Diagnostic criteria and classification of mastocytosis: a consensus proposal.

The term 'mastocytosis' denotes a heterogeneous group of disorders characterized by abnormal growth and accumulation of mast cells (MC) in one or more organ systems. Over the last 20 years, there has been an evolution in accepted classification systems for this disease. In light of such developments and novel useful markers, it seems appropriate now to re-evaluate and update the classification of mastocytosis. Here, we propose criteria to delineate categories of mastocytosis together with an updated consensus classification system. In this proposal, the diagnosis cutaneous mastocytosis (CM) is based on typical clinical and histological skin lesions and absence of definitive signs (criteria) of systemic involvement. Most patients with CM are children and present with maculopapular cutaneous mastocytosis (=urticaria pigmentosa, UP). Other less frequent forms of CM are diffuse cutaneous mastocytosis (DCM) and mastocytoma of skin. Systemic mastocytosis (SM) is commonly seen in adults and defined by multifocal histological lesions in the bone marrow (affected almost invariably) or other extracutaneous organs (major criteria) together with cytological and biochemical signs (minor criteria) of systemic disease (SM-criteria). SM is further divided into the following categories: indolent systemic mastocytosis (ISM), SM with an associated clonal hematologic non-mast cell lineage disease (AHNMD), aggressive systemic mastocytosis (ASM), and mast cell leukemia (MCL). Patients with ISM usually have maculopapular skin lesions and a good prognosis. In the group with associated hematologic disease, the AHNMD should be classified according to FAB/WHO criteria. ASM is characterized by impaired organ-function due to infiltration of the bone marrow, liver, spleen, GI-tract, or skeletal system, by pathologic MC. MCL is a 'high-grade' leukemic disease defined by increased numbers of MC in bone marrow smears (>or=20%) and peripheral blood, absence of skin lesions, multiorgan failure, and a short survival. In typical cases, circulating MC amount to >or=10% of leukocytes (classical form of MCL). Mast cell sarcoma is a unifocal tumor that consists of atypical MC and shows a destructive growth without (primary) systemic involvement. This high-grade malignant MC disease has to be distinguished from a localized benign mastocytoma in either extracutaneous organs (=extracutaneous mastocytoma) or skin. Depending on the clinical course of mastocytosis and development of an AHNMD, patients can shift from one category of MC disease into another. In all categories, mediator-related symptoms may occur and may represent a serious clinical problem. All categories of mastocytosis should be distinctively separated from reactive MC hyperplasia, MC activation syndromes, and a more or less pronounced increase in MC in myelogenous malignancies other than mastocytosis. Criteria proposed in this article should be helpful in this regard.

bcl-1 gene rearrangements in mantle cell lymphoma: a comprehensive analysis of 118 cases, including B-5-fixed tissue, by polymerase chain reaction and Southern transfer analysis.

We evaluated 118 cases of mantle cell lymphoma by polymerase chain reaction (PCR) for the major translocation cluster (MTC) region and another breakpoint corresponding to probe p94PS, located 24 kb telomeric to the MTC locus on chromosome 11. The specimens included 64 frozen, 19 formalin-fixed, and 9 B-5-fixed lymph nodes and 26 B-5-fixed bone marrow biopsy specimens. We also analyzed DNA from the 64 frozen lymph nodes by Southern transfer analysis (SB) using three separate bcl-1 breakpoint probes. Gene rearrangements were identified in 17 (PCR) and 18 (SB) of 64 frozen lymph nodes and by PCR in 6 of 19 formalin-fixed lymph nodes, 3 of 9 B-5-fixed lymph nodes, and 12 of 26 B-5-fixed bone marrow cores with MTC locus primers and probe. Only one case showed rearrangement with the p11EH probe that corresponds to breakpoints situated 63 kb telomeric to the MTC locus. No rearrangements were detected by PCR or SB for the breakpoint site corresponding to the p94PS probe, but we identified a polymorphic restriction site with HinD III digest in approximately 25% of the cases. In agreement with other studies, these results confirmed that breakpoints in the MTC region of the bcl-1 locus are tightly clustered and associated with 30 to 40% of mantle cell lymphomas. Other breakpoints in the bcl-1 locus seem to be heterogeneous and cannot be detected by PCR or SB with use of existing probes or primer sequences. The most important finding of our study is optimization of the methodology for the detection of immunoglobulin heavy chain gene rearrangement and MTC region breakpoints by PCR from the DNA isolated from B-5-fixed, paraffin-embedded lymph nodes and bone marrow biopsy specimens. The results obtained from these tissues are comparable to those obtained from frozen or formalin-fixed tissue.

