Sarah Parisi

Larger Size of Donor Alloreactive NK Cell Repertoire Correlates with Better Response to NK Cell Immunotherapy in Elderly Acute Myeloid Leukemia Patients

Purpose: In acute myeloid leukemia (AML), alloreactive natural killer (NK) cells are crucial mediators of immune responses after haploidentical stem cell transplantation. Allogeneic NK cell infusions have been adoptively transferred with promising clinical results. We aimed at determining whether the composition of NK graft in terms of frequency of alloreactive NK cells influence the clinical response in a group of elderly AML patients undergoing NK immunotherapy. Experimental Design: Seventeen AML patients, in first complete remission (CR; median age 64 years, range 53–73) received NK cells from haploidentical KIR-ligand–mismatched donors after fludarabine/cyclophosphamide chemotherapy, followed by IL2. To correlate donor NK cell activity with clinical response, donor NK cells were assessed before and after infusion. Results: Toxicity was moderate, although 1 patient died due to bacterial pneumonia and was censored for clinical follow-up. With a median follow-up of 22.5 months (range, 6–68 months), 9 of 16 evaluable patients (0.56) are alive disease-free, whereas 7 of 16 (0.44) relapsed with a median time to relapse of 9 months (range, 3–51 months). All patients treated with molecular disease achieved molecular CR. A significantly higher number of donor alloreactive NK cell clones was observed in responders over nonresponders. The infusion of higher number of alloreactive NK cells was associated with prolonged disease-free survival (0.81 vs. 0.14, respectively; P = 0.03). Conclusions: Infusion of purified NK cells is feasible in elderly AML patients as post-CR consolidation strategy. The clinical efficacy of adoptively transferred haploidentical NK cells may be improved by infusing high numbers of alloreactive NK cells. Clin Cancer Res; 22(8); 1914–21. ©2016 AACR. See related commentary by Muntasell and López-Botet, p. 1831

Use of a high sensitive nanofluidic array for the detection of rare copies of BCR-ABL1 transcript in patients with Philadelphia-positive acute lymphoblastic leukemia in complete response

Monitoring of minimal residual disease (MRD) by quantification of BCR-ABL1 transcript levels has become a main part of the management of patients with BCR-ABL1-positive acute lymphoblastic leukemia (ALL) in treatment with tyrosine kinase inhibitors (TKIs). The failure to achieve molecular negativity shortly after starting TKI has been demonstrated to be predictive of relapse, suggesting that an accurate measurement of low BCR-ABL1 levels may have a role in preventing hematological relapse. Despite the big efforts made by many European laboratories within the European Study Group, at the time of writing a standardized procedure to quantify and express results is still missing for BCR-ABL1-positive ALL. In this study, in order to detect with high sensitivity low levels of BCR-ABL1 transcripts, we used a new technology and a new molecular approach based on microfluidic digital polymerase chain reaction (dPCR) using Taqman chemistry and we compared obtained results with those generated by the conventional method based on reverse transcriptase PCR reaction (RQ-PCR) for BCR-ABL1 and total ABL1, with TaqMan chemistry and with Applied Biosystems instrument. We demonstrated the dPCR is high-sensitive (able to detect a single copy of BCR-ABL1) and reliable (results are comparable to those obtained by BCR-ABL1 quantification with conventional technology), allowing an accurate monitoring of BCR-ABL1-positive ALL patients in complete remission.

Bleeding in essential thrombocythaemia: a retrospective analysis on 565 patients

large cell content and proliferative rate of the tumour (Table I). MIR21 was also over-expressed in 7 of the 15 SMZL samples (median = 2Æ8), including 3 cases with an aggressive clinical presentation (B symptoms) and 6 cases with histological aggressiveness. In contrast, the eight cases with neither morphological nor clinical aggressiveness did not exhibit overexpression of MIR21 (median = 0Æ7) (Mann Whitney test: P = 0Æ02). Conversely, MIR21 over-expression was associated with a good prognosis in DLBCL (Lawrie et al, 2008) and Roehle et al (2008) reported that down regulation of MIR21 in DLBCL was associated with an inferior survival. In contrast, the present study suggests an association of MIR21 overexpression with aggressiveness of SMZL. In conclusion, only a small number of miRNAs seem to have a distinct expression pattern in SMZL when compared to nontumoural spleens. MIR21 overexpression appears to correlate with disease aggressiveness, indicating its potential role in marginal zone transformation.

