ALBERT

Description: Compelling evidences indicate a key role for regulatory T cells (Tregs) on the host response to cancer and recent studies indicated that the generation of effective WT1-specific cytotoxic T cells can be largely affected by the presence of Tregs. This is the first study to describe human Tregs generated specifically against the WT1 antigen which is overexpressed in several human leukemias and provide the mechanism by which these anti-WT1 Tregs inhibit the immune response in leukemia patients. We have generated T cell lines and clones that specifically recognized a WT1-84 peptide in an HLA DRB1*0402/TCR-Vb8-restricted manner. Importantly, they recognized HLADRB1* 04-matched fresh leukemic cells expressing the WT1 antigen. These clones exerted a Th2 cytokine profile, had a CD4+CD25+Foxp3+GITR+CD127− Tregs phenotype, and significantly inhibited the proliferative activity of allogeneic T cells independently of cell-contact. Priming of allo-reactive T cells in the presence of Tregs strongly inhibited the expansion of NK; NK-T and CD8+ T cells, had an inhibitory effect on NK/NK-T cytotoxic activity but not on CD8+ T cells. Furthermore, priming of T cells with the WT1- 126 HLA-A0201-restricted peptide in the presence of Tregs strongly inhibited the induction of anti-WT1-126 CD8+ CTL responses as evidenced by both very low cytotoxic activity and IFN-g production. Moreover, these Tregs clones specifically produced Granzyme-B and selectively induced apoptosis in WT1-84 pulsed-autologous APCs but not in apoptoticresistant DR4-matched leukemic cells. Importantly, we have also detected anti-WT1-84 IL-5+/Granzyme-B+/Foxp3+ CD4+ Tregs in 5 out of 8 HLA-DR4+ AML patients. These findings suggest a critical role for anti-WT1 Tregs in the inhibition of T cell responses against leukemia. This study may have important implications for the clinical manipulation of Tregs such as immuno-targeting of TCR-Vb-8 with mAbs to eliminate anti-WT1 Tregs in leukemia patients in order to enhance GVL before vaccination with the WT1 antigen. On the other hand, leukemia patients with GVHD should be clinically-tried for vaccination with the current WT1-84 peptide or adoptively-treated with ex-vivo anti-WT1 Treg cells to specifically enhance their frequency, which is known to be very low in these patients.

Description: Background Myelodysplastic syndrome (MDS) is a pre-leukemia disease affecting the erythroid, myeloid and megakaryocytic bone marrow production. MDS patients are classified according to the WHO classification of myeloid neoplasms. During the past 15 years management of MDS patients has been stratified according to the International Prognostic Scoring System (IPSS) risk score. Recently a revised version of IPSS has been introduced (IPSS-R). One quarter of LR-MDS in this new IPSS-R were reclassified as having a higher risk and a substantial subset of high risk-MDS (HR-MDS) were reclassified as lower risk. In LR-MDS a differentiation block is observed in the erythroid lineage. The diagnosis and follow up of cytopenias in particular anemia must be the main objective (1). The soluble transferrin receptor (sTfR) directly reflects the erythropoietic activity in individuals without iron defiency and may appreciate ineffective dysplastic erythropoiesis in LR-MDS. In LR-MDS there is also an inverse relationship between EPO level and the degree of anemia but a wide range of EPO levels is found in patients with similar Hb concentrations. Thus the highest EPO levels are found in patients with erythroid hypoplasia in bone marrow. Aims The combination of several biomarkers: Hb, ferritin, EPO and sTfR may be useful in LR-MDS for diagnosis and follow up. Methods A total of 192 patients with LR-MDS were investigated. Median age of the 192 patients was 71 years (21-92) with 56% males, median survival: 54 months, median follow up: 102 months. The stratification according to the WHO criteria and IPSS risk score was realized. Bone marrows were studied and cytogenetic assessment was realized in the same time. Serum concentrations of ferritin, EPO and sTfR has been analyzed by immuno-assays. Hb level was determined on Beckman Coulter apparatus. The follow up of Hb, ferritin, EPO and sTfR was realized every 2 months in patients with supportive care only until the first specific treatment. A multivariate logistic regression analysis to ascertain the correlations between disease progression and studied biological parameters was realized. Results The logistic regression analysis of our results is significant to define a biological evolutive profile of LR-MDS patients with these biomarkers. The combination of these routine parameters may represent a functional erythropoietic follow up in LR-MDS patients (table 1). This biological tool is an easy method to observe the red cell lineage of LR-MDS patients. This combination informs about the progressive ineffective and dysplatic erythropoiesis in LR-MDS patients. The measurement of ferritin which is a correlated parameter in LR-MDS shows the level of iron overload. A normal or high level without inflammation condition excludes an iron deficiency. The EPO level can give a predictive information about the future efficacy of ESA (endogenous EPO 〈 500 U/l). Conclusion With our results and a correlative logistic regression analysis, we can propose a biological scoring system to appreciate the evolutive anemia of LR-MDS progression in patients. In LR-MDS the management of patients may be based on personalized medicine according a risk assessment with IPSS-R, cytogenetics, mutations and HLA typing (2). But an additional biological and functional predictive scoring system informs about the important independent role of dysplasias particularly anemia in LR-MDS patients before to choose a suitable therapy: transfusions, iron chelation, ESA, TGF-ï¢ pathway inhibitors, G-CSF, immun suppressive treatment, lenalidomide, azacytidine, allogeneic HSCT Table 1. Hb ± EPO ±  sTfRDysplastic erythropoiesis without anemia Hb ±  EPO  sTfRStabilized dysplastic erythropoiesis Hb  EPO  sTfRUnstabilized dysplactic erythropoiesis Hb  EPO  sTfRIneffective dysplastic erythropoiesis EPO 〈 500 U/l : ESA may be efficient〉 500 U/l : ESA will be inefficientFerritin level : iron overload References Giagounidis A Management of low-risk myelodysplastic syndromes Hematology Education, 2015, 9 (1), 219-225 Platzbecker U et al Personalized medicine in myelodysplastic syndromes: wishful thinking or already clinical reality? Hematologica, 2015, 100 (5), 568-571 Disclosures No relevant conflicts of interest to declare.

