17q21-qter trisomy is an indicator of poor prognosis in acute myelogenous leukemia

A reciprocal translocation (9;11) is often found in acute myeloid leukemia (AML), mostly of the M5a type. We report a case of a child with AML, in whom t(9;11) was observed at diagnosis as the sole structural abnormality, together with trisomies 19 and 21. The diagnosis was AML evolving from a myelodysplastic syndrome (MDS), and the blast morphology was undifferentiated. Chemotherapy failed to induce morphological remission and the patient's condition soon worsened. A subclone appeared and expanded during the course of the disease, with an additional unbalanced translocation (1;17) leading to trisomy of the long arm of chromosome 17 (17q). The data available from the literature on acquired anomalies involving 17q and our observation led us to postulate a specific link between the gain of 17q and complete chemoresistance.     

Pelger-Huet anomaly: a case report

Impaired lobulation of neutrophils together with exaggerated clumping of chromatin, characteristic of Pelger-Huet anomaly was seen as an incidentalfinding in a 43-year old man who presented with depression. Peripheral blood and bone marrow findings and cytochemistry of the abnormal cells are described and the disease entity discussed.     

The paradox of 20q11.21 amplification in a subset of cases of myeloid malignancy with chromosome 20 deletion

Deletion of the long arm of one chromosome 20 (del(20q)) is a well‐recognized abnormality in acute myeloid leukemia (AML) and myelodysplastic syndromes (MDS) and is presumed to cause loss of a tumor suppressor gene at 20q12. In a previously published series of MDS and AML cases, which had lost this region via unbalanced translocation, around 40% of cases were shown to have additional copies of the chromosome 20 abnormalities, with resulting gain or amplification of the retained parts of chromosome 20, most often 20q11.2. We have used FISH and array comparative genomic hybridization, to define further the retained and amplified regions. We now report targeted amplification of 20q11.21 in four of the 22 cases selected for further study and in one new case. The shortest amplified region of 250 kb in a series of five patients with three to ten copies of the 20q11.21 region contained the complete HCK, TM9SF4, PLAGL2, and POFUT1 genes. By RT‐PCR we have shown that there is correlation between amplification and increased expression of these four genes in most cases. Localized and high level amplification of the common 250 kb region is evidence for activation of an oncogene in this region in these MDS and AML cases. Cases with 20q11.21 amplification tended to have a high proportion of erythroblasts in the marrow, with two cases diagnosed as erythroleukemia (AML‐M6). Chromosome sub‐band 20q11.21 amplification may therefore prove to be a marker of a specific subset of AML/MDS with a significant erythroid component. © 2010 Wiley‐Liss, Inc.     

Immunophenotyping of acute leukemias using paraffin-embedded tissue sections

In a study of 55 patients with either acute lymphoid leukemia (ALL; 25 cases) or acute myeloid leukemia (AML; 30 cases), paraffin-embedded bone marrow particle sections were examined with a panel of monoclonal and polyclonal antibodies reactive toward lymphoid and myeloid-associated antigens, using the alkaline phosphatase-anti-alkaline phosphatase (APAAP) technique. All cases were previously classified according to the French-American-British (FAB) Co-operative Group, and cases of ALL were immunophenotyped by flow cytometry. Results indicated that myeloid-associated antibodies (Mac 387, KP 1 [CD68], antielastase, antilactoferrin, and antilysozyme) did not react with any case of ALL, M1-AML, or M6-AML, whereas at least one of these antibodies reacted with 20 of 21 (95%) cases of M2, M3, M4, and M5-AML. Anti-glycophorin C marked cases of M6-AML, whereas anti-CD3 labeled T-cell ALL. None of the antibodies tested specifically identified cases of B-cell ALL. The authors conclude that use of a selected panel of antibodies on paraffin-embedded bone marrow particle sections may be of value in the diagnosis and immunophenotypic classification of many cases of acute leukemias.     

Understanding and recognizing the Pelger-Huët anomaly

The Pelger-Hu?t anomaly (PHA) is a recognized morphologic variant affecting all granulocytes but is most evident in polymorphonuclear neutrophils (PMNs). PHA is caused by a decreased amount of the lamin B receptor (LBR). Recognition of PHA morphologic features serves as a marker for mutations in the LBR gene. This review summarizes the history of PHA and the current knowledge of the functions of the LBR. Guidance is given for distinguishing PHA from other hematologic disorders in which granulocytes may show similar changes. Recognition of PHA in the laboratory should prompt communication to the patient's physician about the possible clinical significance of this finding and the recommended screening for the anomaly in other family members by CBC and review of a peripheral blood smear.     