An increased expression of PI-PLCβ1 is associated with myeloid differentiation and a longer response to azacitidine in myelodysplastic syndromes

This study tested the hypothesis that PI‐PLCβ1 is associated with myeloid differentiation and that its expression could be useful for predicting the response of MDS patients to azacitidine, as the clinical effect of epigenetic treatments is often detectable only after several cycles of therapy. To this end, PI‐PLCβ1 was quantified on 70 MDS patients (IPSS risk: 13 Low, 20 Int‐1, 31 Int‐2, 6 High) at baseline and during the first 3 cycles of azacitidine. Results were then compared with the hematologic response, as assessed after the sixth cycle of azacitidine therapy. Overall, 60 patients completed 6 cycles of azacitidine, and for them, a clinical and molecular evaluation was possible: 37 of these patients (62%) showed a specific increase of PI‐PLCβ1 mRNA within the first 3 cycles, which was associated with a longer duration of response and with an increased myeloid differentiation, as evidenced by PI‐PLCγ2 induction and the recruitment of specific myeloid‐associated transcription factors to the PI‐PLCβ1 promoter during azacitidine response. Moreover, the increase of cyclin D3 gene expression throughout all of the therapy showed that PI‐PLCβ1‐dependent signaling is indeed activated in azacitidine responder patients. Taken together, our results show that PI‐PLCβ1 quantification in MDS predicts the response to azacitidine and is associated with an increased myeloid differentiation.

Profiling of drug-metabolizing enzymes/transporters in CD33+ acute myeloid leukemia patients treated with Gemtuzumab-Ozogamicin and Fludarabine, Cytarabine and Idarubicin

Genetic heterogeneity in drug-metabolizing enzyme/transporter (DMET) genes affects specific drug-related cancer phenotypes. To investigate the relationships between genetic variation and response to treatment in acute myeloid leukemia (AML), we genotyped 1931 variants on DMET genes in 94 CD33-positive AML patients enrolled in a phase III multicenter clinical trial combining Gemtuzumab-Ozogamicin (GO) with Fludarabine–Cytarabine–Idarubicin (FLAI) regimen, with the DMET Plus platform. Two ADH1A variants showed statistically significant differences (odds ratio (OR)=5.68, P=0.0006; OR=5.35, P=0.0009) in allele frequencies between patients in complete/partial remission and patients without response, two substitutions on CYP2E1 (OR=0.13, P=0.001; OR=0.09, P=0.003) and one on SLCO1B1 (OR=4.68, P=0.002) were found to differently influence liver toxicity, and two nucleotide changes on SULTB1 and SLC22A12 genes correlated with response to GO (OR=0.24, P=0.0009; OR=2.75, P=0.0029). Genetic variants were thus found for the first time to be potentially associated with differential response and toxicity in AML patients treated with a combination of GO–FLAI regimen.

Prexasertib, a Chk1/Chk2 inhibitor, increases the effectiveness of conventional therapy in B-/T- cell progenitor acute lymphoblastic leukemia

During the last few years many Checkpoint kinase 1/2 (Chk1/Chk2) inhibitors have been developed for the treatment of different type of cancers. In this study we evaluated the efficacy of the Chk 1/2 inhibitor prexasertib mesylate monohydrate in B-/T- cell progenitor acute lymphoblastic leukemia (ALL) as single agent and in combination with other drugs. The prexasertib reduced the cell viability in a dose and time dependent manner in all the treated cell lines. The cytotoxic activity was confirmed by the increment of apoptotic cells (Annexin V/Propidium Iodide staining), by the increase of γH2A.X protein expression and by the activation of different apoptotic markers (Parp-1 and pro-Caspase3 cleavage). Furthermore, the inhibition of Chk1 changed the cell cycle profile. In order to evaluate the chemo-sensitizer activity of the compound, different cell lines were treated for 24 and 48 hours with prexasertib in combination with other drugs (imatinib, dasatinib and clofarabine). The results from cell line models were strengthened in primary leukemic blasts isolated from peripheral blood of adult acute lymphoblastic leukemia patients. In this study we highlighted the mechanism of action and the effectiveness of prexasertib as single agent or in combination with other conventional drugs like imatinib, dasatinib and clofarabine in the treatment of B-/T-ALL.

