Fitness conferred by BCR-ABL kinase domain mutations determines the risk of pre-existing resistance in chronic myeloid leukemia

Chronic myeloid leukemia (CML) is the first human malignancy to be successfully treated with a small molecule inhibitor, imatinib, targeting a mutant oncoprotein (BCR-ABL). Despite its successes, acquired resistance to imatinib leads to reduced drug efficacy and frequent progression of disease. Understanding the characteristics of pre-existing resistant cells is important for evaluating the benefits of first-line combination therapy with second generation inhibitors. However, due to limitations of assay sensitivity, determining the existence and characteristics of resistant cell clones at the start of therapy is difficult. Here we combined a mathematical modeling approach using branching processes with experimental data on the fitness changes (i.e., changes in net reproductive rate) conferred by BCR-ABL kinase domain mutations to investigate the likelihood, composition, and diversity of pre-existing resistance. Furthermore, we studied the impact of these factors on the response to tyrosine kinase inhibitors. Our approach predicts that in most patients, there is at most one resistant clone present at the time of diagnosis of their disease. Interestingly, patients are no more likely to harbor the most aggressive, pan-resistant T315I mutation than any other resistance mutation; however, T315I cells on average establish larger-sized clones at the time of diagnosis. We established that for patients diagnosed late, the relative benefit of combination therapy over monotherapy with imatinib is significant, while this benefit is modest for patients with a typically early diagnosis time. These findings, after pre-clinical validation, will have implications for the clinical management of CML: we recommend that patients with advanced-phase disease be treated with combination therapy with at least two tyrosine kinase inhibitors.     

Blast crisis in chronic myeloid leukemia

Although the worst prognosis among acute forms of leukemia is persistently attributed to the blast crisis of chronic myeloid leukemia, a therapeutic nihilism seems to us to be unreasonable. Even in the developing stage of a blast crisis we consider an aggressive chemotherapy to be justified particularly in younger patients. In this connection, value and necessity of supporting of therapy are especially emphasized. Remissions can be achieved in about one third of patients during the blast crisis of CML. As in other forms of tumour therapy, the initial status, age, and secondary diseases have to be taken into account and a careful, individual therapy planning has to be made. For the future there is the hope that the increasing possibilities of differentiating blasts will allow more systematic therapeutic conclusions to be made. According to the present knowledge the greatest hopes for achieving long-term remissions or even healings can, in our opinion, be expected by bone-marrow transplantation.     

Serum factors in chronic myeloid leukemia

Mononuclear cells from the peripheral blood of healthy test persons were cultivated in a methylcellulose medium with serum samples taken from 13 patients with chronic myeloid leukemia (CML) and with osteomyelosclerosis (OMS) as well as with serum samples of 6 healthy test persons. From evaluating the proliferation of granulopoietic cells quantitatively, conclusions were made concerning the concentrations of granulopoietic stimulating substances in these sera. In all cultures with the serum of patients the number of granulopoietic cell colonies was greater than that in cultures with the serum of normal persons. The stronger proliferation of granulopoietic precursor cells in cultures with serum of patients is seen to be due to an enhanced production of the granulocyte-macrophage colony stimulating factor (GM-CSF) by leukemic cells. The differential hemograms and curves indicating the course of leukocytes in patients are compared with the corresponding results of cultures. In patients with CML an increased output of GM-CSF will apparently influence the increase in size of the granulopoietic stem cell pool, which is evident in the steep increase of those curves indicating the course of leukocytes. In patients with OMS, however, there is a discrepancy between granulopoietic serum activity and proliferation in vivo. From these investigations the hypothesis is derived that an increased synthesis of GM-CSF in patients with CML may be one of the causes underlying hyperplastic granulopoiesis. A direct advantage of leukemic cells in proliferation cannot be derived from it.(ABSTRACT TRUNCATED AT 250 WORDS)     

Imatinib mesylate in chronic myeloid leukemia

Chronic myeloid leukemia has become a paradigm for the discovery of target therapeutic approaches in the field of onco-hematology. Recognition of the tyrosine kinase activity of the p210Bcr-Abl oncoprotein led to the development of compounds targeting against BCR-ABL and then controlling the leukemic proliferation. Imatinib mesylate, one of the first tyrosine kinase inhibitors developed, was found effective and safe. According to five-years experience with this drug, it is recommended that the golden standard for initial treatment of newly diagnosis chronic myeloid leukemia patients should be 400 mg Imatinib daily. In this brief review, we discuss the current tools for the effective management of chronic myeloid leukemia with Imatinib, providing the updated results of IRIS and RIGHT clinical trials and then the suggestions how Imatinib-treated patients should be monitored.     

