Comparison of gene-expression profiles in parallel bone marrow and peripheral blood samples in acute myeloid leukaemia by real-time polymerase chain reaction.

BACKGROUND: Gene signatures (Indicator genes) in bone marrow that provide more precise prognostication in haematological malignancy have been identified by microarray expression studies. It would be beneficial to measure these diagnostic signatures in peripheral blood. AIMS: To determine the degree of correspondence of gene expression for a set of Indicator genes between bone marrow and peripheral blood in acute myeloid leukaemia (AML). METHODS: Parallel bone marrow aspirate and peripheral blood samples were obtained from 19 patients diagnosed with AML and mononuclear cells isolated from both sample types. mRNA was globally amplified by polyadenylated real-time polymerase chain reaction (polyA RT-PCR); the expression of 15 AML Indicator genes, identified from previous microarray studies, was measured by RT-PCR. All values were normalised to the mean expression of three housekeeping genes (IF2-beta, GAP and RbS9) and were statistically compared using SPSS software. RESULTS: No significant difference in expression between bone marrow and peripheral blood was observed for 10 of the genes (leptin receptor, CD33, adipsin, proteoglycan 1, MB-1, cyclin D3, hSNF2b, proteasome iota, HkrT-1 and E2A), indicating its possible use in monitoring disease activity in peripheral blood samples, whereas c-myb, HOXA9, LYN, cystatin c and LTC4s showed significantly different expression between bone marrow and peripheral blood samples. CONCLUSION: These results indicate a possible use for the method in monitoring AML in peripheral blood by RT-PCR measurement of Indicator genes. In addition, the initial use of polyA PCR facilitates translation to very small clinical samples, including fractionated cell populations, of particular importance for monitoring haematological malignancy.

Elevated levels of WT1 transcripts in bone marrow harvests are associated with a high relapse risk in patients autografted for acute myeloid leukaemia.

Relapse postautograft in acute myeloid leukaemia (AML), may in part arise from leukaemia cells present in the bone marrow (BM) inoculum, and the level of minimal residual disease (MRD) in BM harvests used for autografting may therefore be clinically important. We have used the WT1 transcript as a marker of MRD, which was quantitated by RQ-PCR, in the BM harvests of 24 patients receiving an ABMT for AML. ABL was used as a control gene with WT1 level being normalised to 10(5) copies of ABL per sample. Median WT1 level was 651 copies (range=113-32 700) for the 13 patients with relapse-free survival (RFS) of less than 5 years, and 174 (range=0-1900) for patients with RFS of over 5 years postautograft (P<0.04). The RFS was 10.5 months for patients with WT1 level of >2000 copies (n=5), and has not yet been reached for patients with WT1 level<2000 (n=21), at a median follow-up of 92 months (P<0.05). We show that elevated levels of MRD in BM harvests are associated with a higher relapse risk in patients autografted for AML.

Minimal residual disease in acute myeloid leukaemia.

Relapse remains the main cause of treatment failure in acute myeloid leukaemia (AML). Studies to date suggest that monitoring of minimal residual disease (MRD) in AML is useful in identifying patients at high risk of relapse from those in durable remission. This chapter describes the methodological advances in the detection of MRD and, in particular, focuses on the development of highly sensitive RT-PCR techniques, including real-time, for quantifying MRD. Preliminary results on the clinical utility of MRD monitoring in AML with t(8;21) and inv(16) are promising and provide the basis for further evaluation by quantitative real-time analysis in prospective clinical trials. For AML without a specific fusion transcript, the WT1 gene is an alternative molecular target. The clinical value of quantitative MRD monitoring in AML, however, will need to be confirmed in future studies.

Dual colour FISH in paraffin wax embedded bone trephines for identification of numerical and structural chromosomal abnormalities in acute myeloid leukaemia and myelodysplasia.