Myeloperoxidase deficient polymorphonuclear leucocytes in leukaemia and allied disorders

This thesis is a survey of nine previously published articles on MPO deficient PMN. The incidences in leukaemia and allied disorders of the presence of this abnormal subpopulation of mature neutrophils and the relationship to clinical course in AML, susceptibility to infections in AML, FAB classification in AML and MDS, cytogenetically defined aberrations in MDS and morphometrical characteristics were investigated. The aims of the studies were to examine the diagnostic as well as the prognostic value of the parameter, to examine the usefulness of the parameter as an predictive indicator of CR and relapse in AML and to examine the concept that MPO deficient PMN may originate from leukaemic precursors. MPO deficient PMN were found to occur in a minor number (less than 4% of the total number of PMN) in normal humans and the incidences of an abnormal number (greater than 4%) were found to be about 40% in AML (I, II, III, IV, VIII), 60% in CML (I, VII), 30% in MPD other than CML (VII) and 30% in MDS (V). The highest incidences in AML were found in the FAB subtypes possessing the most myeloid differentiation potential i.e. FAB M2 and FAB M4 (IV). In ALL, CLL, HCL, Hodgkin's disease, anaemia not related to leukaemia and leukaemoid reactions the incidences all were 0% (I, unpublished data). The abnormal MPO deficient PMN subpopulation, if present, disappeared when CR was achieved and reappeared when relapse eventually was developed (II, VIII). In both situations serial determinations showed that the change occurred before the usual routine blood examinations predicted CR and relapse; several days and several months prior, respectively (VIII). The probability of obtaining CR was lower in the AML patients with the abnormal subpopulation and the risk of developing relapse higher than in AML patients without the anomaly (II, VIII). These differences were not statistically significant, however. AML patients, showing an increased number of MPO deficient PMN, revealed a statistically significant increased susceptibility to infections (P less than 0.01) during the preremission phase accounting for 18% to 67% of the total number of infections in this period (III). This increase was positively correlated to the extent of the anomaly (P less than 0.002). The spontaneous occurrence of a subpopulation of MPO deficient PMN in MDS went together with a simultaneous progression in cytogenetically determined clonal chromosomal aberrations and were related to progression in FAB subtype as well (VI). Morphometrically MPO deficient PMN were characterized by a decreased total cell size and an increased nucleus size of the projected images (IX).(ABSTRACT TRUNCATED AT 400 WORDS)     

FLT3-internal tandem duplication in a pediatric patient with t(8;21) acute myeloid leukemia

Patients diagnosed with t(8;21)-acute myeloid leukemia (AML) are currently considered to have good prognoses, but about half of these patients relapse. FLT3-internal tandem duplication (ITD) is generally thought to be strongly associated with poor prognosis in AML, but is rarely reported in patients with t(8;21)-AML. Expression of the neural cell-adhesion molecule (CD56) is also associated with a significantly shorter complete remission duration and survival in patients with t(8;21)-AML. Patients with t(8;21)-AML expressing CD56 have been reported to exhibit a higher incidence of granulocytic sarcoma (GS), and t(8;21)-AML with GS results in a less favorable prognosis than AML with this translocation alone. Here, we report on a 15-year-old girl with t(8;21)-AML having both CD56 expression and FLT3-ITD. This patient underwent unrelated donor bone marrow transplantation and achieved complete remission, but thereafter presented with obstructive jaundice caused by GS compression of the common bile duct without bone marrow invasion at relapse. Autopsy revealed multiple nodules of the stomach membrane and invasion into the head of the pancreas. For earlier detection of relapse, we suggest that it would be useful to examine existence of GS in CD56-positive t(8;21)-AML patients at diagnosis and hematologic remission. Even though t(8;21)-AML is less likely to co-occur with FLT3-ITD in pediatric patients, this report suggests that prognostic factors, including FLT3 and KIT genes and the surface marker CD56, should be analyzed in these patients.     