Demonstration of clonality in neutrophils using FISH in a case of chronic neutrophilic leukemia.

A patient previously diagnosed with chronic neutrophilic leukemia (CNL) was studied using fluorescent in situ hybridization (FISH) to determine clonality of neutrophils. By cytogenetic studies the patient's blood and bone marrow had an 11q14 deletion and were negative for the Philadelphia (Ph) chromosome. FISH was performed on peripheral blood smears using probes for the bcr/abl translocation and a probe for 11q23 (MLL). The patient's white blood cells were negative for the bcr/abl translocation; neutrophils and eosinophils, but not lymphocytes, were monosomic for the 11q23 probe indicating a clonal population within the neutrophil population.

Correlation of PCR-detected clonal gene rearrangements with bone marrow morphology in patients with B-lineage lymphomas.

Bone marrow biopsy is the conventional staging and posttherapy evaluation method for assessing marrow involvement by lymphoma. Polymerase chain reactions (PCR) for antigen receptor rearrangements have the potential to increase the detection of minimal degrees of marrow involvement. The present study is a concurrent morphologic and PCR evaluation of 225 staging or posttherapy marrow biopsies from 127 patients with B-lineage non-Hodgkin's lymphoma. The biopsies were morphologically categorized into four groups: group 1 (positive for lymphoma), 60 biopsies (27%); group 2 (suspicious for lymphoma), 20 biopsies (9%); group 3 (lymphocytic lesions of indeterminate biology), 22 biopsies (10%); and group 4 (negative for lymphoma), 123 biopsies (54%). Molecular studies were performed on concurrently obtained aspirates and used consensus immunoglobulin-heavy-chain (IgH) and IgH/bcl-2 gene PCR primers. A molecular clone was detected in 53 of the 225 aspirates (24%): group 1, 34 aspirates (57%); group 2, five aspirates (25%); group 3, one aspirate (5%); and group 4, 13 aspirates (11%). A PCR-positive aspirate was present in 47% of follicular lymphomas, 58% of diffuse large cell lymphomas, and 72% of the other lymphomas in the group I specimens. Morphology or PCR was positive in 79 of the 225 cases (35%). The molecular detection of clonality in the aspirate DNA from cases with positive morphologic findings was lower than anticipated. The discordance between morphology and PCR results may be related to sample variation between the trephine biopsy and aspirate, a failure to aspirate sufficient lymphoma cells, or insufficient primer homology for amplification. DNA extracted from trephine sections may provide results more concordant with morphology, because PCR detected a clone in 10 of 11 DNA specimens extracted from trephine biopsies with positive morphologic findings and PCR negative aspirates.

Posttransplant T-cell lymphoproliferative disorders--an aggressive, late complication of solid-organ transplantation.

T-cell non-Hodgkin's lymphomas are an uncommon occurrence after solid-organ transplantation. We describe a morphologically and immunophenotypically distinct group of T-cell lymphoproliferative disorders that occurred late in the course of six patients with solid-organ transplants. The patients ranged in age from 31 to 56 years (median, 43). Three were male; all were splenectomized. The interval from transplant to the diagnosis of lymphoma ranged from 4 to 26 years (median, 15). Symptoms at presentation were related to sites of involvement. Pulmonary, marrow, and CNS involvement were present in five, four, and one case, respectively. No patient had lymphadenopathy. Five patients had an elevated lactate dehydrogenase level (range, 226 to 4,880 IU/L; median, 1,220 IU/L). Five of six patients had a leukoerythroblastic reaction. All cases had large-cell histology and frequently contained cytoplasmic granules. Those cases tested expressed CD2, CD3, and CD8 and were negative for B-cell antigens. T-cell receptor beta- and gamma-chain genes were clonally rearranged in three of three and one of three cases, respectively. All T-cell posttransplant lymphoproliferative disorders (T-PTLDs) studied were negative for Epstein-Barr virus (EBV), human T-cell leukemia/lymphoma virus type 1 (HTLV-1), human T-cell leukemia/lymphoma virus type 2 (HTLV-2), and human herpes virus type 8 (HHV-8) genomes. Treatment with acyclovir (three patients) or chemotherapy (three patients) resulted in two responses. All patients had an aggressive course, with a median survival duration of 5 weeks. In conclusion, a clinically aggressive T-PTLD may be a late complication of solid-organ transplantation and does not appear to be related to EBV, HTLV-1, HTLV-2, or HHV-8 infection.

