (new name: Vβ 4–3*01)-N-Dβ 1*01-Jβ 1–1*01-Cβ 1 (motif: CASSHESGNTEAFF). Some TCR subfamily genes shared similarity in CDR3 amino acid motif. The role of specific sequences of CDR3 of TCR Vα and Vβ repertoire and T-cell clones will be confirmed in vivo by animal models.

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Direct Comparison of In Vivo Fate of Second and Third-Generation CD19-Specific Chimeric Antigen Receptor (CAR)-T Cells in Patients with B-Cell Lymphoma: Reversal of Toxicity from Tonic Signaling

Blood ◽

10.1182/blood.v128.22.1851.1851 ◽

2016 ◽

Vol 128 (22) ◽

pp. 1851-1851 ◽

Cited By ~ 11

Author(s):

Diogo Gomes da Silva ◽

Malini Mukherjee ◽

Madhuwanti Srinivasan ◽

Olga Dakhova ◽

Hao Liu ◽

...

Keyword(s):

T Cells ◽

T Cell ◽

B Cell ◽

Cell Lymphoma ◽

B Cell Lymphoma ◽

2Nd Generation ◽

Car T Cells ◽

Car T ◽

Equity Ownership

Abstract Although adoptive transfer of T cells with second-generation CD19-specific CARs containing CD28 or 4-1BB costimulatory endodomains shows remarkable clinical efficacy against B cell malignancies, the optimal choice of costimulatory domains in these and other CARs remains controversial. Depending on the precise CAR structure and specificity, individual endodomains may be associated with deleterious ligand-independent tonic signaling in the transduced T cell. Long et al. (Nat Med 2015) established the CD28 co-stimulatory endodomain can have a toxic tonic signaling effect, but it is unclear if tonic 4-1BB signaling may have deleterious consequences as well, and if such effects can be reversed. We therefore modeled tonic CAR signaling in T cells by transducing them with gammaretroviral vectors expressing 2nd-generation CD19.CAR constructs containing either the CD28 or 4-1BB costimulatory endodomain (in addition to the CD3-ζ chain endodomain). Compared to CAR-T cells with the CD28 endodomain alone, those with 4-1BB alone expanded 70% more slowly following transduction. Impaired expansion of 4-1BB CD19.CAR-T cells was coupled with a 4-fold increase in apoptosis and a gradual downregulation of CAR expression, and was a consequence of 4-1BB-associated tonic TRAF2-dependent signaling, leading to activation of NF-κB, upregulation of Fas and augmented Fas-dependent activation-induced T cell death (AICD). Moreover, expression of 4-1BB CAR from a gammaretroviral vector increased tonic signaling through a self-amplifying/positive feedback effect on the retroviral LTR promoter. Because of the toxicity of 4-1BB in our gammaretroviral CAR.CD19 construct (manifest by delayed expansion and increased apoptosis) we could not directly compare the in vivo fate of T cells expressing CAR.CD19 4-1BB with that of co-administered CAR.CD19 CD28 T cells in patients with lymphoma. We found, however, that the adverse effects of tonic 4-1BB costimulation could be overcome in a 3rd-generation CAR.CD19 vector, containing both CD28 and 4-1BB costimulatory molecules in tandem. We thus compared the fate of a 3rd-generation vector containing both CD28 and 4-1BB costimulatory domains with that of a 2nd-generation vector containing CD28 alone. Six patients with refractory/relapsed diffuse large B-cell lymphoma received 2 cell populations, one expressing 2nd and one expressing 3rd generation vectors. To determine whether CD28 alone was optimal (which would suggest 4-1BB is antagonistic) or whether 4-1BB had an additive or synergistic effect contributing to superior persistence and expansion of the CD28-41BB combination, patients were simultaneously infused with 1-20×106 of both 2nd and 3rd generation CAR+ T cells/m2 48-72 hours after lymphodepletion with cyclophosphamide (500 mg/m2/d) and fludarabine (30 mg/m2/d) × 3. Persistence of infused T cells was assessed in blood by CD19.CAR qPCR assays specific for each CAR. Molecular signals peaked approximately 2 weeks post infusion, remaining detectable for up to 6 months. The 3rd-generation CAR-T cells had a mean 23-fold (range 1.1 to 109-fold) higher expansion than 2nd-generation CAR-T cells and correspondingly longer persistence. Two patients had grade 2 cytokine release syndrome, with elevation of proinflammatory cytokines, including IL-6, at the time of peak expansion of T cells. Of the 5 patients evaluable for response, 2 entered complete remission (the longest ongoing for 9 months), 1 has had continued complete remission after autologous stem cell transplantation, 1 had a partial response, and 1 progressed. In conclusion, our data indicate that infusion of T cells carrying a CD19.CAR containing CD28 and 4-1BB endodomains is safe and can have efficacy at every dose level tested. Additionally, in a side-by-side comparison, the 3rdgeneration vector produced greater in vivo expansion and persistence than an otherwise identical CAR-T cell population with CD28 alone. Disclosures Rooney: Cell Medica: Membership on an entity's Board of Directors or advisory committees, Patents & Royalties; Viracyte: Equity Ownership. Heslop:Celgene: Patents & Royalties, Research Funding; Chimerix: Other: Endpoint adjudication committee; Viracyte: Equity Ownership; Cell Medica: Patents & Royalties: Licensing agreement EBV-specific T cells.