Description: An obstacle with continued clinical development of CAR T cells is the limited understanding of their biology and mechanisms of anti-tumor immunity. We and others have shown that CARs with a CD28 co-stimulatory domain drive high levels of T cell activation that also lead to exhaustion and shortened persistence. The CD28 domain includes 3 intracellular subdomains (YMNM, PRRP, and PYAP) that regulate signaling pathways post TCR-stimulation, but it is unknown how they modulate activation and/or exhaustion of CAR T cells. A detailed understanding of the mechanism of CD28-dependent exhaustion in CAR T cells will allow the design of a CAR less prone to exhaustion and reduce relapse rates. This led us to hypothesize that by incorporating null mutations of CD28 subdomains (Fig 1A) we could optimize CAR T cell signaling and reduce exhaustion. In vitro, we found mutated CAR T cells with only a functional PYAP (mut06) subdomain secrete significantly less IFNγ, IL6, and TNFα after 24hr stimulation compared to non-mutated CD28 CAR T cells, but greater than the 1st generation m19z CAR. Also, cytotoxicity was enhanced compared to non-mutated CARs (Fig 1B). Using a pre-clinical immunocompetent mouse tumor model, we found the mut06 CAR T cell treated mice had a significant survival advantage compared to non-mutated CD28 CAR T cells (Fig 1C). To examine exhaustion, we ex vivo stimulated CAR T cells with target cells expressing CD19 and PDL1 and found mut06 CAR T cells had increased IFNγ (42%), TNFα (62%) and IL2 (73%) secretion compared to exhausted non-mutated CD28 CAR T cells. This suggests that mut06 CAR T cells are more resistant to exhaustion. To find a mechanistic explanation for this observation we examined CAR T cell signaling. After 24hr stimulation with CD19 target cells mut06 CAR T cells had a significant reduction in pAkt compared to m1928z CAR T cells, which is a critical signaling mediator in the NFAT and NR4A1 transcription factor pathways. Additionally, mut06 had decreased p-NFAT compared to m1928z when examined by western blot. To determine how optimized CAR signaling affected T cell exhaustion we looked at 22 genes that are upregulated when NFAT is constitutively active and overlap with genes identified as important for T cell exhaustion. We found that most of the exhaustion related genes were upregulated in m1928z CAR T cells while they were decreased in m19hBBz. The mut06 CAR T cell gene expression pattern was more similar to m19hBBz with exhaustion related genes downregulated compared to m1928z (Fig 1D). To examine differences in the accessibility of exhaustion related genes we performed ATAC-seq and found NFAT (Nfatc1) and NR4A2 (Nr4a2) had lower chromatin accessibility profiles in mut06 compared to m1928z (Fig 1E). We also found that exhaustion related genes Havcr2 (TIM3), Pdcd1 (PD1), and Lag3 (LAG3) all had greatly reduced chromatin accessibility in mut06 CAR T cells compared m1928z. Overall, these genomic studies support our findings that mut06 optimizes CAR T cell signaling by lowering transcription factors that regulate exhaustion. Figure 1 Disclosures Li: ImmuneBro Therapeutics: Other: sole shareholder . Davila:Atara: Research Funding; Celgene: Research Funding; GlaxoSmithKline: Consultancy; Novartis: Research Funding; Anixa: Consultancy; Bellicum: Consultancy; Adaptive: Consultancy; Precision Biosciences: Consultancy.

