Expression of c-abl in Philadelphia-positive acute myelogenous leukemia

The identical cytogenetic marker, t(9;22)(q34;q11) (Philadelphia [Ph] translocation), is found in approximately 90%, 20%, and 2% of adult patients with chronic myelogenous leukemia (CML), acute lymphoblastic leukemia (ALL), and acute myelogenous leukemia (AML), respectively. In CML, the molecular events resulting from the Ph translocation include a break within the bcr locus on chromosome 22, transfer of the c-abl protooncogene from chromosome 9 to 22, and formation of an aberrant 210- kD bcr-abl fusion protein (p210bcr-abl). Recently, the absence of bcr rearrangement and expression of a distinct aberrant 190-kd abl protein (p190c-abl) has been described in Ph-positive ALL, with the suggestion that the two abl variants may be pathogenetically associated with myeloid v lymphoid leukemogenesis. Here we report that the genomic configuration and translation product of Ph-positive AML can be similar to that of Ph-positive ALL: the break at 22q11 may occur outside the 5.8 kb bcr region and result in expression of a 190-kD abl protein lacking these bcr sequences. Phosphokinase enzymatic activity, a fundamental property of p210bcr-abl, was also associated with AML- derived p190c-abl. Our current observations indicate that p190c-abl can be found in cells of lymphoid or myeloid lineage and is therefore unlikely to play a specific role in the development of lymphoid leukemias. Formation of p190c-abl instead of p210bcr-abl appears to be a characteristic of the acute rather than the chronic Ph-positive leukemic state.     

CML patients in blast crisis have breakpoints localized to a specific region of the BCR

Chronic myelogenous leukemia (CML) is associated with the Philadelphia (Ph) chromosome, which results from a reciprocal translocation between chromosomes 9 and 22. This activates the abl oncogene by moving it from chromosome 9 and combining it with sequence located on chromosome 22. The new fusion gene, with chromosome 22 sequence at its 5' end and chromosome 9-abl sequence at its 3' end, generates a new messenger RNA (mRNA) and protein that are implicated in the pathogenesis of CML. The breakpoint near the c-abl locus on chromosome 9 can occur within a large area. In contrast, the breakpoints on chromosome 22 are concentrated within a 6 kilobase (kb) region termed the breakpoint cluster region (bcr). This study was designed to determine whether chronic-phase and blast crisis patients had identifiable differences in the structure of their Ph chromosomes. Restriction mapping of the chromosome 22 translocation breakpoints performed for 26 patients showed that the breakpoints of eight of the nine patients in blast crisis were in the 3' portion of the bcr, whereas the breakpoints in the 17 patients in the chronic phase were clustered in the 5' portion of the bcr. This suggests a strong correlation between a 3' bcr breakpoint and blast crisis in CML.     

Missing Y chromosome in Ph1-negative chronic myeloid leukemia with bcr rearrangement. Evidence for a bcr-abl recombination on chromosome 22 by in situ hybridization

In a case of Philadelphia chromosome (Ph1)-negative chronic myeloid leukemia (CML) without the Y chromosome, we investigated the differences, at the molecular level, from Ph1-positive CML. Using Southern blot analysis and in situ hybridization studies, we could demonstrate a rearrangement within the breakpoint cluster region (bcr), and the location of a bcr-abl fusion gene on chromosome 22. To our knowledge, this is the first case of Ph1-negative CML with a loss of the Y chromosome in which the molecular abnormalities are shown to be identical with those in Ph1-positive CML.     

Philadelphia chromosome-negative chronic myelogenous leukemia without breakpoint cluster region rearrangement: a chronic myeloid leukemia with a distinct clinical course

The hallmarks of chronic myelogenous leukemia (CML) include the Philadelphia chromosome (Ph) translocation [t (9;22)(q34;q11)] and consistent molecular genetic aberrations: a break within a restricted 5.8 kb DNA segment, bcr, on chromosome 22q11; transposition of the c-abl protooncogene from chromosome 9q34 to 22q11; and formation of a hybrid bar-abl gene encoding an abnormal 210 Kd bcr-abl protein with augmented tyrosine kinase enzymatic activity. These molecular phenomena may occur even in the absence of cytogenetic evidence of the Ph translocation. They are highly specific and sensitive markers for CML, and are presumed to play a significant role in the pathogenesis of this malignancy. Surprisingly, we have encountered 11 patients who lacked the Ph translocation, bcr rearrangement, and (in the four patients with available mRNA) a bcr-abl message, and yet had a disease phenotype at diagnosis that was a morphologic facsimile of classic chronic phase CML. These patients presented with high white blood cell counts, neutrophilia, occasional basophilia, splenomegaly, and a hypercellular bone marrow with granulocytic hyperplasia and a left shift in myeloid maturation. Despite the striking resemblance between the early stages of bcr-negative and bcr-positive CML, disease progression manifests distinctly in these two disorders. In contrast to the blastic transformation that inevitably complicates bcr-positive CML, the natural history of our 11 Ph-negative, bcr-negative CML patients was characterized by increasing leukemia burden with leukocytosis, pronounced organomegaly, extramedullary infiltrates, and eventual bone marrow failure (anemia and thrombocytopenia) without marked increases in blast cells. Our current observations suggest that a chronic myeloid leukemia process can develop without associated changes in the bcr or c-abl genes. Although the initial phase of this disease is indistinguishable from CML, the presence or absence of molecular markers may aid in the prediction of the clinical course of Ph-negative CML.     

