Leukaemia describes a mixed group of cancers affecting blood cell development. Its management has changed drastically over the past 40 years and with this we have seen significant improvements in patient outcomes. These advances have come about through continued research into the underpinning mechanisms driving leukaemia development.In addition to better treatments for leukaemia, our understanding of the genes which cause leukaemia has improved. This review focuses on the blood cancer-causing gene BCR::ABL1 which results from an abnormal join between two chromosomes, 9 and 22. The BCR::ABL1 gene most commonly leads to a blood cancer called chronic myeloid leukaemia (CML), but can also cause an acute leukaemia, more commonly Acute Lymphoblastic Leukaemia and rarely, Acute Myeloid Leukaemia.Our knowledge of how the BCR::ABL1 gene and resulting protein drive cancer cell progression and survival through complex processes within the cell which promote cell growth and switch off normal cell death pathways. At the same time, targeted treatments have been developed which directly stop BCR::ABL from affecting cell growth and survival, replacing traditional, more toxic chemotherapy drugs which have a blanket effect on all developing cells, both healthy and cancer cells. These new drugs are called tyrosine kinase inhibitors or "TKIs"; the first of which was designed nearly 25 years ago, and is now called imatinib (trade name "Gleevec" or "Glivec"). TKIs have led to much improved survival for patients, especially with CML, but also reduced toxicity and improved quality of life. Indeed patients with the most benign phase of CML, termed chronic phase, if responding to these targeted drugs, can expect normal life expectancy. This paper will discuss the advances made in BCR::ABL1-positive leukaemias, and discuss ongoing issues with their use and highlight where research must now focus to continue to improve outcomes for patients through precision medicine.
Diamond Blackfan anaemia (DBA) is an inherited bone marrow failure syndrome most commonly presenting as a red cell aplasia in infancy. It is associated with physical abnormalities and an increased propensity to develop malignancy. DBA affects around 5 per million live births and in approximately 60% of the patients causative mutations in ribosomal protein genes have been documented. In vitro studies suggest that the erythroid maturation arrest occurs during the erythropoietin dependent stage of erythropoiesis occurring at the transition from the erythroid colony forming unit (CFU-e) to proerythroblasts. However, the morphological diagnosis of DBA can be difficult due to the heterogenous findings and the lack of a systematic review of the bone marrow features. Seventy-five patients with clinical and laboratory features consistent with Diamond Blackfan anaemia attend the DBA clinic at St. Mary’s Hospital. The median age is 8.8 years (0.7 – 41.9). Three patients presented in utero (3.9%), 46 patients (60.5%) in the first twelve weeks of life, 13 patients (17.1%) from 3 to 12 months, 10 patients (13.2%) 1 to 5 years, 2 patients (2.6%) 5 to 10 years, 1 patient (1.32%) 10 to 18 years and 1 patient (1.32%) later than 18 years of age. Fifty-one patients (67.1%) have systemic features [the heart involved in 22 patients (28.9%)], 7 patients (9.21%) have short stature only and 18 patients (23.6%) no systemic abnormalities. Thirty-nine patients (51.3%) are transfusion dependent, fifteen (19.7%) steroid responsive, seven (9.4%) are in remission, ten (13.1%) have undergone a bone marrow transplant achieving normal haemopoiesis, five (6.5%) have never developed anaemia of sufficient severity to warrant treatment and 3 are deceased (two transfusion dependent patients due to overwhelming sepsis and one following unrelated bone marrow transplantation). We reviewed the bone marrow aspirates of 29 DBA patients to identify with light microscopy a stage of erythroid maturation arrest and review the morphological features of the myeloid, lymphoid and megakaryocytic cell lineages. Morphological assessment was carried out in the form of a 500 cell differential, in addition to a blinded 500 erythroid:myeloid differential and 50 megakaryocyte assessment. The 500 erythroid:myeloid differential was performed for specific assessment of the erythroid lineage with cells being divided in to proerythroblasts, early, middle and late erythroblasts. Megakaryocyte morphology we specifically focused on nuclear lobulation, categorised as ‘non-lobulation’, ‘hypolobulation’ (second immature lobe) or ‘normal lobulation’. Ten control samples were used for comparison, collected from paediatric healthy bone marrow donors. The paucity of erythroid precursors was restricted to early, middle and late erythroblasts (p≤0.001), with no significant difference in proerythroblast numbers (p=0.26). There was a greater number of non-lobulated megakaryocytes in DBA patients than controls (p=0.009). However, on further characterisation by mutation analysis, only those with the RPL5 and RPL11 mutation maintained the statistical difference, demonstrating that non-lobulation was restricted to this population (figure 1). No correlation with the peripheral platelet count was found. In conclusion, there is a morphologically identifiable stage of erythroid maturation arrest in diagnostic bone marrow aspirates, with retention of normal numbers of proerythroblasts in some patients. There are significantly increased numbers of hypo and non-lobulated megakaryocytes in RPL5/RPL11 DBA patients adding to a growing body of evidence that RPL5 and RPL11 may have particular characteristic features representing a distinct subcategory of DBA. Disclosures: No relevant conflicts of interest to declare.
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