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Glycosylphosphatidylinositol (GPI) Protein-Negative Population of Leukemic Cells in Patients with De Novo Acute Leukemia.

Noji, Hideyoshi ; Shichishima, Tsutomu ; Okamoto, Masatoshi ; [et al.]

American Society of Hematology ; 2005

In: Blood Vol. 106, No. 11 ( 2005-11-16), p. 3264-3264

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In: Blood, American Society of Hematology, Vol. 106, No. 11 ( 2005-11-16), p. 3264-3264

Abstract: Paroxysmal nocturnal hemoglobinuria (PNH) is considered to be an acquired stem cell disorder affecting all hematopoietic lineages, which lack GPI-anchored membrane proteins, such as CD59, because of abnormalities in the phosphatidylinositol glycan-class A (PIG-A) gene. Also, PNH is one disorder of the bone marrow failure syndromes, including aplastic anemia and myelodysplastic syndrome, which are considered as pre-leukemic states. In this study, to know some condition of pre-leukemic states in patients with de novo acute leukemia, we investigated the expression of CD59 in leukemic cells from 25 patients (female: male=8: 17; mean age, 57.8 ± 19.5 years) with de novo acute leukemia by single-color flow cytometric analysis. In addition, the PIG-A gene from CD59− leukemic cells, sorted by FACS Vantage, in 10 patients with acute leukemia was examined by sequence analysis. All the patients had no past history of PNH. Based on the French-American-British criteria, the diagnosis and subtypes of acute leukemia were determined. The number of patients with subtypes M1, M2, M3, M4, M5, and M7 was 1, 14, 2, 4, 2, and 2, respectively. Two of the patients were classified into acute myeloid leukemia with trilineage myelodysplasia from morphological findings in bone marrow. Chromosomal analyses presented abnormal karyotypes in 14 of 25 patients. Flow cytometric analyses showed that leukemic cells from 16 of 25 patients (64%) had negative populations of CD59 expression and the mean proportion of the populations was 63.3 ± 25.7%, suggesting the possibility that CD59− leukemic cells from patients with de novo acute leukemia might be derived from PNH clones. In fact, the PIG-A gene analyses showed that single (n=4) or multiple (n=6) PIG-A mutations in coding region were found in leukemic cells from 10 patients with CD59− leukemic cells and all of the clones with the PIG-A mutations were statistically minor. Then, various clinacal parameters, including peripheral blood, bone marrow blood, and laboratory findings and the results of chromosomal analyses were statistically compared between 2 groups of patients with (n=16) and without CD59− leukemic cells (n=9). The reticulocyte counts (mean ± standard deviation; 10.5 ± 13.0 x 104/μl) and proportions of bone marrow erythroblast (17.5 ± 13.9%) in patients with only CD59+ leukemic cells were significantly higher than those in patients with CD59− leukemic cells (2.5 ± 1.7 x 10 4/μl; p & lt;0.05 and 5.6 ± 6.2%; p & lt;0.01, respectively). The proportions of bone marrow blasts (69.3 ± 21.1%) in patients with CD59− leukemic cells were significantly higher than that those in patients with only CD59+ leukemic cells (45.5 ± 19.3%; p & lt;0.02). In conclusion, our findings indicate that leukemic cells derived from PNH clones may be fairly common in de novo acute leukemia patients, suggesting that bone marrow failure as pre-leukemic states may have already occurred in localized bone marrow even in de novo acute leukemia.

Type of Medium: Online Resource

ISSN: 0006-4971 , 1528-0020

URL: Article

DOI: 10.1182/blood.V106.11.3264.3264

RVK:

XA 33000

RVK:

XA 10000

Language: English

Publisher: American Society of Hematology

Publication Date: 2005

detail.hit.zdb_id: 1468538-3

detail.hit.zdb_id: 80069-7

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Diagnostic Significance of Haptoglobin Concentration in Patients with Bone Marrow Failure Syndromes.

Ikeda, Kazuhiko ; Takahashi, Naoto ; Kameoka, Junichi ; [et al.]