DETECTION OF REARRANGEMENT WITHIN THE BREAKPOINT CLUSTER REGION OF CHROMOSOME 22 IN THE DIAGNOSIS OF CHRONIC MYELOID LEUKEMIA

Chronic myeloid leukemia (CML) is characterised by the presence of a Philadelphia (Ph) chromosome in approximately 95% of patients. Molecular analysis has shown that the Ph chromosome translocation breakpoints are clustered within 5.8kb on chromosome 22 (breakpoint cluster region or bcr). This has facilitated the diagnosis of CML by nucleic acid hybridisation using probes specific for the bcr to detect DNA rearrangement in this region. Forty patients diagnosed with CML, including four with variant Ph chromosome translocations and three with normal karyotypes were analysed for rearrangement within the bcr. All except one patient with Ph negative CML had rearrangement within the bcr. In contrast, none of the patients diagnosed with other hematological disorders such as the myelodysplastic or myeloproliferative syndromes (16 patients), acute myeloid leukemia (AML) (six patients), acute lymphoblastic leukemia (ALL) (five patients), including Ph positive ALL (two patients), showed rearrangement within the bcr. Analysis for rearrangement within the bcr is useful in the diagnosis of CML, especially when cytogenetic analysis is unsuccessful or in patients with normal karyotypes or variant Ph chromosome translocations.     

Translocation of c-abl oncogene and PDGFB (c-sis) gene in a case of CML with 46, XY,t(22;22)

Summary In a case of CML with a variant Philadelphia translocation (Ph¹ or Ph) t (22;22) (q11;q13) in bone marrow cells and unstimulated peripheral blood cells, no cytogenetically detectable involvement of chromosome 9 was observed. Southern blot experiments using probes specific for bcr and c-sis however revealed rearrangement of the bcr, but not of PDGFB (c-sis) gene. Northern blot analysis of bone marrow RNA showed a very weak signal with the c-sis probe, while in a lymph-node biopsy PDGFB m-RNA could not be detected. Chromosomal in situ hybridization gave evidence for translocation of c-abl from chromosome 9 to Ph and of PDGFB from chromosome 22 to chromosome 9, as the result of a threefold translocation t(9;22;22).     

Undetectable bcr-abl rearrangements in some CML patients are due to a deletion mutation in the bcr gene

Most patients with chronic myelogenous leukemia (CML) have Philadelphia (Ph) chromosome. Breakpoints on chromosome 22 in CML occur in a small region designated as the breakpoint cluster region (bcr). More than 90 percent of CML patients have breakpoints in the bcr; the remaining patients had no detectable rearrangement. In our study, a commercially available 1.2 kb HindIII-BglII (1.2 HBg) bcr probe was used to locate breakpoints in the bcr, which were found in 22 of 24 patients. Furthermore, using a probe upstream from the 1.2 HBg probe, rearranged bands were clearly detected in the two patients in whom no extra bands had been found with the 1.2 HBg probe. These results strongly suggest that these two patients carry a deletion at the acr-abl recombination point encompassing the area of the 1.2 HBg probe. Therefore, in our series, all CML patients eventually had breakpoints in the bcr, and the involvement of rearrangement was demonstrated to be highly specific for CML. Our data indicate that hybridization of CML cellular DNA with several bcr probes is important in examining accurately the frequency of bcr-abl rearrangements in CML, as some cases contain a deletion within the region.     

Detection by enzymatic amplification of bcr-abl mRNA in peripheral blood and bone marrow cells of patients with chronic myelogenous leukemia

The Philadelphia chromosome of chronic myelogenous leukemia (CML) patients is caused by a translocation of the c-abl gene from chromosome 9 to the breakpoint cluster region (bcr) on chromosome 22. A new bcr-abl mRNA is expressed in these cases. We have developed a modified polymerase chain reaction (PCR) for the detection of this mRNA. The method is extremely sensitive, reliable, and relatively fast. The analysis of peripheral blood or bone marrow cells from CML patients treated with chemotherapy shows that the two possible mRNAs are expressed in various combinations. Our results show that even after myeloablative therapy for bone marrow transplantation bcr-abl mRNAs are still expressed. Further studies, however, are necessary to determine the clinical relevance of a small number of persisting cells expressing the bcr-abl mRNA.     

Localization of the human c-sis oncogene in Ph1-positive and Ph1-negative chronic myelocytic leukemia by in situ hybridization

Oncogenes are a group of evolutionary conserved cellular genes (c-onc) homologous to the transforming genes of oncogenic retroviruses (v-onc). Some of them are localized near the breakpoints of specific chromosomal aberrations occurring in various neoplasms, as for example the Philadelphia translocation, t(9;22)(q34;q11), in chronic myelocytic leukemia (CML). Recently, we localized the human c-abl oncogene to chromosome region 9q34 and demonstrated a translocation of this gene to the Philadelphia chromosome (Ph1,22q-) in various forms of Ph1-positive, but not Ph1-negative, chronic myelocytic leukemia (CML). Another human oncogene, c-sis, is located on chromosome 22 and was recently reported to be transferred to chromosome 9q+ in one CML patient. We have now studied 2 CML patients with classic and variant types of Ph1 translocation, one Ph1-negative case, and a healthy control using in situ hybridization of a c-sis probe to metaphase chromosomes. These studies show that c-sis: (1) is localized to region 22q12.3-q13.1, far away from the breakpoint region 22q11 in CML, (2) segregates with the translocated part of chromosome 22 to different chromosomes in Ph1-positive patients, and (3) remains on chromosome 22 in the Ph1-negative case. Therefore, these data give no support for an active role of the c-sis gene in the generation of CML. Thus, if either of these two oncogenes is involved in the development of Ph1-positive CML, c-abl appears to be the more important one.