AIMS/BACKGROUND: The advent of new treatments for haematological malignancies has led to the need for a correlation between cytogenetic and morphological abnormalities. This study aimed to achieve this by the application of interphase cytogenetics to marrow trephine sections, a technique not previously reported for formalin fixed, paraffin wax embedded trephine biopsies. METHODS: Dual colour fluorescence in situ hybridisation (FISH) was used to detect numerical and structural abnormalities in routinely processed paraffin wax embedded trephine biopsies. Three cases with t(8;21) and three with t(15;17) were analysed, together with a case of trisomy 8. Chromosome specific probes were hybridised with sections and disclosed by fluorescein isothiocyanate and rhodamine/Texas red labelled antidigoxigenin and antibiotin amplification; translocations were identified by colocalisation of probes using a double wavelength bypass filter. RESULTS: A translocation signal was present in 12% and 11.5% of the cells counted in the t(8;21) and t(15;17) cases, respectively, but in none of the normal controls (p < 0.001). In the case of trisomy 8, 9% of the cells counted contained three hybridisation signals for chromosome 8, whereas no cell contained more than two in the normal control (p < 0.001). CONCLUSIONS: This technique is useful for archived routinely processed material, enabling it to be used as a research tool but also, and perhaps more importantly, in clinical practice.

Comparison of 'sequential' versus 'standard' chemotherapy as re-induction treatment, with or without cyclosporine, in refractory/relapsed acute myeloid leukaemia (AML): results of the UK Medical Research Council AML-R trial.

This aim of the acute myeloid leukaemia (AML)-R trial was to compare sequential (Seq) ADE (cytarabine, daunorubicin, etoposide) with standard (Std) ADE as remission re-induction treatment and to assess any benefit of cyclosporine (CSA) as a multidrug resistance modulator in refractory/relapsed AML patients. Seq ADE, based on the concept of Timed Sequential Therapy, comprised the same drugs as Std ADE but given at higher doses and in a different sequence. Between 1992 and 1997, 235 patients with relapsed (175) and refractory (60) AML were entered: 170 were randomized between Std versus Seq ADE and 213 between CSA versus no CSA. CSA was initially given at a dose of 5 mg/kg/d and increased to 10 mg/kg/d in the latter part of the trial. Overall, the complete remission (CR) rate was 43%, with Std ADE being significantly better than Seq ADE (54% versus 34%, P = 0.01). CR rates did not differ between the CSA and no CSA arms (41% versus 45%, P = 0.6). Overall, 3 year disease-free survival (DFS) of remitters was 16%, with a relapse risk of 70%. DFS was not significantly different between the chemotherapy or the CSA arms. Overall, 3 year survival was 8%. Survival with Std ADE was significantly better than with Seq ADE (12% versus 6%, P = 0.03). CSA did not affect overall survival, except in patients > or = 60 years, who fared worse on CSA (P = 0.0003). No difference in haematological toxicity between the chemotherapy or CSA arms was seen. Survival was better with longer first CR duration (P < 0.0001). We conclude that Std ADE was superior to Seq ADE for CR achievement and survival, with no benefit with CSA, at the doses used in this study.

Megakaryopoiesis in vitro in myelodysplastic syndromes and acute myeloid leukaemia: effect of pegylated recombinant human megakaryocyte growth and development factor in combination with other growth factors.

Pegylated recombinant human megakaryocyte growth and development factor (PEG-rHuMGDF) can stimulate megakaryopoiesis in vitro in some myelodysplastic syndrome (MDS) and acute myeloid leukaemia (AML) patients. We assessed PEG-rHuMGDF combined with granulocyte colony-stimulating factor (G-CSF), granulocyte-macrophage CSF (GM-CSF), interleukin 3 (IL-3), IL6, stem cell factor (SCF) or erythropoietin in 40 MDS, 33 AML and 16 normal bone marrow samples. CD61-positive cells in suspension cultures increased with PEG-rHuMGDF alone in 20/25 RA + RAS, 11/14 RAEB + RAEBt and 29/33 AML cases. Further increases when IL-3 and/or SCF were added to PEG-rHuMGDF occurred in 14/20 RA + RAS, 8/13 RAEB + RAEBt and 18/26 AML cases. CFU-Mk growth was poor overall, but could be enhanced by PEG-rHuMGDF combinations in some patients. Stimulation of megakaryopoiesis by PEG-rHuMGDF can be augmented by IL-3 and SCF in many MDS and AML patients.