Acute leukemia and the transient myeloproliferative disorder associated with Down syndrome: morphologic, immunophenotypic and cytogenetic manifestations.

Individuals with Down syndrome have an increased incidence of leukemia compared to the general population. In addition, Down syndrome children may acquire a myeloproliferation that resembles acute leukemia that undergoes a spontaneous, durable remission. To clarify the relationship between these two disorders, the morphologic, immunophenotypic and cytogenetic characteristics of 28 patients with Down syndrome and the morphologic manifestations of acute leukemia were examined. Three cytomorphological groups were discerned. The first two groups consisted of five patients with acute lymphoblastic leukemia (group I) and three patients with acute myeloid leukemia (group II). These leukemias resembled those of non-Down individuals. The third and largest group (group III) consisted of 20 cases of acute myeloid leukemia that showed prominent megakaryocytic and/or erythroid differentiation and occurred in children under 6 years of age. The blasts in this group were non-reactive for myeloperoxidase or non-specific esterase and expressed CD7, CD34 and CD36 with variable expression of CD61, CD13 and CD33. Four patients in this group had an acquired trisomy 8. Four group III leukemias underwent a durable, spontaneous remission within 2 months of diagnosis. There were no morphologic differences between those leukemias in this group that progressed and those that remitted; however, all remissions occurred in newborns. It is concluded that Down syndrome children acquire a characteristic acute myeloid leukemia that has prominent megakaryocytic and/or erythroid differentiation and an unusual immunophenotype. This group of leukemias may undergo a durable, spontaneous remission in the newborn period.

Direct detection of the Philadelphia chromosome in CD20-positive lymphocytes in chronic myeloid leukemia by tri-color immunophenotyping/FISH.

Six patients with previously diagnosed chronic myelogenous leukemia (CML) were studied by a tri-color immunophenotyping/FISH method for direct determination of the Philadelphia (Ph) chromosome in B and T lymphocytes. Two patients had involvement of CD20-positive lymphocytes. CD3-positive lymphocytes in all patients were negative for the Ph chromosome.

Fluorescence in situ hybridization (FISH) detection of trisomy 8 in myeloid cells in chronic myeloid leukemia (CML): a study of archival blood and bone marrow smears.

Patients in accelerated phase or blast crisis of chronic myeloid leukemia (CML) frequently develop clonal cytogenetic abnormalities in addition to the Philadelphia chromosome. Using a DNA probe directed to the centromere of chromosome 8, we performed fluorescence in situ hybridization (FISH) on archival Wright-stained blood and bone marrow smears of seven patients with CML and with a known +8 clone by metaphase cytogenetics to determine the distribution of +8 in interphase cells. All slides had been stored at ambient temperature for 12-26 months. The bone marrow aspirate smears of 21 non-leukemic patients served as controls. Trisomy 8 was demonstrated in all myeloid cell lines including the neutrophils, basophils, eosinophils, monocytes, and erythroid precursors, but not in the lymphocytes. The extra chromosome 8 was present in mature segmented granulocytes as well as more immature precursors. The percentage of +8 cells was highest in specimens from patients with CML in myeloid blast crisis (mean 64%), followed by those in accelerated phase (mean 39%). Three specimens from patients in morphologic chronic phase showed the lowest percentage of +8 cells (mean 13%). One patient was studied twice and showed a substantial expansion of +8 cells with progression from accelerated phase to myeloid blast crisis. Compared to metaphase cytogenetics, the proportion of +8 cells detected by FISH was often lower. We conclude that the acquisition of trisomy 8 in CML occurs in a pluripotent myeloid stem cell apparently incapable of expressing mature lymphoid phenotype, and that morphologic progression of disease is generally associated with an expansion of the +8 component.

Morphologic and quantitative changes in blood and marrow cells following growth factor therapy.

Sequential blood and bone marrow specimens from 53 patients receiving recombinant granulocyte (G-CSF) or granulocyte macrophage colony stimulating growth factor (GM-CSF) for neutropenia were evaluated. The blood findings were marked by a neutrophilia with a prominent left shift, increased azurophilic granulation, Döhle bodies, and an elevated leukocyte alkaline phosphatase; circulating myeloblasts were observed but did not exceed 2% of the leukocytes. Nuclear segmentation abnormalities consisting of hyposegmentation, hypersegmentation, and ring nuclei were noted but were not a prominent finding. A leukoerythroblastosis was present in 54% of patients. No consistent effect on cell lines other than neutrophils was found. A monocytosis was present in 12 patients, a transient lymphocytosis in 2 and an eosinophilia in 1. No effect was evident on basophils. The morphologic changes in the neutrophils in the bone marrow specimens were most pronounced in the early period of growth factor therapy with a relative neutrophil hyperplasia with a marked increase in promyelocytes and myelocytes. With increasing duration of therapy, the myeloid to erythroid ratio normalized and the percentage of promyelocytes decreased while myelocytes and band neutrophils increased. Thirteen patients had no response to growth factor. The nonresponding patients were clinically diverse; all bone marrow biopsy specimens in this group were virtually acellular. No differences were noted between G-CSF and GM-CSF.