American Society of Hematology ; 2006

In: Blood Vol. 108, No. 11 ( 2006-11-16), p. 3772-3772

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In: Blood, American Society of Hematology, Vol. 108, No. 11 ( 2006-11-16), p. 3772-3772

Abstract: Paroxysmal nocturnal hemoglobinuria (PNH) is one of the bone marrow failure syndromes, including aplastic anemia (AA) and myelodysplastic syndromes (MDS). Recently, the International PNH Interest Group proposed that evidence of a population of erythrocytes and granulocytes deficient in glycosylphosphatidylinositol (GPI) proteins and assessment of hemolytic parameters, including haptoglobin concentration, are important as minimal essential diagnostic criteria of PNH and that less than 1.0% GPI-deficient erythrocytes and granulocytes identifies subclinical PNH from classic PNH (Parker C et al, Blood, 2005). To know whether haptoglobin can be a hallmark which expects the occurrence of classic PNH during the clinical course in AA and MDS patients, we examined the expressions of CD59 on erythrocytes and granulocytes by flow cytometry and relationship between proportions of negative populations of them and various clinical parameters, including haptoglobin concentrations, in Japanese patients with AA (n=23; M:F=11:12; 50.5 ± 19.1 years), PNH (n=28; M:F=14:14; 42.7 ± 16.1 years), and MDS (n=29; M:F=20:9; 66.1 ± 13.9 years). Less than 20 mg/dl of haptoglobin were judged as significant decrease. Flow cytometry showed that the proportions of CD59− erythrocytes (38.11 ± 35.49%) and granulocytes (52.57 ± 42.39%) from PNH patients were significantly higher than those from AA and MDS patients and healthy individuals (n=21; M:F=12:9; 41.3 ± 12.2 years). The values of serum asparatate aminotransferase (AST) and lactate dehydrogenase (LDH) were significantly higher in PNH patients (54.9 ± 53.1U/l and 1035 ± 1052 U/l, respectively) than AA (20.8 ± 9.1 U/l and 205.8 ± 45.0 U/l, respectively) and MDS (22.4 ± 16.9 U/l and 217.7 ± 64.0 U/l, respectively) patients. In contrast, the concentrations of serum haptoglobin were significantly lower in PNH patients (12.9 ± 27.6 mg/dl) than AA (84.6 ± 81.9 mg/dl) and MDS (77.7 ± 47.3 mg/dl) patients. When comparing PNH patients (n=9; minimal PNH) with less than 5% of CD59− erythrocytes with those (n=19; bulky PNH) with over 5% of CD59− erythrocytes, the values of AST (70.7 ± 58.2U/l) and LDH (1021 ± 1083U/l) of the latter were significantly higher than those of the former (21.4 ± 6.2U/l and 220.3 ± 45.1U/l, respectively), but the concentrations of haptoglobin were similar between the latter (11.8 ± 28.9mg/dl) and the former (15.8 ± 26.0mg/dl). In addition, all the PNH patients, but not AA and MDS patients, with over 1% of CD59− erythrocytes had significant decrease of haptoglobin concentration, suggesting that low concentrations of serum haptoglobin may predict occurrence of classic PNH during the clinical course in AA and MDS patients. In conclusion, over 1% of CD59− erythrocytes in PNH patients certainly cause clinical hemolysis and serum haptoglobin is a useful marker which can predict the occurrence of classic PNH.

Type of Medium: Online Resource

ISSN: 0006-4971 , 1528-0020

URL: Article

DOI: 10.1182/blood.V108.11.3772.3772

RVK:

XA 33000

RVK:

XA 10000

Language: English

Publisher: American Society of Hematology

Publication Date: 2006

detail.hit.zdb_id: 1468538-3

detail.hit.zdb_id: 80069-7

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Characteristics of De Novo Acute Leukemia Patients with Glycosylphosphatidylinositol (GPI) Protein-Negative Population of Leukemic Cells.

Noji, Hideyoshi ; Shichishima, Tsutomu ; Okamoto, Masatoshi ; [et al.]