Description: Epstein-Barr Virus (EBV)+ lymphomas are an important subgroup of aggressive malignant lymphomas which include lymphomas in the post-transplantation setting, Burkitt’s lymphomas (BL), AIDS-related lymphomas (ARL), and some forms of Hodgkin, T-cell, and natural killer (NK) cell lymphomas. EBV is a member of the herpes virus family, characterized by their ability to support two different life cycles: the productive “lytic” cycle leading to the production and release of new virions and the non-productive “latent” cycle. Most lymphoma cells are infected with latent EBV, and only few viral genes are expressed at low levels. Several groups of broad-acting chemical agents are able to reactivate EBV and induce herpes thymidine kinase (TK) expression in vitro and in vivo. NF-kB has been described to play a critical role in regulating the balance between latency and lytic replication of EBV. Therefore, we hypothesized that the proteasome inhibitor Bortezomib can be used to initiate EBV lytic antigen expression in EBV-related malignancies enabling the antiviral drug Ganciclovir to kill EBV+ lymphoma cells. The human cell line HR-1, derived from a Burkitt’s lymphoma and latently infected with EBV, was cultured in the presence of 50nM bortezomib for 24 hrs. The immediate early lytic phase EBV antigens ZEBRA and RTA were induced and expressed as measured by flow cytometry. The EBV-VCA and EBV-R antigens were not expressed in untreated controls but were induced as demonstrated by western blot analysis, indicating the switch to the lytic life-cycle of EBV. These results were successfully repeated using the EBV+ Akata cell line. Induction of viral thymidine kinase (vTK) was shown by QRT-PCR as well. Histone deacetylase inhibitors are a well known group of broad-acting chemical agents able to reactivate EBV. In combination experiments, we found that Bortezomib plus sodium butyrate or SAHA act at least additive in inducing the EBV lytic life cycle in HR-1 or RAJI cells. Bortezomib sensitizes the EBV+ Akata cell line 2A8-1 to growth inhibitory effects of ganciclovir as shown by MTT assays. The cells were treated with two different non-toxic drug concentrations which were chosen low enough not to induce apoptosis (bortezomib: 1nM and 2nM; ganciclovir:15 and 30μM). Bortezomib induces the lytic EBV life cycle in vivo. In murine xenograft models growing the Akata A.15 line subcutaneously bortezomib induces the immediate-early protein ZEBRA as shown by immunohistochemistry and vTK as shown by QRT-PCR. Experiments to induce lytic phase EBV in murine xenograft models using the Akata cell line and to combine EBV induction with the nucleoside analogue ganciclovir are in progress. Murine studies with EBV-transformed lymphoblastoid cell line (LCL) xenograft models, combination bortezomib plus ganciclovir, and molecular imaging with FHBG specific PET probes are in progress. Reactivating EBV with proteasome inhibitors alone or in combinations with low concentrations of histone deacetylase inhibitors may be a less toxic therapeutic strategy for EBV-associated lymphomas.

Description: Controversy exists as to whether Kaposi's sarcoma–associated herpesvirus (KSHV) is more widespread than originally reported. Recently, Monini et al reported that KSHV is ubiquitous in urogenital and prostate tissues and sperm of healthy Italian adults using nested polymerase chain reaction (PCR). We have examined for the presence of KSHV in 10 normal prostates from Italian men and 10 from men from the United States, as well as 32 prostatic, 30 vulvar, 24 ovarian, 20 cervical, and 30 testicular cancer specimens from patients from the United States. None of the patients had a history of human immunodeficiency virus infection. The samples were tested by nested PCR. The sensitivity of this assay was determined by a dilution study performed by diluting KSHV DNA from the KS-1 cells (a primary effusion lymphoma cell line which is estimated to have 16 copies of KSHV per cell) in DNA from a K562 myeloid cell line. The nested PCR that we used can detect 2.4 copies of KSHV sequences on a background of K562 DNA. All the samples were negative for KSHV sequences. Therefore, we cannot confirm the finding that KSHV sequences are ubiquitous in urogenital and prostate tissues. Furthermore, because our samples were from both the United States and Italy, the discrepancy between results is unlikely to be explained by either ethnic or environmental factors. False-positive results easily occur using nested primer PCR because of contamination. Our data argue that KSHV is not widely disseminated in urogenital tissues from nonimmunosuppressed individuals.

