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The critical role of CD4+ T cells in PD-1 blockade against MHC-II–expressing tumors such as classic Hodgkin lymphoma

Nagasaki, Joji ; Togashi, Yosuke ; Sugawara, Takeaki ; [et al.]

American Society of Hematology ; 2020

In: Blood Advances Vol. 4, No. 17 ( 2020-09-08), p. 4069-4082

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In: Blood Advances, American Society of Hematology, Vol. 4, No. 17 ( 2020-09-08), p. 4069-4082

Abstract: Classic Hodgkin lymphoma (cHL) responds markedly to PD-1 blockade therapy, and the clinical responses are reportedly dependent on expression of major histocompatibility complex class II (MHC-II). This dependence is different from other solid tumors, in which the MHC class I (MHC-I)/CD8+ T-cell axis plays a critical role. In this study, we investigated the role of the MHC-II/CD4+ T-cell axis in the antitumor effect of PD-1 blockade on cHL. In cHL, MHC-I expression was frequently lost, but MHC-II expression was maintained. CD4+ T cells highly infiltrated the tumor microenvironment of MHC-II–expressing cHL, regardless of MHC-I expression status. Consequently, CD4+ T-cell, but not CD8+ T-cell, infiltration was a good prognostic factor in cHL, and PD-1 blockade showed antitumor efficacy against MHC-II–expressing cHL associated with CD4+ T-cell infiltration. Murine lymphoma and solid tumor models revealed the critical role of antitumor effects mediated by CD4+ T cells: an anti-PD-1 monoclonal antibody exerted antitumor effects on MHC-I−MHC-II+ tumors but not on MHC-I−MHC-II− tumors, in a cytotoxic CD4+ T-cell–dependent manner. Furthermore, LAG-3, which reportedly binds to MHC-II, was highly expressed by tumor-infiltrating CD4+ T cells in MHC-II–expressing tumors. Therefore, the combination of LAG-3 blockade with PD-1 blockade showed a far stronger antitumor immunity compared with either treatment alone. We propose that PD-1 blockade therapies have antitumor effects on MHC-II–expressing tumors such as cHL that are mediated by cytotoxic CD4+ T cells and that LAG-3 could be a candidate for combination therapy with PD-1 blockade.

Type of Medium: Online Resource

ISSN: 2473-9529 , 2473-9537

URL: Article

DOI: 10.1182/bloodadvances.2020002098

Language: English

Publisher: American Society of Hematology

Publication Date: 2020

detail.hit.zdb_id: 2876449-3

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Genome-Wide Methylation Analysis Using the Digital Restriction Enzyme Analysis of Methylation for Stratification of Patients with Juvenile Myelomonocytic Leukemia

Kitazawa, Hironobu ; Muramatsu, Hideki ; Murakami, Norihiro ; [et al.]

American Society of Hematology ; 2019

In: Blood Vol. 134, No. Supplement_1 ( 2019-11-13), p. 2973-2973

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In: Blood, American Society of Hematology, Vol. 134, No. Supplement_1 ( 2019-11-13), p. 2973-2973