American Society of Hematology ; 2004

In: Blood Vol. 104, No. 11 ( 2004-11-16), p. 4462-4462

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In: Blood, American Society of Hematology, Vol. 104, No. 11 ( 2004-11-16), p. 4462-4462

Abstract: Paroxysmal nocturnal hemoglobinuria (PNH) is considered to be an acquired stem cell disorder affecting all hematopoietic lineages, which lack GPI-anchored membrane proteins, such as CD59, because of abnormalities in the phosphatidylinositol glycan-class A (PIG-A) gene. Also, PNH is one disorder of bone marrow failure syndromes, including aplastic anemia and myelodysplastic syndrome, which are considered as pre-leukemic states. In this study, to know some characteristics of patients with de novo acute leukemia, we investigated expression of CD59 in leukemic cells from 25 patients (female: male=8: 17; mean age ± standard deviation, 57.8 ± 19.5 years) with de novo acute leukemia by single-color flow cytometric analysis. In addition, the PIG-A gene from CD59− leukemic cells sorted by FACS Vantage in 3 patients with acute leukemia was examined by sequence analysis. All the patients had no past history of PNH. Based on the French-American-British criteria, the diagnosis and subtypes of acute leukemia were determined. The number of patients with subtypes M1, M2, M3, M4, M5, and M7 was 1, 14, 2, 4, 2, and 2, respectively. Two of the patients were classified into acute myeloid leukemia with trilineage myelodysplasia from morphological findings in bone marrow. Chromosomal analyses presented abnormal karyotypes in 14 of 25 patients. Flow cytometric analyses showed that leukemic cells from 16 of 25 patients (64%) had negative populations of CD59 expression and the proportion of the populations was 63.3 ± 25.7%, suggesting the possibility that CD59− leukemic cells from patients with de novo acute leukemia might be derived from PNH clones. In fact, the PIG-A gene analyses showed that monoclonal or oligoclonal PIG-A mutations in coding region were found in leukemic cells from 3 patients with CD59− leukemic cells and all of the clones with the PIG-A mutations were minor. Then, various clinical parameters, including rate of complete remission for remission-induction chemotherapy, peripheral blood, bone marrow blood, and laboratory findings, and results of chromosomal analyses were statistically compared between 2 groups of patients with (n=16) and without (n=9) CD59− leukemic cells. The reticulocyte counts (10.5 ± 13.0 x 104/μl) and proportions of bone marrow erythroblasts (17.5 ± 13.9%) in patients with only CD59+ leukemic cells were significantly higher than those (2.5 ± 1.7 x 104/μl, p & lt;0.05; and 5.6 ± 6.2%, p & lt;0.01, respectively) in patients with CD59− leukemic cells. The proportions of bone marrow blasts (69.3 ± 21.1%) in patients with CD59− leukemic cells were significantly higher than those (45.5 ± 19.3%, p & lt;0.02) in patients with only CD59+ leukemic cells. In conclusion, our findings indicate that leukemic cells derived from PNH clones may be common in de novo acute leukemia patients, suggesting that bone marrow failure may have already occurred in localized bone marrow even in de novo acute leukemia.

Type of Medium: Online Resource

ISSN: 0006-4971 , 1528-0020

URL: Article

DOI: 10.1182/blood.V104.11.4462.4462

RVK:

XA 33000

RVK:

XA 10000

Language: English

Publisher: American Society of Hematology

Publication Date: 2004

detail.hit.zdb_id: 1468538-3

detail.hit.zdb_id: 80069-7

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The Role of Wilms’ Tumor Gene (WT1) Peptide-Specific Cytotoxic-T Lymphocytes in Selection of a Paroxysmal Nocturnal Hemoglobinuria (PNH) Clone.

Ikeda, Kazuhiko ; Shichishima, Tsutomu ; Shichishima-Nakamura, Akiko ; [et al.]