Chronic lymphoproliferative disorders: classification and diagnosis.

The chronic lymphoproliferative disorders are morphologically, immunologically and clinically heterogeneous. Common features of these processes include T, B or natural killer cell immunophenotypes and terminal deoxy-nucleotidyl transferase negativity. The B cell lymphocytic disorders include B-chronic lymphocytic leukaemia, B cell prolymphocytic leukaemia, chronic lymphocytic leukaemia-prolymphocytic leukaemia, non-Hodgkin's lymphoma (including mantle cell lymphoma) in leukaemic phase, hairy cell leukaemia and splenic lymphoma with villous lymphocytes. The T cell chronic lymphoproliferative disorders include prolymphocytic leukaemia, adult T cell leukaemia-lymphoma, large granulated lymphocyte leukaemia and Sézary syndrome. Occasionally, a lymphocytic proliferation is encountered that does not satisfy the morphological or immunophenotypical criteria for any of the above categories. These processes are best left unclassified.

A proposed staging system for chronic myeloid leukemia.

A staging system was proposed for chronic myeloid leukemia (CML) that groups patients into three stages (I, II, and III), each with two subclasses (A and B). The system uses pathologic parameters, of which the percentage of blasts in the blood and bone marrow is the most important. CML is defined as a myeloproliferative disorder with molecular or cytogenetic evidence of the translocation of the abl oncogene on chromosome 9 to the break-point cluster region gene on chromosome 22. The proposed staging system is similar to format to the standard TNM system used for many solid tumors.

Duplication of small segments within the major breakpoint cluster region in chronic myelogenous leukemia.

The t(9;22) in chronic myelogenous leukemia (CML) may be reciprocal or, in a minority of cases, may result in an extensive deletion of a portion of the major breakpoint cluster region (M-bcr) of the BCR. This report provides evidence of the duplication of small segments within the M-bcr in a small group of patients with CML. Southern blots of Bgl II and Bgl II/BamHI double-digested DNA from the blood or bone marrow of 46 patients with CML were probed with a 5' 1.4-kb Taq I/HindIII M-bcr probe and a 3' 2-kb HindIII/BamHI M-bcr probe. In three patients, rearrangements were noted with both probes in Bgl II-digested DNA, but were not present in Bgl II/BamHI-digested DNA with either probe. Southern analysis of DNA samples double-digested with Bgl II and BspHI from two of these three cases showed no rearrangements with either probe; the M-bcr BspHI site is located 26 bp 3' of the BamHI site in the second intron of the M-bcr. The presence of a rearranged M-bcr with both probes in Bgl II-digested DNA and the lack of rearrangement in Bgl II/BamHI and Bgl II/BspHI double-digested DNA suggest the presence of M-bcr BamHI and BspHI sites on both 9q+ chromosome (9q+) and the Philadelphia chromosome (Ph). This implies a duplication of at least the 26-bp M-bcr BamHI/BspHI fragment in these two samples. Sequence data from one of these two cases confirmed the M-bcr breakpoints to be staggered; the Ph M-bcr breakpoint occurred 258 bp downstream from the 9q+ M-bcr breakpoint. It is concluded that a duplication of small segments within the M-bcr occurs in a small group of patients with CML, which may lead to pseudogermline patterns on Southern blot. Such a duplication may provide insight into the mechanism of some chromosomal translocations in neoplasia.

Severe aplastic anemia preceding acute lymphoblastic leukemia.