Molecular quantitation of minimal residual disease in acute myeloid leukemia with t(8;21) can identify patients in durable remission and predict clinical relapse.

One of the most common translocations in acute myeloid leukemia (AML) is the t(8;21), which produces the fusion gene AML1-MTG8. We have developed a sensitive competitive reverse transcriptase-polymerase chain reaction (RT-PCR) assay for AML1-MTG8 transcripts, coupled with a competitive RT-PCR for the ABL transcript as a control to accurately estimate the level of amplifiable RNA. We have shown that AML1-MTG8 and ABL transcripts have equal degradation rates. Thus, this method is useful for multicenter studies. We studied 25 patients with t(8;21) AML by means of serial analysis done on bone marrow (BM) and peripheral blood (PB) samples from 21 patients. Our analysis showed that, in general, a successful induction chemotherapy produces a reduction of 2 to 3 log in the level of AML1-MTG8, followed by a further 2 to 3 log after consolidation/intensification chemotherapy. Levels up to 1 x 10(3) and 1 x 10(2) molecules/microg of RNA in BM and PB, respectively, were compatible with durable remission. On the other hand, 5 patients with levels of 0.71 x 10(5) to 2.27 x 10(5) molecules/microg of RNA in BM and 2.27 x 10(3) to 2.27 x 10(4) molecules/microg of RNA in PB had hematologic relapse within 3 to 6 months. Our data indicate that serial quantitation of AML1-MTG8 transcripts is useful in identifying patients at high risk of relapse and may offer an opportunity for clinical intervention to prevent hematologic relapse. This approach was applied successfully in a patient who had an allogeneic BM transplantation. We also suggest that PB may be used an alternative to BM for quantitating AML1-MTG8 transcripts.

P-glycoprotein and multidrug resistance-associated protein, but not lung resistance protein, lower the intracellular daunorubicin accumulation in acute myeloid leukaemic cells.

The in vitro intracellular daunorubicin accumulation (IDA) of blast cells from 69 patients with newly diagnosed acute myeloid leukaemia (AML) was correlated with the expression and functional activity of the multidrug resistance (MDR) proteins, P-glycoprotein (Pgp), multidrug resistance-associated protein (MRP) and lung-resistance protein (LRP). An inverse and significant association was found between IDA and Pgp-related efflux activity (r = -0.31, P = 0.01) and also MRP (r = -0.25, P = 0.04) but not with LRP (r = -0.13, P = 0.28). Coexpression of the MDR proteins had an additive effect in further lowering of IDA levels, suggesting that the clinical MDR phenotype is dependent on the sum of multiple MDR factors available to the leukaemic cell. Thus, the median IDA of leukaemic cells without any MDR proteins was significantly higher than that of blasts carrying two MDR proteins (0.466 vs. 0.296, P = 0.046). Seven patients with no expression of Pgp, MRP and LRP still had low IDA levels, suggesting the presence of efflux MDR mechanisms other than those studied. The relation of IDA to clinical parameters known to be associated with poor prognosis, such as age, secondary AML, karyotype, peripheral blood blast and CD34 counts, was also studied, but no significance was found on multifactorial analysis. There was a non-significant trend for earlier relapse in patients with low IDA levels (leukaemia-free survival of 16.3 months compared with 21.1 months in patients with high IDA levels). Our data suggest that, while the IDA assay is a quick and relatively easy test for the combined efflux MDR phenotype, it is unable to detect other MDR mechanisms, such as LRP, which may be important to the clinical outcome of patients with AML.

The in vitro effect of pegylated recombinant human megakaryocyte growth and development factor (PEGrHuMGDF) on megakaryopoiesis in patients with aplastic anaemia.