American Society of Hematology ; 2005

In: Blood Vol. 106, No. 11 ( 2005-11-16), p. 1050-1050

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In: Blood, American Society of Hematology, Vol. 106, No. 11 ( 2005-11-16), p. 1050-1050

Abstract: It is known that the expression of WT1 increases in leukemic cells from patients with acute and chronic leukemia, and that in leukemic patients, the WT1 elicits WT1 peptide-specific cytotoxic T-lymphocytes (CTLs) in an HLA-restricted manner, suggesting the possibility that immune therapy targeting WT1 may be effective. Also, the WT1 is highly expressed in bone marrow (BM) cells from paroxysmal nocturnal hemoglobinuria (PNH) patients (Shichishima et al, Blood, 2002). However, the significance of high expression of the WT1 in PNH remains unknown. To clarify some roles of WT1 peptide-specific CTLs of PNH patients in the expansion of a PNH clone in this study, we studied the frequencies of WT1 peptide-specific CD8+ CTLs in peripheral blood (PB) mononuclear cells (MNCs) from 4 PNH patients with the HLA-A*2402 allele by flow cytometry (FCM) using a WT1 peptide-specific and HLA-A*2402-restricted tetramer. Subsequently, we examined cell cytotoxicity of a WT1 peptide-specific and HLA-A*2402-restricted CTL clone (TAK-1; Ohminami et al, Blood, 2000) to BM MNCs from the patients using 51Chromium-releasing assay, of which the results were presented at effector versus target ratios (E:T) of 1:1 and 3:1. We also investigated the changes in the proportions of CD59− cells of 7-amino-actinomycin D-negative, viable, CD34+ cells from the patients by FCM after coincubation of BM MNCs with the TAK-1 at an E:T of 1:1. Tetramer analysis showed that the frequencies of WT1 peptide-specific and HLA-restricted CD8+ T cells in PNH patients (mean ± standard deviation; 12.138 ± 2.090 / 104 cells) with the HLA-A*2402 allele were higher than those in HVs (n=10; 3.498 ± 2.591 / 104 cells) (p & lt;0.001) with the allele. 51Chromium-releasing assay showed that the TAK-1 spontaneously killed BM MNCs from the PNH patients with the HLA-A*2402 allele, but not from the HVs (n=2) with the allele, in the absence of a WT1 peptide. Subsequently, in the presence of a WT1 peptide, the TAK-1 killed BM MNCs from both the PNH patients and HVs with the HLA-A*2402 allele. The TAK-1 did not kill BM MNCs from both one PNH patient and one HV without the HLA-A*2402 allele even in the presence of a WT1 peptide. FCM analysis of BM MNCs from PNH patients with the HLA-A*2402 allele showed that the proportions of viable CD34+CD59− cells after coincubation with the TAK-1 were higher in the absence (52.54 ± 26.14 %; p & lt;0.02) and presence (49.90 ± 26.33 %; p & lt;0.01) of a WT1 peptide compared with those after incubation without the TAK-1 (43.52 ± 26.16 %). In contrast, coincubation with the TAK-1 did not affect the proportions of viable CD34+CD59− cells from one PNH patient without the HLA-A*2402 allele. These findings suggest that WT1 peptide-specific CTLs are clearly elicited, probably, by an intrinsic WT1 peptide highly expressed in hematopoietic precursor cells from PNH patients. Nevertheless, CD59− hematopoietic precursor cells from PNH patients have a tendency to relatively survive against attacks of WT1 peptide-specific CTLs in an HLA-restricted manner, resulting in expansion of a PNH clone.

Type of Medium: Online Resource

ISSN: 0006-4971 , 1528-0020

URL: Article

DOI: 10.1182/blood.V106.11.1050.1050

RVK:

XA 33000

RVK:

XA 10000

Language: English

Publisher: American Society of Hematology

Publication Date: 2005

detail.hit.zdb_id: 1468538-3

detail.hit.zdb_id: 80069-7

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Investigation of TCR-Vβ CDR3 Spectrotypes in CD4 and CD8 Lymphocytes from Paroxysmal Nocturnal Hemoglobinuria (PNH) Patients.

Nakamura, Akiko ; Shichishima, Tsutomu ; Noji, Hideyoshi ; [et al.]