Abstract: Background Juvenile myelomonocytic leukemia (JMML) is a rare myelodysplastic/ myeloproliferative neoplasm that occurs during infancy and early childhood. The clinical course of the disease varies widely. The majority of children require allogenic hematopoietic stem cell transplantation (HSCT) for long term survival, but the disease will eventually resolve spontaneously in ~15% of patients. Previous studies have identified clinical and molecular risk factors in JMML. More recently, three groups independently discovered that genome-wide methylation profiling using 450K Illumina array revealed that the high methylation (HM) subgroup was significantly associated with poor survival compared to the low methylation (LM) subgroup (Murakami 2018 Blood, Stieglitz 2017 Nat. Commun., Lipka 2017 Nat. Commun.). 450K could be a standard assay for stratification of JMML. However, it is now unavailable because the manufacture replaced it with EPIC array. Here, we developed a next-generation sequencing-based clinical test recapitulate 450K clustering results using the digital restriction enzyme analysis of methylation (DREAM) method (Jelinek 2012 Epigenetics). Patients and Methods We studied 99 children (67 boys and 32 girls) with JMML. All the patients were included in our previous publications. First, we assessed JMML samples with DREAM. Briefly, genomic DNA was sequentially cut with two enzymes SmaI and XmaI recognizing the same sequence, CCCGGG sites in DNA. Enzyme-treated DNA was then used to generate sequencing libraries according to the Illumina protocols, and run on an Illumina Hiseq 2500. We assessed 10 JMML samples with reduced representation bisulfite sequencing (RRBS) (Meissner 2005 Nucleic Acids Res.). In brief, purified genomic DNA was digested by the methylation-insensitive restriction enzyme MspI to generate short fragments that contain CpG dinucleotides at the ends. The CpG-rich DNA fragments (40-220 bp) were size selected, subjected to bisulfite conversion, PCR amplified and end sequenced on an Illumina Genome analyzer. Results We analyzed 99 samples using the DREAM with 8.87 (4.09-16.35) million reads (median, [range]), and determined methylation level in 62,525 (52,356-75,185) CpG sites (median [range] ). We observed a strong correlation between DREAM methylation ratio and 450K beta-value of overlapping CpG sites (Pearson r2 = 0.95 [0.913-0.962], median [range] ). We performed unsupervised consensus clustering with DREAM methylation data of 7,704 CpG sites within ±1 kb from TSS on autosomal chromosomes detected in ≥95% of the samples with imputation of the missing data using the median of each CpG site methylation level. Clustering identified two distinct subgroups, the HM subgroup (n = 35) and the LM subgroup (n = 64), matching 95% (94 of 99) with the 450K clustering results. The HM subgroup patients showed significantly poorer 5-year OS than the LM subgroup patients (41.9% [95% confidence interval {CI}], 25.3%-57.6%) vs. 71.4% [95% CI, 56.2%-82.1%] ; P = 0.00345). Discrepancies in the clustering results between DREAM and 450K were observed in only 5 patients (2 survived and 3 died); all 5 patients were reclassified as those with LM with DREAM from being HM with 450K. We also performed RRBS methylation analysis on 10 patients. Unsupervised consensus clustering using promoter-associated 4,971 CpG sites measured with RRBS identified HM (n = 5) and LM (n = 5) subgroups and completely matched with the classification made using DREAM and 450K. Then, we developed a prediction model of the methylation subgroups using a machine-learning program. We selected 85 CpG sites from 7,704 CpG sites used for unsupervised clustering of the DREAM assay that showed a distinct difference in the average methylation level ( 〉 0.3) between the HM and LM subgroups of the learning cohort (n = 70) and developed a support vector machine (SVM) model. As a validation cohort, we analyzed the remaining 29 JMML samples with a SVM model and confirmed a high matching rate with 450K clustering results (100%, 29 of 29). Conclusions We could develop a methylation test for JMML using the DREAM assay. Both the unsupervised clustering analysis and SVM model could repeat the result of 450K-based methylation classification, i.e., the HM and LM subgroups. The relatively lower cost of the DREAM assay (US$200/sample) enabled us to incorporate methylation classification in JMML in most settings. Disclosures No relevant conflicts of interest to declare.

Type of Medium: Online Resource

ISSN: 0006-4971 , 1528-0020

URL: Article

DOI: 10.1182/blood-2019-127792

RVK:

XA 33000

RVK:

XA 10000

Language: English

Publisher: American Society of Hematology

Publication Date: 2019

detail.hit.zdb_id: 1468538-3

detail.hit.zdb_id: 80069-7

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Expression and domain-specific function of GATA-2 during differentiation of the hematopoietic precursor cells in midgestation mouse embryos

Minegishi, Naoko ; Suzuki, Norio ; Yokomizo, Tomomasa ; [et al.]