Description: Enhanced angiogenesis is a hallmark of cancer. Pleiotrophin (PTN) is an angiogenic factor that is produced by many different human cancers and stimulates tumor blood vessel formation when it is expressed in malignant cancer cells. Recent studies show that monocytes may give rise to vascular endothelium. In these studies, we show that PTN combined with macrophage colony-stimulating factor (M-CSF) induces expression of vascular endothelial cell (VEC) genes and proteins in human monocyte cell lines and monocytes from human peripheral blood (PB). Monocytes induce VEC gene expression and develop tube-like structures when they are exposed to serum or cultured with bone marrow (BM) from patients with multiple myeloma (MM) that express PTN, effects specifically blocked with antiPTN antibodies. When coinjected with human MM cells into severe combined immunodeficient (SCID) mice, green fluorescent protein (GFP)–marked human monocytes were found incorporated into tumor blood vessels and expressed human VEC protein markers and genes that were blocked by anti-PTN antibody. Our results suggest that vasculogenesis in human MM may develop from tumoral production of PTN, which orchestrates the transdifferentiation of monocytes into VECs.

Description: Controversy exists as to whether Kaposi's sarcoma–associated herpesvirus (KSHV) is more widespread than originally reported. Recently, Monini et al reported that KSHV is ubiquitous in urogenital and prostate tissues and sperm of healthy Italian adults using nested polymerase chain reaction (PCR). We have examined for the presence of KSHV in 10 normal prostates from Italian men and 10 from men from the United States, as well as 32 prostatic, 30 vulvar, 24 ovarian, 20 cervical, and 30 testicular cancer specimens from patients from the United States. None of the patients had a history of human immunodeficiency virus infection. The samples were tested by nested PCR. The sensitivity of this assay was determined by a dilution study performed by diluting KSHV DNA from the KS-1 cells (a primary effusion lymphoma cell line which is estimated to have 16 copies of KSHV per cell) in DNA from a K562 myeloid cell line. The nested PCR that we used can detect 2.4 copies of KSHV sequences on a background of K562 DNA. All the samples were negative for KSHV sequences. Therefore, we cannot confirm the finding that KSHV sequences are ubiquitous in urogenital and prostate tissues. Furthermore, because our samples were from both the United States and Italy, the discrepancy between results is unlikely to be explained by either ethnic or environmental factors. False-positive results easily occur using nested primer PCR because of contamination. Our data argue that KSHV is not widely disseminated in urogenital tissues from nonimmunosuppressed individuals.

Description: BACKGROUND: LGL leukemia is a neoplasm arising from either CD3+ T-cells or CD3− NK-cells. Autoimmune-mediated anemia, neutropenia, and rheumatoid arthritis occur frequently in these patients and immunosuppressive agents are used for these associated clinical syndromes. In our previous studies, we found that patients display a constitutively activated Ras and MAPK/ERK signaling cascade that may drive leukemia survival. A multicenter phase 2 clinical trial was initiated to treat LGL leukemia patients with the farnysltransferase-inhibitor R115777 (tipifarnib, Zarnestra®, Johnson & Johnson) that inhibits Ras and other farnesylated proteins. One of the goals of this study was to determine the shifts in cytokine production during therapy. We found that LGL cells treated with tipifarnib in vitro displayed a switch to Th2 (IL-4 and IL-10)-polarized differentiation. After tipifarnib treatment of LGL patients, antigen-activated T-cells produced greater amounts of Th2 (IL4/IL-10) cytokines but less Th1 (IFNγ/TNFα). In this study, we determined the mechanism governing tipifarnib-mediated Th2 polarization in T-cells. METHODS: PBMCs were isolated from 10 healthy donors and from seven patients with T-LGL leukemia before and after treatment with tipifarnib 300 mg twice daily for 21 days of a 28- day cycle. LGL leukemia patients had increased numbers of αβ T lymphocytes and evidence of clonality in association with either neutropenia or transfusion-dependent anemia. Th1 and Th2 cytokines were determined by intracellular staining and flow cytometry after activation with anti-CD3 plus anti-CD28. In some experiments, Th1 polarization was induced by IL-12; whereas, Th2 was induced by IL-4. Expression of T-bet and GATA-3 transcription factors that regulate Th1 and Th2 polarization, respectively, phosphorylated (active) MAPK (ERK1 and ERK2), and total MAPK were measured by Western blots. FTI2153, tipifarnib, and geranylgeranyl transferase inhibitor(GGTI)-2417 were used compared to DMSO control. RESULTS: PBMCs from patients with T-LGL leukemia displayed a dose and time-dependent increase in IL-4 and IL-10 production after drug treatment (average increase to 100% and 43%, respectively). A dose-dependent increase in these Th2 cytokines in T-cells from healthy donors showed that the farnesylated protein targeted by tipifarnib was not selectively expressed in LGL leukemia. Culture with IL-12 induced Th1 differentiation associated with ERK phosphorylation and increased T-bet expression. Pre-treatment with tipifarnib and FTI2153 but not GGTI2417 prior to IL-12 inhibited T-bet induction with no change in anti-CD3-induced MAPK leading to enhanced IL-4 signaling and greater Th2 polarization. CONCLUSIONS: Our data reveal unique, previously unreported effects of FTIs on cytokine signaling in T-cells by inhibiting the induction of T-bet and blocking Th1 differentiation. These results are critical to determine the mechanism of action of tipifarnib in LGL leukemia and suggest that FTIs may be useful for autoimmune or lymphocyte-mediated disorders associated with excessive Th1 cytokine production.