American Society of Hematology ; 2004

In: Blood Vol. 104, No. 11 ( 2004-11-16), p. 2827-2827

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In: Blood, American Society of Hematology, Vol. 104, No. 11 ( 2004-11-16), p. 2827-2827

Abstract: PNH is one disorder of bone marrow failure syndromes, including aplastic anemia and myelodysplastic syndrome. It is considered that immunologic mechanisms by cytotoxic T lymphocytes (CTLs) and interferon-γ (IFN-γ) contribute to hypoplastic bone marrow of these disorders. In addition, PNH is an acquired clonal disorder of the hematopoietic stem cell. Recently, it has been reported that analysis of T cell-antigen receptor (TCR)-Vβ repertoires, especially TCR-Vβ CDR3 (complementarity- determining region 3) spectrotypes, is an effective tool to study immunologic mechanisms by CTLs in pathophysiology of PNH (Karadimitris et al, Blood, 2000; Kook et al, Blood, 2002; Risitano et al, Blood, 2002). In the present study, we investigated 21 kinds of TCR-Vβ repertoires by flow cytometry in CD4 and CD8 lymphocytes from 5 PNH patients and a healthy volunteer and the TCR-Vβ CDR3 spectrotypes using polymerase chain reaction assay in CD4 and CD8 lymphocytes from 3 of 5 PNH patients and the control. We also quantitated intracellular IFN-γ in CD4 and CD8 lymphocytes from 5 PNH patients and the control according to the method by Sloand et al (Blood, 2002). We found no specific TCR-Vβ repertoires in CD4 and CD8 lymphocytes from PNH patients compared with the control. The TCR-Vβ repertoires with relative increase of CD4 or CD8 lymphocytes (over 10 of ratio of the proportion of each TCR-Vβ repertoire in a PNH patient/the proportion of the same TCR-Vβ repertoire in a healthy volunteer) were 13.6 or 4 and 22 in Case 1, 3 and 11 or 1 in Case 2, 3 and 13.6 or 3 in Case 3, 5.3 and 7.2 or 2, 3, 7, and 18 in Case 4, and 4, 5.2, 13.6, 16, and 23 or 1 and 14 in Case 5, respectively. TCR-Vβ CDR3 spectrotyping showed that in CD4 lymphocytes most CDR3 patterns were chiefly polyclonal, except for one oligoclonal (Case 1) and one monoclonal (Case 3) patterns of TCR-Vβ25; in CD8 lymphocytes most CDR3 consisted of polyclonal, oligoclonal, and/or monoclonal patterns, suggesting the possibility that CD8 lymphocytes recognize much more antigens of abnormal cells, probably including PNH clones, than CD4 lymphocytes. Unfortunately, we found the same patterns as described above in CD8 lymphocytes from the control, although CD4 lymphocytes from the control presented only polyclonal pattern of CDR3. Quantitative analyses of IFN-γ showed that index values of IFN-γ in CD4 and CD8 lymphocytes from PNH patients were higher than those from the control. However, we did not find any significant correlations between the spectrotypes of TCR-Vβ CDR3 and the index values of IFN-γ in PNH patients, suggesting that TCR-Vβ repertoires with monoclonal and oligoclonal CDR3 patterns do not necessarily produce much IFN-γ. In conclusion, our findings suggest that TCR-Vβ CDR3 spectrotyping is more effective tool to resolve some immune mechanisms of pathophysiology in PNH, especially by auto-reactive CTLs.

Type of Medium: Online Resource

ISSN: 0006-4971 , 1528-0020

URL: Article

DOI: 10.1182/blood.V104.11.2827.2827

RVK:

XA 33000

RVK:

XA 10000

Language: English

Publisher: American Society of Hematology

Publication Date: 2004

detail.hit.zdb_id: 1468538-3

detail.hit.zdb_id: 80069-7

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The Clinical Significance of Some Specific HLA Class I Alleles in Japanese Patients with Bone Marrow Failure (BMF).

Noji, Hideyoshi ; Shichishima, Tsutomu ; Ikeda, Kazuhiko ; [et al.]