Morbidity of chronic myeloid leukemia

In 129 patients with chronic myeloid leukemia recorded in our files between 1955 and 1978, the sex ratio showed a slight decrease of the previously higher proportion of males. The morbidity rates of the two sexes are approaching. A shift of the incidence peak in males to a younger age is a striking feature, in contrast to a shift to the opposite direction in females. The incidence peak of women shifted from 35 years in the first to 65 yr in the second period, for men from 55 to 35 yr. The mean age at diagnosis was higher in women than in men. A decrease of frequency was observed during the second period 1970-1978. Whether this is a real improvement and consistent trend has to be ascertained by further studies.     

Variant Philadelphia translocations in chronic myeloid leukemia

Up to the beginning of 1986, some 327 variant Philadelphia translocations were reported in chronic myeloid leukemia. The present study represents an attempt to determine which factors (sex, age, geographic localization, etc.) influence the occurrence and chromosome involvement of these variant Philadelphia (Ph1) translocations. Clinical data indicated that band 9q34 was always rearranged in the variant Ph1 translocations and no difference existed between the hematologic and prognostic features among patients with the standard and the variant translocations. An uneven geographic distribution of the variant Ph1 translocations was found. Whether this was due to populations with different ethnic backgrounds or to environmental factors could not be determined. Twenty-eight bands were shown to be rearranged more frequently than expected (P less than 0.05); 27 of them are known to contain a fragile site and/or an oncogene and/or are rearranged more frequently than expected in other malignancies. The chromosomes involved in these variant Ph1 translocations were found to show a very particular geographic distribution, which cannot be explained at present.     

Long-term treatment effects in chronic myeloid leukemia

We propose and analyze a simplified version of a partial differential equation (PDE) model for chronic myeloid leukemia (CML) derived from an agent-based model proposed by Roeder et al. This model describes the proliferation and differentiation of leukemic stem cells in the bone marrow and the effect of the drug Imatinib on these cells. We first simplify the PDE model by noting that most of the dynamics occurs in a subspace of the original 2D state space. Then we determine the dominant eigenvalue of the corresponding linearized system that controls the long-term behavior of solutions. We mathematically show a non-monotonous dependence of the dominant eigenvalue with respect to treatment dose, with the existence of a unique minimal negative eigenvalue. In terms of CML treatment, this shows that there is a unique dose that maximizes the decay rate of the CML tumor load over long time scales. Moreover this unique dose is lower than the dose that maximizes the initial tumor load decay. Numerical simulations of the full model confirm that this phenomenon is not an artifact of the simplification. Therefore, while optimal asymptotic dosage might not be the best one at short time scales, our results raise interesting perspectives in terms of strategies for achieving and improving long-term deep response.

     

Megakaryoblastic micromegakaryocytic crisis in chronic myeloid leukemia

Atypical megakaryoblasts (MKB) or megakaryocytes (MK) are occasionally present in the peripheral blood during the terminal development of chronic myeloid leukemia (CML). We report on a 49-year-old female suffering from Ph1 chromosome-positive CML with typical megakaryoblastic transformation in the peripheral blood and in the bone marrow. The small "blasts" were at the most only slightly larger and were occasionally even smaller than lymphocytes but showed megakaryoblastic or atypical megakaryocytic differentiation. The cytoplasmic cytochemical pattern of the atypical megakaryocytic cells was identical to that of large atypical thrombocytes. Platelet peroxidase was detected upon electron-microscopic (EM) examination. Immunologic characterization disclosed the presence of MK-specific antigens. When cultured in vitro on agar, the blasts transformed spontaneously into large mature MK, exhibiting characteristic cytochemical and immunological patterns. Cytogenetic examination of peripheral blood showed severe abnormalities. The patient did not respond to therapy and died 3 months after manifestation of the blast crisis.     

Molecular genetics of chronic neutrophilic leukemia,chronic myelomonocytic leukemia and atypical chronic myeloid leukemia

According to the 2008 World Health Organization classification, chronic neutrophilic leukemia, chronic myelomonocytic leukemia and atypical chronic myeloid leukemia are rare diseases. The remarkable progress in our understanding of the molecular genetics of myeloproliferative neoplasms and myelodysplastic/myeloproliferative neoplasms has made it clear that there are some specific genetic abnormalities in these 3 rare diseases. At the same time, there is considerable overlap among these disorders at the molecular level. The various combinations of genetic abnormalities indicate a multi-step pathogenesis, which likely contributes to the marked clinical heterogeneity of these disorders. This review focuses on the current knowledge and challenges related to the molecular pathogenesis of chronic neutrophilic leukemia, chronic myelomonocytic leukemia and atypical chronic myeloid leukemia and relationships between molecular findings, clinical features and prognosis.     