American Society of Hematology ; 2003

In: Blood Vol. 102, No. 3 ( 2003-08-01), p. 896-905

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In: Blood, American Society of Hematology, Vol. 102, No. 3 ( 2003-08-01), p. 896-905

Abstract: The aorta-gonads-mesonephros (AGM) region of the mouse embryo has been assigned as the origin of definitive hematopoiesis. The transcription factor GATA-2 has specific but unclarified roles in early hematopoiesis. To elucidate the expression profile of GATA-2, we prepared transgenic mouse lines containing the green fluorescent protein (GFP) gene driven by GATA-2 gene regulatory elements. We also prepared a mouse line in which GFP reporter sequences were inserted into the endogenous GATA-2 gene. Both mouse mutants expressed GFP in the early hematopoietic tissues. The CD45 antigen, a marker of hematopoietic cells, was expressed in a small fraction of transgene (TG)–derived GFP+ cells. The remaining TG-GFP+/CD45- cells were adherent to plastic and produced CD45+ hematopoietic cells abundantly when cultured in vitro. Exogenous expression of GATA-2 in TG-GFP+/CD45- cells from the AGM region inhibited their differentiation into CD45+ cells. Loss of GATA-2 function through the disruption of the GATA-2 locus enhanced the earlier emergence of CD45+ cells in the yolk sac of the 9.5-day conceptus. These results demonstrated that GATA-2 is expressed in the precursor of hematopoietic cells and works as a gatekeeper to preserve their immaturity. A reduction of GATA-2 expression or activity is required for the differentiation of precursors to hematopoietic cells.

Type of Medium: Online Resource

ISSN: 0006-4971 , 1528-0020

URL: Article

DOI: 10.1182/blood-2002-12-3809

RVK:

XA 33000

RVK:

XA 10000

Language: English

Publisher: American Society of Hematology

Publication Date: 2003

detail.hit.zdb_id: 1468538-3

detail.hit.zdb_id: 80069-7

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Hemogenic and nonhemogenic endothelium can be distinguished by the activity of fetal liver kinase (Flk)–1promoter/enhancer during mouse embryogenesis

Hirai, Hideyo ; Ogawa, Minetaro ; Suzuki, Norio ; [et al.]

American Society of Hematology ; 2003

In: Blood Vol. 101, No. 3 ( 2003-02-01), p. 886-893

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In: Blood, American Society of Hematology, Vol. 101, No. 3 ( 2003-02-01), p. 886-893

Abstract: Accumulating evidence in various species has suggested that the origin of definitive hematopoiesis is associated with a special subset of endothelial cells (ECs) that maintain the potential to give rise to hematopoietic cells (HPCs). In this study, we demonstrated that a combination of 5′-flanking region and 3′ portion of the first intron of the Flk-1 gene (Flk-1 p/e) that has been implicated in endothelium-specific gene expression distinguishes prospectively the EC that has lost hemogenic activity. We assessed the activity of this Flk-1 p/e by embryonic stem (ES) cell differentiation culture and transgenic mice by using theGFP gene conjugated to this unit. The expression ofGFP differed from that of the endogenous Flk-1gene in that it is active in undifferentiated ES cells and inactive in Flk-1+ lateral mesoderm. Flk-1 p/e becomes active after generation of vascular endothelial (VE)–cadherin+ ECs. Emergence of GFP− ECs preceded that of GFP+ ECs, and, finally, most ECs expressed GFP both in vitro and in vivo. Cell sorting experiments demonstrated that only GFP− ECs could give rise to HPCs and preferentially expressed Runx1 and c-Myb genes that are required for the definitive hematopoiesis. Integration of both GFP+ and GFP− ECs was observed in the dorsal aorta, but cell clusters appeared associated only to GFP−ECs. These results indicate that activation of Flk-1 p/e is associated with a process that excludes HPC potential from the EC differentiation pathway and will be useful for investigating molecular mechanisms underlying the divergence of endothelial and hematopoietic lineages.