American Society of Hematology ; 2005

In: Blood Vol. 106, No. 11 ( 2005-11-16), p. 1040-1040

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In: Blood, American Society of Hematology, Vol. 106, No. 11 ( 2005-11-16), p. 1040-1040

Abstract: Autoreactive T lymphocytes are implicated in the immune mechanisms involved in the bone marrow failure (BMF) syndrome, including aplastic anemia (AA), paroxysmal nocturnal hemoglobinuria (PNH), and myelodysplastic syndrome (MDS). However, the significance of the HLA class I alleles remains unknown in the BMF syndrome. Nevertheless, from many clinical and basic studies, it is certain that CD8+ T lymphocytes are implicated in some of the immune mechanisms involved in the occurrence of AA. To clarify some clinical significance of the HLA class I alleles in the BMF syndrome, we investigated the alleles using a high-resolution method of genotyping in 78 Japanese patients with BMF, including 32 AA, 24 PNH, and 22 MDS patients. Subsequently, we compared various clinical findings, including age, sex, white blood cell counts, absolute neutrophil counts, hemoglobin concentrations, reticulocyte counts, platelet counts, values of lactate dehydrogenase, durations of illness, chromosomal findings, and proportions of CD55− and CD59− erythrocytes, between the groups with and without some alleles. The diagnosis and grading of the severity of AA were based on the criteria of the International Agranulocytosis and Aplastic Anemia Study Group (Blood1987; 70: 1718–21) and that of Frickhofen et al (N Engl J Med1991; 324: 1297–304), respectively. A patient with a CD55− and CD59− population of more than 1% was judged to have PNH erythrocytes (Blood1996; 87: 5332–40). The diagnosis of MDS was determined according to the FAB criteria (Br J Haematol1982; 51: 189–99). The frequencies of the HLA-B* 4002 allele in AA patients (21.9%) and of the HLA-A* 0206 allele in PNH patients (22.9%) were significantly different from those in controls (n=371; 8.6%, p & lt;0.002 and 7.7%, p & lt;0.001, respectively), while we found no specific HLA class I alelles in MDS patients. The frequency of the HLA-DRB1*1501 allele in PNH patients (31.3%) was significantly higher than that in controls (6.1%, p & lt;0.0001), while we could not find the high frequencies of the HLA-DRB1*1501 (10.9%) and *1502 (10.9%) alleles in AA patients. The proportion of severe or very severe AA patients with the HLA-B* 4002 allele (10/17, 58.8%) was significantly higher than that of non-severe AA patients with the allele (3/15, 20%; p & lt;0.05). In contrast, the proportion of severe or very severe AA patients (4/17; 23.5%) with the HLA-DRB1* 1501 allele was not different from that of non-severe AA patients (3/15; 20%) with the allele. Subsequently, the reticulocyte counts (138 ± 73 x 10 9/L) and values of lactate dehydrogenase (2399 ± 235 IU/L) at the time of examination in PNH patients (n=10) with the HLA-A* 0206 allele were significantly higher than those in PNH patients (n=14) without the allele (78 ± 34 x 109/L, p & lt;0.02 and 972 ± 770 IU/L, p & lt;0.05, respectively). In addition, the frequency of PNH patients with over 30% of complement-sensitive erythrocytes, consisting of intermediate and negative populations of CD55 and CD59 expressions on erythrocytes by flow cytometry, was significantly higher in PNH patients with the HLA-A* 0206 than in those without the allele (80% versus 28.6%, p & lt;0.05). In conclusions, our results suggest that the HLA-B* 4002 allele in AA or the HLA-A* 0206 allele in PNH is related to grading of the severity of AA or grading of hemolysis of PNH, respectively.

Type of Medium: Online Resource

ISSN: 0006-4971 , 1528-0020

URL: Article

DOI: 10.1182/blood.V106.11.1040.1040

RVK:

XA 33000

RVK:

XA 10000

Language: English

Publisher: American Society of Hematology

Publication Date: 2005

detail.hit.zdb_id: 1468538-3

detail.hit.zdb_id: 80069-7

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