New complex t(2;11;17)(p21;q23;q11), a variant form of t(2;11), associated with del(5)(q23q32) in myelodysplastic syndrome-derived acute myeloblastic leukemia

The t(2;11)(p21;q23) is a rare recurrent aberration observed in myelodysplastic syndrome (MDS) and acute myeloblastic leukemia (AML). It has been suggested that t(2;11) is specifically associated with a deletion of the long arm of chromosome 5 (5q). A 63-year-old man was initially diagnosed as AML with del(5)(q23q32) as a sole abnormality. At relapse, t(2;11;17)(p21;q23;q11) in association with del(5q) appeared in 14 of 20 cells by G-banding. Spectral karyotyping confirmed three derivative chromosomes, der(11)t(2;11), der(17)t(11;17), and der(2)t(2;17). Fluorescence in situ hybridization analysis with a probe for MLL demonstrated that the breakpoint at 11q23 was telomeric to the MLL gene. Nine of 10 reported cases with t(2;11) and del(5q) had MDS including 5q- syndrome and four of them evolved to AML, as observed in the present case. Our results indicated that t(2;11;17) was a secondary genetic change, which appeared during disease progression after del(5q) was observed. Furthermore, considering another reported case, the MLL gene seems to be not involved in the pathogenesis of MDS/AML with t(2;11) and del(5q).     

Point mutations in the AML1/RUNX1 gene associated with myelodysplastic syndrome

Myelodysplastic syndrome (MDS) is a clonal disorder of hematopoietic stem cells characterized by ineffective and inadequate hematopoiesis. Because MDS is a heterogeneous disorder, specific gene abnormalities implicated in the pathogenesis of MDS have been difficult to identify. Cytogenetic abnormalities are seen in half of the MDS patients and generally consist of partial or complete chromosome deletion or addition, whereas balanced translocations are rare. Although point mutations of critical genes had been demonstrated to contribute to the development of MDS, there was no strong correlation between these mutations and clinical features. Recently, we reported the high incidence of somatic mutations in the AML1/RUNX1 gene (which is a critical regulator of definitive hematopoiesis and the most frequent target for translocation of acute myeloid leukemia [AML]) in MDS, especially refractory anemia with excess blasts (RAEB), RAEB in transformation (RAEBt), and AML following MDS (defined here as MDS/AML). The MDS/AML patients with AML1 mutations had a significantly worse prognosis than those without AML1 mutations. Most AML1 mutants lose trans-activation potential, which leads to a loss of AML1 function. These data indicate that AML1 point mutation is one of the major causes of MDS/AML, and "MDS/AML with AML1 mutation" represents a distinct clinicopathologic-genetic entity.     

MLL-CBP fusion transcript in a therapy-related acute myeloid leukemia with the t(11;16)(q23;p13) which developed in an acute lymphoblastic leukemia patient with Fanconi anemia

We describe a boy with Fanconi anemia (FA) who developed acute lymphoblastic leukemia (ALL) (FAB-LI) followed by acute myeloid leukemia (AML) (FAB-M5) at relapse. The patient was diagnosed with early pre-B-cell ALL without preceding aplastic anemia and was treated with ALL-oriented chemotherapy which included doxorubicin (a total dose of 140 mg/m(2) administered), which is a topoisomerase II inhibitor. Complete remission was obtained, but after 38 weeks AML developed. The karyotype of ALL cells at diagnosis showed 46,XY, and that of AML cells at relapse was 46,XY, t(11;16)(q23;p13). An MLL gene rearrangement and MLL-CBP chimeric mRNA were found in AML, but not in ALL. A diagnosis of FA was confirmed by an increased number of chromosomal breaks and rearrangements in peripheral blood lymphocytes cultured with mitogen in the presence of mitomycin C. We conclude that this FA patient developed ALL followed by a therapy-related t(11;16)-AML resulting in an MLL-CBP fusion. Further examination of such patients would shed light on leukemogenesis in FA patients. Genes Chromosomes Cancer 27:264-269, 2000.     

Immunohistochemical detection of p53, mdm2, waf1/p21, and Ki67 proteins in bone marrow biopsies in myelodysplastic syndroms, acute myelogenous leukaemias and chronic myeloproliferative disorders