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Single-cell immune profiling reveals the impact of antiretroviral therapy on HIV-1-induced immune dysfunction, T cell clonal expansion, and HIV-1 persistence in vivo

10.1101/2021.01.27.428491 ◽

2021 ◽

Author(s):

Jack A. Collora ◽

Delia Pinto-Santini ◽

Siavash Pasalar ◽

Neal Ravindra ◽

Carmela Ganoza ◽

...

Keyword(s):

T Cells ◽

T Cell ◽

Antiretroviral Therapy ◽

Single Cell ◽

Cytotoxic T Cell ◽

T Cell Clones ◽

Cell Clones ◽

Immune Profiling ◽

Hiv 1

AbstractDespite antiretroviral therapy (ART), HIV-1 persists in proliferating T cell clones that increase over time. To understand whether early ART affects HIV-1 persistence in vivo, we performed single-cell ECCITE-seq and profiled 89,279 CD4+ T cells in paired samples during viremia and after immediate versus delayed ART in six people in the randomized interventional Sabes study. We found that immediate ART partially reverted TNF responses while delayed ART did not. Antigen and TNF responses persisted despite immediate ART and shaped the transcriptional landscape of CD4+ T cells, HIV-1 RNA+ cells, and T cell clones harboring them (cloneHIV-1). Some HIV-1 RNA+ cells reside in the most clonally expanded cytotoxic T cell populations (GZMB and GZMK Th1 cells). CloneHIV-1+ were larger in clone size, persisted despite ART, and exhibited transcriptional signatures of antigen, cytotoxic effector, and cytokine responses. Using machine-learning algorithms, we identified markers for HIV-1 RNA+ cells and cloneHIV-1+ as potential therapeutic targets. Overall, by combining single-cell immune profiling and T cell expansion dynamics tracking, we identified drivers of HIV-1 persistence in vivo.

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Flow Cytometric Detection of the Double-Positive (CD4+CD8+)/PD-1bright T-Cell Subset Is Useful in Diagnosing Nodular Lymphocyte-Predominant Hodgkin Lymphoma

Archives of Pathology & Laboratory Medicine ◽

10.5858/arpa.2020-0726-oa ◽

2021 ◽

Author(s):

Zhongchuan Will Chen ◽

Juanita Wizniak ◽

Chuquan Shang ◽

Raymond Lai

Keyword(s):

Flow Cytometry ◽

T Cells ◽

T Cell ◽

B Cell ◽

Hodgkin Lymphoma ◽

B Cell Lymphoma ◽

The Other ◽

Non Hodgkin Lymphoma ◽

Flow Cytometric ◽

Large B Cell

Context.— Nodular lymphocyte-predominant Hodgkin lymphoma (NLPHL) is characterized by neoplastic lymphocyte-predominant cells frequently rimmed by CD3+/CD57+/programmed death receptor-1 (PD-1)+ T cells. Because of the rarity of lymphocyte-predominant cells in most cases, flow cytometric studies on NLPHL often fail to show evidence of malignancy. Objective.— To evaluate the diagnostic utility of PD-1 in detecting NLPHL by flow cytometry, in conjunction with the CD4:CD8 ratio and the percentage of T cells doubly positive for CD4 and CD8. Design.— Flow cytometric data obtained from cases of NLPHL (n = 10), classical Hodgkin lymphoma (n = 20), B-cell non-Hodgkin lymphoma (n = 22), T-cell non-Hodgkin lymphoma (n = 5), benign lymphoid lesions (n = 20), angioimmunoblastic T-cell lymphomas (n = 6) and T-cell/histiocyte–rich large B-cell lymphomas (n = 2) were analyzed and compared. Results.— Compared with the other groups, NLPHL showed significantly higher values in the following parameters: CD4:CD8 ratio, percentage of T cells doubly positive for CD4 and CD8, percentage of PD-1–positive T cells, and median fluorescence intensity of PD-1 expression in the doubly positive for CD4 and CD8 subset. Using a scoring system (0–4) based on arbitrary cutoffs for these 4 parameters, all 10 NLPHL cases scored 3 or higher, as compared with only 3 cases from the other groups, producing an overall sensitivity of 100% and a specificity of 96% (72 of 75). Two of the 3 outliers were non-Hodgkin lymphoma, and both showed definitive immunophenotypic abnormalities leading to the correct diagnosis. The remaining outlier was a case of T-cell/histiocyte–rich large B-cell lymphoma. Conclusions.— The inclusion of anti–PD-1 in flow cytometry is useful for detecting NLPHL in fresh tissue samples, most of which would have otherwise been labeled as nondiagnostic or reactive lymphoid processes.