Recombinant human megakaryocyte growth and development factor (rHuMGDF), a truncated form of the Mpl ligand, stimulates megakaryopoiesis both in vitro and in vivo. We describe the in vitro effect of pegylated recombinant human MGDF (PEGrHuMGDF) alone and in combination with other haemopoietic growth factors (G-CSF, GM-CSF, IL3, IL6, erythropoietin, SCF) on megakaryopoiesis in bone marrow from 11 normal subjects and 19 patients with aplastic anaemia (AA). We used semi-solid cultures to assess megakaryocyte colony growth (CFU-Mk) and 7 d suspension cultures to assess production of platelet glycoprotein IIIa (CD61) positive cells. CFU-Mk growth from normal marrow increased 3-4-fold and CD61+ve cells in suspension culture increased 8-10-fold with the addition of 10 ng/ml PEGrHuMGDF. In normal subjects growth factor combinations further increased responses in suspension culture, PEGrHuMGDF + SCF, PEGrHuMGDF + IL3 and PEGrHuMGDF + SCF + IL3 + Epo (P<0.05). IL6, GM-CSF, G-CSF or Epo added with PEGrHuMGDF did not consistently give this increase. CFU-M. growth from AA marrow remained very low in the presence of PEGrHuMGDF, with or without the addition of other growth factors. CD61+ve cells in suspension culture were, however, increased in the presence of PEGrHuMGDF alone in 12/19 AA cases. Of the 12 patients responsive to PEGrHuMGDF, nine were tested with additional growth factors and further responses were seen in six. In the AA cases PEGrHuMGDF+SCP and PEGrHuMGDF+SCF+IL3+Epo gave the highest responses. These data suggest that PEGrHuMGDF, alone or in combination with SCF and/or IL3, can enhance megakaryocyte proliferation in some patients with aplastic anaemia and may therefore have a role in the treatment of thrombocytopenia in these cases.

RT-PCR method with increased sensitivity shows persistence of PML-RARA fusion transcripts in patients in long-term remission of APL.

RT-PCR methods have been developed, to date, by various groups to amplify the PML-RARA fusion gene produced by the t(15;17) in APL patients. However, these methods lack the necessary sensitivity to detect minimal residual disease (MRD) below the level of 1 leukaemic cell in 10(4) cells. Patients who test positive by these methods after treatment are likely to relapse. However, up to 25% of patients who test negative after treatment relapse within a short period. We have developed a 'hot-start' RT-PCR method for the amplification of PML-RARA with increased sensitivity at the level of two leukaemic cells in 10(6) cells. Using this method we were able to detect MRD in seven out of 15 patients tested in remission. Of the 11 patients in medium to long-term remission, five patients tested positive. None of these 11 patients tested positive with the standard RT-PCR. These results show that some patients in remission of APL continue to express PML-RARA even in long-term remission, when they can be considered clinically 'cured' of their disease.

Molecular monitoring of minimal residual disease in acute myeloblastic leukemia with t(8;21) by RT-PCR.

The t(8;21) is one of the most common translocations in acute myeloid leukaemia (AML) occurring in approximately 20% of adult and 40% of paediatric AML-M2. This translocation fuses the AML1 gene on chromosome 21q to the MTG8 (ETO) gene on chromosome 8q to produce the fusion gene AML1-MTG8. Transcripts for the AML1-MTG8 fusion gene have been detected in the majority of patients in remission by qualitative RT-PCR methods. Thus for such patients these methods are unsuitable for monitoring minimal residual disease (MRD). Furthermore, the diverse form of transcripts for this fusion gene was found in patients at different phases of their disease, which rules out the usefulness of the expression of any particular set of transcripts as a marker for monitoring MRD in those patients. On the other hand a quantitative RT-PCR method we developed, was able to assess the effectiveness of treatment and predict relapse up to four months before the onset of haematological relapse. This method should distinguish patients in stable remission from those at high risk of relapse and therefore identify patients who would require additional or new treatment such as BMT.