Dasatinib preferentially induces apoptosis by inhibiting Lyn kinase in nilotinib-resistant chronic myeloid leukemia cell line

Nilotinib is approved for treatment of newly diagnosed chronic myeloid leukemia (CML) and it is shown superiority over imatinib in first-line treatment for patients of CML. In this study, we established a nilotinib-resistant cell line, K562NR, and evaluated the resistance to nilotinib and efficacy of dasatinib. We found activation of Lyn plays a dominant role in survival of the nilotinib-resistant cell line. We found dasatinib induces the apoptosis of nilotinib-resistant cells and inhibits Lyn kinase activity. This novel nilotinib-resistant CML cell line may help to explore novel therapy for CML.     

Targeting the kinase activity of the BCR-ABL fusion protein in patients with chronic myeloid leukemia

Imatinib mesylate is a major advance in the therapy of patients with chronic myelogenous leukemia (CML). Imatinib mesylate binds to the inactive conformation of BCR-ABL tyrosine kinase suppressing the Philadelphia chromosome positive clone in CML. Clinical studies have yielded impressive results in all phases of CML. With higher rates of complete cytogenetic response with imatinib, molecular monitoring of disease is now advisable in assessing response and determining prognosis. Emergence of resistance to imatinib may be manifest at the hematologic, cytogenetic, or molecular levels in patients who remain in chronic phase, or may be evidenced by the development of more advanced CML phases. Resistance and eventual clinical failure of imatinib occurs in most patients with blastic phase disease. Resistance may occur at the level of Bcr-Abl, with reduction or loss of imatinib effectiveness as a kinase inhibitor, or, despite retention of its inhibitory ability, with changes in the ability to deliver an effective dose at the cellular level, and/or, the leukemia becoming less dependent on Bcr-Abl. The various mechanisms underlying these differing, non-mutually exclusive, mechanisms of resistance must be understood to develop corresponding therapeutic remedies. We review the current data on imatinib in CML, the criteria for diagnosis of imatinib resistance, and the mechanisms that underlie such resistance in CML.     

The allometry of chronic myeloid leukemia

Chronic myeloid leukemia (CML) is an acquired neoplastic hematopoietic stem cell (HSC) disorder characterized by the expression of the BCR-ABL oncoprotein. This gene product is necessary and sufficient to explain the chronic phase of CML. The only known cause of CML is radiation exposure leading to a mutation of at least one HSC, although the vast majority of patients with CML do not have a history of radiation exposure. Nonetheless, in humans, significant radiation exposure (after exposure to atomic bomb fallout) leads to disease diagnosis in 3-5 years. In murine models, disease dynamics are much faster and CML is fatal over the span of a few months. Our objective is to develop a model that accounts for CML across all mammals. In the following, we combine a model of CML dynamics in humans with allometric scaling of hematopoiesis across mammals to illustrate the natural history of chronic phase CML in various mammals. We show how a single cell can lead to a fatal illness in mice and humans but a higher burden of CML stem cells is necessary to induce disease in larger mammals such as elephants. The different dynamics of the disease is rationalized in terms of mammalian mass. Our work illustrates the relevance of animal models to understand human disease and highlights the importance of considering the re-scaling of the dynamics that accrues to the same biological process when planning experiments involving different species.     

Characterization of a multidrug-resistant chronic myeloid leukemia cell line presenting multiple resistance mechanisms

The multidrug-resistant (MDR) phenotype is multifactorial, and cell lines presenting multiple resistance mechanisms might be good models to understand the importance of the various pathways involved. The present work characterized a MDR chronic myeloid leukemia cell line, derived from K562 through a selective process using daunorubicin. This MDR cell line was shown to be resistant to vincristine, daunorubicin, and partially resistant to imatinib. It showed a slower duplication rate. Overexpression of ABCB1 and ABCC1 was observed at the protein and functional levels and the expression of CD95, a molecule related to cell death, was reduced in the MDR cell line. Conversely, no differences were observed related to the anti-apoptotic molecule Bcl-2 or p53 expression. The activation antigen CD69 was reduced in the MDR cell line and treatment with imatinib further decreased the expressed levels. Furthermore, secretion of IL-8 was diminished in the MDR cell line. When daunorubicin-selected cells were compared to another MDR cell line, Lucena 1, derived from the same parental line K562, and selected with vincristine, a different profile was observed in relation to most aspects studied. When both cell lines were silenced for ABCB1, differences in CD69 and CD95 were maintained, despite resistance reversal. These results reinforce the idea that cell lines selected in vitro may display multiple resistance strategies that may vary with the selective agent used as well as during different steps of the selection process.