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Major Histocompatibility Complex–independent Recognition of a Distinctive Pollen Antigen, Most Likely a Carbohydrate, by Human CD8+ α/β T Cells

Journal of Experimental Medicine ◽

10.1084/jem.186.6.899 ◽

1997 ◽

Vol 186 (6) ◽

pp. 899-908 ◽

Cited By ~ 22

Author(s):

Silvia Corinti ◽

Raffaele De Palma ◽

Angelo Fontana ◽

Maria Cristina Gagliardi ◽

Carlo Pini ◽

...

Keyword(s):

T Cells ◽

Major Histocompatibility Complex ◽

T Cell ◽

Cd8 T Cells ◽

T Cell Response ◽

Major Histocompatibility ◽

T Cell Clones ◽

Histocompatibility Complex ◽

Cell Clones

We have isolated CD8+ α/β T cells from the blood of atopic and healthy individuals which recognize a nonpeptide antigen present in an allergenic extract from Parietaria judaica pollen. This antigen appears to be a carbohydrate because it is resistant to proteinase K and alkaline digestion, is hydrophilic, and is sensitive to trifluoromethane-sulphonic and periodic acids. In addition, on a reverse-phase high performance liquid chromatography column the antigen recognized by CD8+ T cells separates in a fraction which contains >80% hexoses (glucose and galactose) and undetectable amounts of proteins. Presentation of this putative carbohydrate antigen (PjCHOAg) to CD8+ T cell clones is dependent on live antigen presenting cells (APCs) pulsed for >1 h at 37°C, suggesting that the antigen has to be internalized and possibly processed. Indeed, fixed APCs or APCs pulsed at 15°C were both unable to induce T cell response. Remarkably, PjCHOAg presentation is independent of the expression of classical major histocompatibility complex (MHC) molecules or CD1. CD8+ T cells stimulated by PjCHOAg-pulsed APCs undergo a sustained [Ca2+]i increase and downregulate their T cell antigen receptors (TCRs) in an antigen dose– and time-dependent fashion, similar to T cells stimulated by conventional ligands. Analysis of TCR Vβ transcripts shows that six independent PjCHOAg-specific T cell clones carry the Vβ8 segment with a conserved motif in the CDR3 region, indicating a structural requirement for recognition of this antigen. Finally, after activation, the CD8+ clones from the atopic patient express CD40L and produce high levels of interleukins 4 and 5, suggesting that the clones may have undergone a Th2-like polarization in vivo. These results reveal a new class of antigens which triggers T cells in an MHC-independent way, and these antigens appear to be carbohydrates. We suggest that this type of antigen may play a role in the immune response in vivo.

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Regulation of B cell lymphomagenesis by a malignant Qal+ inducer T cell clone.

Journal of Experimental Medicine ◽

10.1084/jem.159.3.906 ◽

1984 ◽

Vol 159 (3) ◽

pp. 906-920 ◽

Cited By ~ 4

Author(s):

C L Reinisch ◽

A P Sing ◽

E R Bacon ◽

R B Corley ◽

R K Gershon

Keyword(s):

T Cell ◽

B Cell ◽

Cell Clone ◽

T Cell Clones ◽

Cell Clones ◽

T Cell Clone ◽

Murine Sarcoma Virus ◽

Sarcoma Virus ◽

And Function

A series of Thy-1.2+ Ly-1+ Qa-1+ malignant T cell clones have been isolated from murine sarcoma virus-murine leukemia-Moloney (MSV-MuLV-M)-induced B cell lymphomas or from MSV-MuLV-M-infected B6 mice. These T cell clones enhance both antigen-independent and -dependent lymphocyte differentiation and function. They also induce the differentiation of granulocytes and erythrocytes in the stem cell compartment, a function that parallels the immunopathology of the disease in vivo. The malignant T cell appears to sustain B lymphoma growth in vivo by releasing a factor (BCGF) that promotes B cell proliferation.

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