Revealing very small FLT3 ITD mutated clones by ultra-deep sequencing analysis has important clinical implications in AML patients

FLT3 internal tandem duplication (ITD), one of the most frequent mutations in Acute Myeloid Leukemia (AML), is reported to be an unstable marker, as it can evolve from FLT3 ITD- to ITD+ during the disease course. A single-gene sensitive mutational screening approach may be helpful for better clarifying the exact timing of mutation occurrence, especially when FLT3 ITD appears to occur late, at disease progression. We developed an amplicon-based ultra-deep-sequencing (UDS) approach for FLT3 mutational screening. We exploited this highly sensitive technology for the retrospective screening of diagnosis, relapse and follow-up samples of 5 out of 256 cytogenetically normal (CN-) AML who were FLT3 wild-type at presentation, but tested ITD+ at relapse or disease progression. Our study revealed that all patients carried a small ITD+ clone at diagnosis, which was undetectable by routine analysis (0,2–2% abundance). The dynamics of ITD+ clones from diagnosis to disease progression, assessed by UDS, reflected clonal evolution under treatment pressure. UDS appears as a valuable tool for FLT3 mutational screening and for the assessment of minimal residual disease (MRD) during follow-up, by detecting small ITD+ clones that may survive chemotherapy, evolve over time and definitely worsen the prognosis of CN-AML patients.

Clinical Impact of Hypomethylating Agents in the Treatment of Myelodysplastic Syndromes

Myelodysplastic syndromes (MDS) are a heterogeneous group of hematologic diseases, mainly affecting the elderly, characterized by unilinear or multilinear peripheral cytopenia, bone marrow ineffective haemopoiesis, and a varying risk of progression to acute myeloid leukemia (AML). On the basis of the prognostic score systems currently used, MDS patients are generally classified as having higher risk (HR) or lower risk (LR) MDS. Two drugs, azacitidine (AZA) and decitabine (DAC), defined, because of their proven mechanism of action, as DNA methyltransferase inhibitors (DNMTIs), or hypomethylating agents (HMAs), have proven effective in improving peripheral cytopenias and quality of life, reducing or eliminating transfusion need, delaying leukemic evolution, and (only for AZA) prolonging overall survival (OS). HMAs are currently the first therapeutic choice for MDS patients who are not candidates for allogeneic hematopoietic stem cell transplantation (allo-HSCT). HMAs have also been used before and after allo-HSCT, but their role in this setting needs to be confirmed by larger studies. Although data from several clinical and biological studies might help to identify patients with a higher probability to respond to HMAs, to date this treatment should not be denied to any HR MDS patient. Several attempts have been made to combine HMAs with other therapeutic agents, and these results await confirmation by further studies.

Efficacy of Azacitidine in the treatment of adult patients aged 65 years or older with AML

ABSTRACT Introduction: Therapy for acute myeloid leukemia (AML) in elderly populations (>65 years) is still a challenge for scientists and hematologists worldwide, and represents an urgent medical need. Notably, the identification and the recognition of molecular and epigenetic mechanisms involved in the pathogenesis of such a heterogeneous disease, are providing new tools for a more successful and ‘targeted’ approach. Azacitidine is a hypomethylating agent (HMA) with relevant activity in patients affected by myelodysplastic syndrome (MDS) and AML with low blast cells percentage (>30%), in terms of reduction of transfusion dependence, and improvement of quality of life. Areas covered: This review summarizes the mechanism of action, safety profile and efficacy of azacitidine in the field of elderly AML populations, providing up-to-date references on this subset of high-risk patients. Expert opinion: HMAs are the first successful treatment for elderly patients with high-risk MDS and are effective for some AML subtypes. Translational studies based on gene expression profiling and molecular sequencing, would be able to identify, in the near future, patients with a favorable profile of response to these compounds suggesting new potential treatment combinations also.