Type of Medium: Online Resource

ISSN: 1528-0020 , 0006-4971

URL: Article

DOI: 10.1182/blood-2002-02-0655

RVK:

XA 33000

RVK:

XA 10000

Language: English

Publisher: American Society of Hematology

Publication Date: 2003

detail.hit.zdb_id: 1468538-3

detail.hit.zdb_id: 80069-7

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Diagnostic Whole Exome Sequencing for 166 Patients with Inherited Bone Marrow Failure Syndrome

Hamada, Motoharu ; Muramatsu, Hideki ; Okuno, Yusuke ; [et al.]

American Society of Hematology ; 2020

In: Blood Vol. 136, No. Supplement 1 ( 2020-11-5), p. 9-9

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In: Blood, American Society of Hematology, Vol. 136, No. Supplement 1 ( 2020-11-5), p. 9-9

Abstract: BACKGROUND: Inherited bone marrow failure syndromes (IBMFSs) are a heterogeneous group of genetic disorders characterized by bone marrow failure, physical anomalies, and various kinds of organ complications. In addition to classical IBMFSs, such as Fanconi anemia, Diamond-Blackfan anemia, Dyskeratosis congenita, Shwachman-Diamond syndrome, and familial platelet disorders, many types of unclassified IBMFSs are reported. Over 100 genes are considered causative genes; however, the precise genetic diagnosis of IBMFSs remains challenging. We developed a capture-based target sequencing method for IBMFSs that covers more than 180 associated genes. Our system achieved genetic diagnosis for 225 (35%) of 738 patients between 2013 and 2018. However, the causative gene remained unknown for 513 (65%) patients, and further genetic analysis of these "target-negative" cases was necessary to achieve a precise diagnosis. METHODS: We performed whole exome sequencing (WES) for patients who were "target-negative" but strongly suspected of having IBMFS based on the following clinical characteristics: physical or organ anomalies (skin, nail, hair, skeletal, growth, cardiac, lung, liver, or genitourinary), family history of hematological disorder, young age (≤2 years), short telomere length ( & lt;-2.0 SD), and hyper sensitivity to the chromosome breakage test. A sequencing library was prepared using the SureSelect Human All Exon 50Mb kit (Agilent Technologies, Santa Clara, CA, USA) and it was sequenced using the HiSeq2000 platform (Illumina, San Diego, CA, USA), according to manufacturers' instructions. The candidate germline variants were detected through our Genomon-exome analysis pipeline. With mean coverage of 100×, ≥ 85% of all protein coding bases were covered at 20× or more. RESULTS: Among the 513 "target-negative" cases, 166 patients were evaluated, of whom 17 patients' parents were also analyzed in a trio-based analysis. New pathogenic variants were identified in 18 of the 166 (11%) patients according to the American College of Medical Genetics (ACMG) guidelines, of which 5 variants were revealed to be de novo. Diagnostic variants were identified in FANCF, SRP54, RPL19, RPL5, RTEL1, RUNX1, MECOM, CDC42, GNE, SLNF14 (all n = 1). In addition to IBMFS-associated genes, causative genes for congenital hemolytic anemia (G6PD, PKLR), inborn error of metabolism (SLC46A1), and primary immune deficiency (NFKB2, LRBA) are also identified (all n = 1). Moreover, loss-of-function mutation of ADH5 gene are identified in three patients that seems to be associated to novel IBMFSs. On the other hand, no pathogenic variant in GATA2, ERCC6L2, LIG4, and SAMD9/SAMD9L genes that are reported as unclassified IBMFSs in Europe and United States are identified in our cohort. CONCLUSION: Our findings support the utility of WES (especially trio-based analysis) as a diagnostic tool for IBMFSs. Furthermore, genetic background of IBMFSs in East Asia seems to be different from that of Europe and United States. Disclosures No relevant conflicts of interest to declare.

Type of Medium: Online Resource

ISSN: 0006-4971 , 1528-0020

URL: Article

DOI: 10.1182/blood-2020-143241

RVK:

XA 33000

RVK:

XA 10000

Language: English

Publisher: American Society of Hematology

Publication Date: 2020

detail.hit.zdb_id: 1468538-3

detail.hit.zdb_id: 80069-7

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