Description: Patients with chronic lymphocytic leukemia (CLL) may develop other B cell malignancies in their clinical course including aggressive diffuse large B-cell lymphomas and rarely myelomas. In a large proportion of cases, the secondary B cell malignancies reflected the emergence of immunophenotypically and genetically different clones. An immature type plasma cell myeloma developed in a 73-year-old female patient in whom CLL was diagnosed four years previously. The CLL expressed CD5, CD19, CD23, CD38 and surface kappa light chain, but were negative for ZAP-70. Trisomy 12 was detected by FISH analysis. PCR analysis of the peripheral blood for immunoglobulin heavy chain genes demonstrated two sharp bands that were initially interpreted as biallelic heavy chain gene rearrangements. Myeloma cells were CD38 and CD138 positive, CD19 negative and expressed cytoplasmic kappa light chain, but not heavy chains. In order to investigate the clonal relationship between these B cell malignancies, a detailed analysis of VHDJH and VκJκ gene rearrangements in individually sorted CD5 and CD19 double-positive CLL cells and also in CD38-positive and CD19-negative myeloma cells by single cell PCR of genomic DNA and direct sequencing was carried out. This technique permitted identification and pairing of both the heavy and light chain immunoglobulin genes from the same individually sorted cell. A total of 17 individual CLL and 23 myeloma cells were successfully analyzed. Our analysis demonstrated (a) the presence of two discrete clones of CLL, one with usage of [VH1-2*04/D3-3*01/J3*02]-[Vκ2-28*01/J1*01] without VH and Vκ hypermutation and the other with usage of [VH1-2*04/D4-11*01/J6*02]-[Vκ1-5*03/J1*01] with VH and Vκhypermutation; (b) no clonal relationship between the CLL and myeloma cells that utilized different VHDJH and VκJκ rearrangements [VH3-66*02/3-10*01/J4*03]-[Vκ1-33*01/J2*02] with VH and Vκ hypermutation. To our knowledge, this is the first demonstration of a biclonal CLL with mutated and unmutated clones in the same patient along with a third clonally unrelated B cell malignancy. This result suggests that single cell analysis may be necessary to detect subtle biclonality of CLL that might be associated with a more aggressive phenotype.

Description: An imbalance between cellular apoptosis and survival may be critical for the pathogenesis of lymphoma. Therefore, the gene expression pattern in lymph node preparations from patients with mantle cell lymphoma (MCL) was compared to the pattern in nonmalignant hyperplastic lymph nodes (HLs). Oligonucleotide microarray analysis was performed comparing 5 MCLs to 4 HLs using high-density microarrays. The expression data were analyzed using Genespring software. For confirmation, the expression of selected genes was analyzed by real-time polymerase chain reaction using the RNA extracted from 16 MCL and 12 HL samples. The focus was on 42 genes that were at least 3-fold down-regulated in MCL; in addition to the B-cell leukemia 2 (BCL2) system other apoptotic pathways were altered in MCL. The FAS-associated via death domain (FADD) gene that acts downstream of the FAS cascade as a key gene to induce apoptosis was more than 10-fold down-regulated in MCL. Furthermore, the death-associated protein 6(DAXX) gene, the caspase 2 (CASP2) gene, and the RIPK1 domain containing adapter with death domain(RAIDD) gene, which are key genes in other proapoptotic pathways, were also decreased in the MCL samples. The suggestion is made that in addition to the known overexpression of cyclin D1, which drives entry into the cell cycle, disturbances of pathways associated with apoptosis contribute to the development of MCL.