The in vitro effect of pegylated recombinant human megakaryocyte growth and development factor (PEG rHuMGDF) on megakaryopoiesis in normal subjects and patients with myelodysplasia and acute myeloid leukaemia.

Mpl ligand is a recently cloned haemopoietic growth factor that stimulates megakaryopoiesis in vitro and in vivo. We describe the in vitro effect of a truncated form of Mpl ligand, recombinant human megakaryocyte growth and development factor (rHuMGDF), on megakaryopoiesis in bone marrow from normal subjects and patients with myelodysplastic syndrome (MDS) and acute myeloid leukaemia (AML). We used both semi-solid and suspension culture techniques to assess the effect of pegylated (PEG) rHuMGDF on megakaryocyte colony growth (CFU-Mk) and on the production of CD61+ cells in 7d suspension cultures. PEG rHuMGDF increased CFU-Mk growth and CD61+ cell production in a dose-dependent fashion in all normal marrows tested. Normal CFU-Mk growth was increased threefold with the addition of 10 ng/ml PEG rHuMGDF to cultures and CD61+ cells were increased 8-10-fold by the same dose. Although increased CFU-Mk growth was only seen in 1/10 AML and 6/16 MDS marrows, CD61+ cell numbers in suspension culture were increased in 9/13 AML and 12/15 MDS samples, responses ranged from very limited to normal magnitude. There was no correlation between platelet count and CFU-Mk number, CD61+ cell number or response to PEG rHuMGDF. We did not find any increased CFU-GM colony or cluster growth in response to PEG rHuMGDF and the CD61+ cells produced in suspension culture had features of megakaryocytic differentiation. These data suggest that PEG rHuMGDF can enhance megakaryocyte proliferation in some patients with MDS and AML, and may have a role in the treatment of thrombocytopenia in these patients.

Detection and quantitation of the CBFbeta/MYH11 transcripts associated with the inv(16) in presentation and follow-up samples from patients with AML.

We have developed a competitor-based RT-PCR technique which will detect and quantitate the CBFbeta/MYH11 transcripts associated with inv(16)(q22;p13) and have used it to study presentation and follow-up samples of acute myeloid leukaemia (AML). The levels of the leukaemia-specific transcripts are expressed as a ratio to a ubiquitously expressed mRNA species (Abl) which controls for RNA degradation. This technique has been applied to 75 consecutive patients presenting with either de novo AML or tMDS; 6/75 patients analysed were positive for the inv(16), all were confirmed by conventional cytogenetics. The inv(16) has a strong association with M4Eo, but we found only 2/6-positive patients to have this diagnosis (two patients with M2, one patient M1 and one patient had MDS). At presentation the levels of CBFbeta/MYH11 transcripts were 0.1-10/Abl transcript (mean 3.3/Abl transcript). Seventeen follow-up samples were available on 5/6 of these patients, and on two further patients in whom stored material was available. Following the first cycle of chemotherapy the level of transcripts was at least 10(-2) lower (0.1-10 x 10(-2)/abl transcript) than their presentation sample. Subsequent samples on these patients when in remission gave transcript levels in the range (1.0 x 10(-4) - 2 x 10(-3)/abl transcript), and three long-term follow-up samples were negative. We have developed a quantitative test which opens the possibility of predicting relapse by detecting changes in the numbers of leukaemia-specific transcripts.

A randomized, double-blind, placebo-controlled, phase III study of filgrastim in remission induction and consolidation therapy for adults with de novo acute myeloid leukemia. The International Acute Myeloid Leukemia Study Group.