The aim oof this study was to investigate the immunohistochemical expression of p53, mdm2, and waf1/p21 proteins in myelodysplastic syndromes (MDS), acute myelogenous leukaemias (AML), and chronic myeloproliferative disorders (CMPD). Paraffin-sections of bone marrow biopsies from 30 cases of MDS (6 cases of RAEB and RAEB-T) 22 AML (4 cases occurring in the setting of MDS), 16 chronic myeloproliferative disorders (CMPD), and 10 cases without alterations were investigated by immunohistochemistry for p53, waf1/p21, mdm2 and Ki67 proteins. P53 was detected in immature myeloid cells in 6/30 MDS (20%) and in 6/22 AML (27%) while it was not expressed in CMPD. Of the 6 p53 positive AML, 3 occurred as evolution of MDS and 3 were de novo acute leukaemias. Waf1/p21 was detected in 5/22 (23%) AML in immature myeloid cells. Waf1/p21 was also expressed in 18/30 (60%) MDS and 10/16 (63%) CMPD in variable proportion (5-25%) of the mature myeloid cells and megakaryocytes. Waf1/p21 was not detected in immature myeloid cells in MDS and CMPD. Mdm2 protein was expressed in 3/30 (10%) MDS in the immature myeloid cells and in 1/22 AML in blastic cells. The combined immunophenotypes of immature myeloid cells of MDS were: p53+/mdm2+/waf1-: 3, p53+/mdm2-/waf1-: 3, while the immunohistochemical patterns of AML were: p53+/mdm2-/waf1-: 4, p53+/mdm2+/waf1+: 1, p53+/mdm2-/waf1+: 1, p53-/mdm2-/waf1+: 3. Ki67/MIB1 staining was found in at least 30% of immature myeloid cells in MDS and AML and in at least 20% of these cells in CMPD. In conclusion, our results indicate that p53 protein is overexpressed in the myeloid lineage in a proportion of AML and MDS, while is not detected in CMPD and normal bone marrow, p53 expression was much more frequent in AML occurring as an evolution of MDS than in de novo AML. The combined immunophenotypes of p53 positive AML and MDS suggest that p53 overexpression may be due to mutation, in some AML and MDS cases with the p53+/mdm2-/waf1- phenotype. However, it would be also possible that p53 protein accumulation is not related to p53 mutation but to inhibition of p53/mdm2 binding due to mdm2 defects and/or other events related to cell stress signals. On the other hand, waf1/p21 protein overexpression without p53 expression in some AML could be p53-independent and may represent an attempt to control the high proliferation rate which was evidenced by Ki67/MIB1 immunostaining. However, the possibility of p21 to arrest cell-cycle, in these cases of AML, seems to be overridden, suggesting that cell-cycle deregulation may be involved in a proportion of AML.     

伴11号染色体异常的急性髓系白血病的临床和细胞遗传学研究

目的 研究11号染色体异常在急性髓系白血病中的发生率及与临床和预后的关系.方法 采用R带常规显带技术进行染色体检查,对356例急性髓系白血病患者的核型进行分析.结果 356例急性髓系白血病患者中检出11号染色体异常患者34例,占9.55%;其中20例(58.8%)涉及11q23,7例11p15易位(20.6%),5例-11(14.7%),其他少见的核型改变有:+11,t(11;14).11q23中,M4、M5占70%;且有10例同时合并有其他染色体异常.30例进行正规化疗的患者,13例缓解,缓解率低于同期急性髓系白血病的总缓解率(43.3% vs64.0%);伴11q23的急性髓系白血病的缓解率低于染色体正常的急性髓系白血病患者(45% vs67%);11q23伴其他染色体异常的缓解率低于伴单纯11q23者(30% vs60%).7例涉及11p15易位患者3例缓解,2例早期复发.5例-11患者缓解2例.结论 11q23是11号染色体异常中最为常见的核型改变,且多见于急性髓系白血病的M5型,并可能与急性单核细胞白血病的发病有关;伴11号染色体异常的急性髓系白血病患者预后较差.     

Translocation (3;8)(q26;q24): a recurrent chromosomal abnormality in myelodysplastic syndrome and acute myeloid leukemia

We identified a reciprocal translocation between chromosomes 3 and 8, with breakpoints at bands 3q26 and 8q24, in five patients with myelodysplastic syndrome (MDS) or acute myeloid leukemia (AML). The t(3;8)(q26;q24) was the sole cytogenetic aberration in two patients, was associated with trisomy 13 in one patient, and occurred with monosomy 7 in two patients. In three patients, the AML or MDS developed 36, 52, and 57 months following chemotherapy for soft tissue sarcoma, mantle cell lymphoma, and diffuse large B-cell lymphoma, respectively; in these three patients, the neoplasms were considered to be therapy-related. All five patients displayed marked trilineage dysplasia and variable degrees of cytopenias, with marked thrombocytosis noted in one patient and a normal platelet count in another patient. All patients were treated with combination chemotherapy; at writing, four were still alive and one had died during a follow-up period ranging from 1 to 16 months. We conclude that the t(3;8)(q26;q24) is a recurrent translocation associated with therapy-related MDS/AML or de novo AML, and is frequently associated with monosomy 7.     