BACKGROUND: Bone marrow aplasia preceding acute lymphoblastic leukemia (ALL) is a rare condition that usually affects children. The ALL generally follows the recovery of normal blood counts and most commonly occurs within 6 months of the onset of aplasia. The case of a patient with severe aplastic anemia is reported in whom ALL developed 15 months after the initial diagnosis of aplastic anemia. A literature search found 23 cases of ALL after a period of aplasia or hypoplasia. This patient's disease, however, was different from all previously reported ones. The severe aplasia lasted 15 months before being followed by ALL. There was no recovery of blood counts before the onset of ALL. METHODS: A review of the literature found 23 case reports in which aplasia or hypoplasia preceded ALL; these patients also had pancytopenia of the peripheral blood. Excluded from this review were patients whose bone marrow was hypoplastic, but who did not have pancytopenia because these did not have "aplastic anemia" as their initial disease. RESULTS: Analysis of the reported patients showed that most were girls 10 years of age or younger. There was an overwhelming prevalence of fever, which in several instances, might have had an infectious cause. ALL most commonly occurred within 6 months of the aplasia and usually followed the recovery of normal blood counts. CONCLUSIONS: Patients with ALL after a prolonged period of aplasia have several common characteristics including female sex, young age, and the prevalence of fever, often associated with an infectious illness. ALL usually follows the recovery of blood counts and occurs within 6 months of the onset of aplasia. The pathophysiology of this patient's disease(s) is still unclear. He could have had two unrelated disorders or a two-step leukemic process that followed a stem cell "insult." This patient had an antecedent hepatitis A infection 3 months before aplasia occurred. However, the authors were unable to identify with certainty any other event that might have caused additional bone marrow injury.

Methylation status of the major breakpoint cluster region in Philadelphia chromosome negative leukemias.

It has been shown that a 600 bp long cluster of cell lineage specific hypomethylated sites in the major breakpoint cluster region (M-bcr) on chromosome 22 exists in hematopoietic cells. To determine possible relationships between methylation patterns within the M-bcr and the stage of hematopoietic cell development, the M-bcr methylation status of 39 patients with leukemia and lymphoma and two patients with myelodysplastic syndrome with non-rearranged M-bcrs was examined by BgIII-HpaII digestion. In the myeloid malignancies, the presence of a hypermethylated 4.8 kb BgIII-BgIII M-bcr allele was directly proportional to the combined myeloblast and promyelocyte percentage of the specimen, whereas the presence of a 2.5 kb BgIII-HpaII allele was directly proportional to the combined percentage of monocytic cells and neutrophils. All five acute monoblastic leukemias showed a methylation pattern that closely resembled neutrophils. All of thirteen surface immunoglobulin positive B-cell malignancies showed a distinct methylation pattern consisting of three or more BgIII-HpaII restriction fragments of 2.5 kb or less in length. The B-cell precursor leukemias showed heterogeneous M-bcr methylation patterns, with four of seven showing a B-cell pattern and three showing a hypermethylated pattern with 4.8, 3.1/3.0 and/or 2.5 kb BgIII-HpaII M-bcr alleles. It is concluded that the M-bcr methylation status is related to the maturation of the neutrophil series; the surface immunoglobulin positive B-cell malignancies are characterized by a distinct, extreme hypomethylation pattern of the M-bcr; and the B-cell precursor malignancies appear to have a heterogeneous M-bcr methylation pattern.

Transformation of chronic lymphocytic leukemia to small non-cleaved cell lymphoma: a cytogenetic, immunological, and molecular study.

A patient with chronic lymphocytic leukemia (CLL) transforming into a small non-cleaved cell lymphoma (SNCL) with the occurrence of a t(8;22) is described. The SNCL and the CLL were both found to have a germline lambda light chain gene configuration and the same heavy chain and kappa light chain gene rearrangements. The SNCL was CD10 (CALLA) negative and appeared to be CD5 negative. It is concluded that the SNCL is derived from the CLL and that activation of the c-myc oncogene may have played a role in this transformation.

Acute basophilic leukemia. A clinical, morphologic, and cytogenetic study of eight cases.

The authors describe eight cases of acute basophilic leukemia. In six of the eight cases, basophilic involvement was not apparent by light microscopic examination. The cases were identified on the basis of ultrastructural evidence for basophil/mast cell differentiation of the blasts with little or no differentiation into other lineages. Ultrastructural analysis revealed immature basophil granules in blasts in all eight cases and theta granules in blasts in four cases. In three cases, ultrastructural evidence of mast cell differentiation also was present, with rare cells showing evidence for both basophil and mast cell differentiation. No clinical features distinguished this group of patients from others with acute myeloid leukemia. Cytogenetically, the cases were heterogeneous. Three had a Philadelphia chromosome; none had a t(6;9). The authors conclude that ultrastructural analysis usually must be used to diagnose acute basophilic leukemia, that acute basophilic leukemia is associated frequently with the Philadelphia chromosome, and that the ultrastructural findings provide evidence for a common origin of basophils and mast cells.