The safety and efficacy of filgrastim as an adjunct to acute myeloid leukemia (AML) induction and consolidation therapy was assessed in this prospective double-blind, randomized, placebo-controlled, multicenter trial. A total of 521 consecutive de novo AML patients aged 16 or more years were randomized to receive filgrastim (5 microg/kg/d subcutaneously) or placebo after standard induction as well as consolidation chemotherapy. Blinded study drug was given from 24 hours after chemotherapy until the absolute neutrophil count was >/=1.0 x 10(9)/L for 3 consecutive days. The overall complete remission rate was 68%. After a median follow-up of 24 months (range 5 to 40) the median disease-free survival was 10 months (95% confidence interval [CI], 8.7 to 10.8) and the median overall survival was 13 months (95%CI, 12.2 to 14.6). These did not differ between treatment groups. Patients receiving filgrastim experienced neutrophil recovery 5 days earlier after induction 1 than those receiving placebo (P < .0001). This was accompanied by reductions in the duration of fever (7 v 8.5 days; P = .009), parenteral antibiotic use (15 v 18.5 days; P = .0001), and hospitalization (20 v 25 days; P = .0001). Similar reductions were seen after induction 2 and the consolidation courses. There was a significant reduction in the number of patients requiring systemic antifungal therapy in the filgrastim group during induction treatment (34% v 43%; P = .04). In conclusion, filgrastim is safe in that it had no negative impact on the prognosis of the AML patients. In addition, it effectively reduced the duration of neutropenia, leading to significant clinical benefits by reducing the duration of fever; requirement for parenteral anti-infectives, specifically amphotericin B; and the duration of hospitalization.

Expression of AML1/MTG8 transcripts in clonogenic cells grown from bone marrow of patients in remission of acute myeloid leukaemia with t(8;21).

Patients in long-term remission of acute myeloid leukaemia (AML) M2 with t(8;21) after chemotherapy, with or without bone marrow transplantation, are known to retain residual cells which express AML1/MTG8 transcripts in bone marrow, detectable by RT-PCR. In order to determine whether these residual cells are clonogenic, we have grown remission bone marrow samples in standard semi-solid culture and picked individual CFU-GM and BFU-E colonies which were then analysed for the expression of AML1/MTG8 transcripts using a rapid specific RT-PCR technique. Nine patients were tested in remission, six between 1 and 83 months post chemotherapy, one 103 months post autologous bone marrow transplant and one 41 months post allogeneic bone marrow transplant. One of these patients also had quantitation of AML1/MTG8 transcripts on five occasions after recovery from each course of chemotherapy and at the end of treatment. There was a significant correlation between the percentage of positive colonies and the level of AML1/MTG8 transcripts. Between two and 80 CFU-GM and between two and 21 BFU-E colonies were analysed from each patient sample: 0-23% CFU-GM and 0-17% BFU-E colonies were found to express AML1/MTG8 transcripts suggesting that these residual cells are clonogenic in vitro and that the cell of origin is a multipotent myeloid progenitor.

Expression of diverse AML1/MTG8 transcripts is a consistent feature in acute myeloid leukemia with t(8;21) irrespective of disease phase.

The (8;21) chromosomal translocation occurs in 20% of adult patients with AML M2. This translocation interrupts two genes, AML1 on chromosome 21q and MTG8 (ETO) on 8q to form a chimeric gene AML1/MTG8 on the der(8) chromosome. Recent reports have shown the presence of diverse forms of transcript for this chimeric gene. Three alternative out-of-frame transcripts have been previously demonstrated (types II, III, IV) all of which have a stop codon 3' of the runt box encoding a truncated runt polypeptide. We have characterized a novel transcript (V) which is in-frame and has a stop codon 3' to the runt box. We have examined transcript diversity in 10 AML patients with t(8;21) in remission of their disease following chemotherapy or bone marrow transplantation. Specific transcripts detected at presentation in six patients were similarly expressed during remission and at relapse in two patients; thus expression of transcript diversity was unaffected by the disease phase. Alternative transcripts were unhelpful as a marker of remission quality or predictor of relapse. The significance of these diverse transcripts in leukemogenesis remains unknown.

Detection of CBFB/MYH11 transcripts in patients with inversion and other abnormalities of chromosome 16 at presentation and remission.