Translocation (7;9)(q22;q34) in therapy-related myelodysplastic syndrome after allogeneic bone marrow transplantation for acute myeloblastic leukemia

Reciprocal translocations involving the long arm of chromosome 7 are relatively rare cytogenetic aberrations in myelodysplastic syndrome (MDS) and acute myeloblastic leukemia (AML). A 44-year-old woman was initially given a diagnosis of de novo AML M6A with a normal karyotype. After achieving complete remission, she received allogeneic bone marrow transplantation from an unrelated male donor. Seven months later, pancytopenia appeared with 14.8% myeloblasts and dysplastic changes of neutrophils and megakaryocytes in the bone marrow. Chromosome analysis revealed complex karyotypes, with add(7)(q22) and add(9)(q34) detected in all abnormal metaphase spreads; spectral karyotyping revealed these chromosomal aberrations to be derived from a reciprocal translocation t(7;9)(q22;q34). Fluorescence in situ hybridization analyses showed that D7S486 at 7q31 was translocated to the der(9)t(7;9), and that the ABL gene at 9q34 remained on the der(9)t(7;9). Because the same translocation reappeared and sustained for more than 8 months after second stem cell transplantation, we revised the diagnosis as therapy-related MDS after allogeneic transplantation. The t(7;9)(q22;q34) was supposed to have a crucial role in the pathogenesis of MDS. Considering two other such reported cases of AML, the t(7;9)(q22;q34) may be a novel recurrent translocation in myeloid malignancies.     

Mutations at the mouse ichthyosis locus are within the lamin B receptor gene: a single gene model for human Pelger-Huët anomaly

The nature of the wild-type gene product at the mouse ichthyosis (ic) locus has been of great interest because mutations at this locus cause marked abnormalities in nuclear heterochromatin, similar to those observed in Pelger-Hu?t anomaly (PHA). We recently found that human PHA is caused by mutations in the gene (LBR) encoding lamin B receptor, an evolutionarily conserved inner nuclear membrane protein involved in nuclear assembly and chromatin binding. Mice homozygous for deleterious alleles at the ichthyosis (ic) locus present with a blood phenotype similar to PHA, and develop other phenotypic abnormalities, including alopecia, variable expression of syndactyly and hydrocephalus. The ic locus on mouse chromosome 1 shares conserved synteny with the chromosomal location of the human LBR locus on human chromosome 1. In this study, we identified one nonsense (815ins) and two frameshift mutations (1088insCC and 1884insGGAA) within the Lbr gene of mice homozygous for either of three independent mutations (ic, ic(J) and ic(4J), respectively) at the ichthyosis locus. These allelic mutations are predicted to result in truncated or severely impaired LBR protein. Our studies of mice homozygous for the ic(J) mutation revealed a complete loss of LBR protein as shown by immunofluorescence microscopy and immunoblotting. The findings provide the molecular basis for the heterochromatin clumping and other distinct phenotypes caused by ic mutations. These spontaneous Lbr mutations confirm the molecular basis of human PHA and provide a small animal model for determination of the precise function of LBR in normal and pathological states.     

Translocation (2;4)(p23;q25) An additional case of a new recurrent anomaly in acute myeloid leukemia

A second case of acute myeloid leukemia (AML) with a t(2;4)(p23;q25) as the sole anomaly is reported. Our case had a de novo AML (M2); the case previously described had AML (M2) post-MDS. It is suggested that t(2;4)(p23;q25) is a new, recurrent, but rare anomaly in AML.     

Constitutional t(5;7)(q11;p15) rearranged to acquire monosomy 7q and trisomy 1q in a patient with myelodysplastic syndrome transforming to acute myelocytic leukemia

We report the case of a 61-year-old woman who presented with a myelodysplastic syndrome (MDS) and a t(5;7)(q11.2;p15) in her bone marrow cells. Subsequent analysis of phytohemagglutinin-stimulated peripheral blood lymphocytes and cultured skin fibroblasts showed that the translocation was constitutional. Disruption of chromosome bands 5q11.2 and 7p15 has been described recurrently in MDS and acute myelocytic leukemia (AML) and, although the age of onset was not earlier than usual, it is nonetheless possible that genes interrupted by this translocation may been a predisposing factor for her condition. With progression to AML, a further rearrangement of the constitutional der(7)t(5;7) occurred, involving chromosome arm 1q. Fluorescence in situ hybridization (FISH) with whole-chromosome paints showed that the result of the second rearrangement, a t(1;7)(q32.1;q32), was observed, leading to trisomy of the segment 1q32.1 approximately qter and monosomy of the segment 7q32.1 approximately qter. The acquired imbalances, particularly loss of 7q, are commonly associated with MDS/AML and a poor prognosis; however, this patient remained in remission after treatment for more than two years before AML relapse, perhaps because the affected regions fall outside of the critical regions of imbalance.