The pericentric inversion of chromosome 16 [inv(16)(p13q22)] and t(16;16)(p13;q22) are chromosomal rearrangements frequently associated with AML FAB type M4Eo resulting in the production of a fusion gene CBFB/MYH11. We studied 17 patients with a chromosome 16 abnormality (eight M4Eo, two M1, one M2, three M4 without abnormal eosinophils, three MDS) for the presence of CBFB/MYH11 transcripts using an RT-PCR technique. 10 AML patients with inv(16) tested RT-PCR positive (eight at presentation, one in remission, one in remission and relapse). Three of these patients were originally reported by cytogenetic analysis to have del(16q22) but the positive RT-PCR results prompted a cytogenetic re-examination, resulting in the correction of the reports to inv(16). We show that although inv(16) is closely associated with AML M4Eo, it can also be detected in cases of AML M4 without abnormal eosinophils. Three cases of MDS with inv(16) were also RT-PCR positive. Four patients with other chromosome 16 abnormalities were RT-PCR negative. Four AML patients with inv(16) were studied in remission. All were RT-PCR positive, including one patient in remission for 108 months and one 22 months post allogeneic bone marrow transplant. In the latter two remission patients, RT-PCR evaluation was positive in bone marrow (BM) but not in peripheral blood, suggesting that BM may be the more informative. We conclude that this technique is valuable in the accurate molecular classification of AML, particularly as treatment options may be influenced by such information. Though RT-PCR is highly sensitive in detecting CBFB/MYH11 fusion transcripts during remission, monitoring of minimal residual disease in patients with inv(16) remains to be established.

Invasive aspergillosis: clusters and sources?

Clusters of invasive infection with Aspergillus fumigatus are known to be associated with building works but studying the epidemiology has been hampered by the lack of a reliable typing system. A combination of three typing systems; silver staining of sodium dodecyl sulphate-polyacrylamide gels, immunoblot fingerprinting, and random amplification of polymorphic DNA (RAPD) was applied to seven cases on a haematology unit. The results show three of the patients to have indistinguishable isolates, suggesting a common source. Detection and removal of such sources, although difficult, would be an effective way of controlling the infection.

Clonal remissions in acute myeloid leukaemia are commonly associated with features of trilineage myelodysplasia during remission.

Clonal haemopoiesis has previously been demonstrated in some 30% of patients in remission of acute myeloid leukaemia (AML). Whilst a 'clonal remission' in many such patients may represent a skewed X-chromosome inactivation pattern in haemopoietic cells, its relationship to an underlying preleukaemic state remains uncertain. We therefore analysed the clonal status of 48 female patients in remission of AML using X-chromosome linked restriction fragment length polymorphisms (RFLPs) within the X-linked PGK and HPRT genes and the DXS255 (M27 beta) locus, and carried out in conjunction a detailed study of the morphological and karyotypic features of the patients' bone marrows. During remission, 35 patients (73%) with AML demonstrated nonclonal haemopoiesis, and their bone marrows were morphologically normal. Remission haemopoietic tissue in nine cases (19%) showed a skewed X-chromosome inactivation pattern and remission bone marrows in these patients had features of trilineage myelodysplasia (TMDS), with seven having similar features at presentation. Analysis of constitutional DNA showed a non-clonal pattern in seven of these patients, but was unsuccessful in two cases. These nine patients with post-chemotherapy TMDS were considered to have true clonal haemopoiesis. Four patients (8%) with a skewed X-chromosome inactivation pattern had normal remission bone marrows. Analysis of constitutional DNA showed a skewed pattern in two of these patients, but was unsuccessful in two cases. Cytogenetic investigation during remission in the nine patients with TMDS showed a normal karyotype in four cases and the acquisition of new karyotypic abnormalities in three cases. In contrast, 10 female patients in remission of de novo acute lymphoblastic leukaemia (ALL) were shown to have non-clonal haemopoiesis. We conclude that the majority of patients with AML who achieve remission after cytoreductive chemotherapy have non-clonal haemopoiesis, and when clonal remissions are observed these are commonly associated with the development of trilineage myelodysplasia in the bone marrow, with or without karyotypic abnormalities. True clonal remission in association with morphologically normal haemopoiesis is a rare entity, the significance and frequency of which remain uncertain.