BackgroundThe Drosophila abnormal wing discs (awd) belongs to a highly conserved family of genes implicated in metastasis suppression, metabolic homeostasis and epithelial morphogenesis. The cellular function of the mammalian members of this family, the Nm23 proteins, has not yet been clearly defined. Previous awd genetic analyses unraveled its endocytic role that is required for proper internalization of receptors controlling different signaling pathways. In this study, we analyzed the role of Awd in controlling Notch signaling during development.ResultsTo study the awd gene function we used genetic mosaic approaches to obtain cells homozygous for a loss of function allele. In awd mutant follicle cells and wing disc cells, Notch accumulates in enlarged early endosomes, resulting in defective Notch signaling. Our results demonstrate that awd function is required before γ-secretase mediated cleavage since over-expression of the constitutively active form of the Notch receptor in awd mutant follicle cells allows rescue of the signaling. By using markers of different endosomal compartments we show that Notch receptor accumulates in early endosomes in awd mutant follicle cells. A trafficking assay in living wing discs also shows that Notch accumulates in early endosomes. Importantly, constitutively active Rab5 cannot rescue the awd phenotype, suggesting that awd is required for Rab5 function in early endosome maturation.ConclusionsIn this report we demonstrate that awd is essential for Notch signaling via its endocytic role. In addition, we identify the endocytic step at which Awd function is required for Notch signaling and we obtain evidence indicating that Awd is necessary for Rab5 function. These findings provide new insights into the developmental and pathophysiological function of this important gene family.
PI-PLCβ1 is involved in cell proliferation, differentiation, and myelodysplastic syndrome (MDS) pathogenesis. Moreover, the increased activity of PI-PLCβ1 reduces the expression of PKC-α, which, in turn, delays the cell proliferation and is linked to erythropoiesis. Lenalidomide is currently used in low-risk patients with MDS and del(5q), where it can suppress the del(5q) clone and restore normal erythropoiesis. In this study, we analyzed the effect of lenalidomide on 16 patients with low-risk del(5q) MDS, as well as del(5q) and non-del(5q) hematopoietic cell lines, mainly focusing on erythropoiesis, cell cycle, and PI-PLCβ1/PKC-α signaling. Overall, 11 patients were evaluated clinically, and 10 (90%) had favorable responses; the remaining case had a stable disease. At a molecular level, both responder patients and del(5q) cells showed a specific induction of erythropoiesis, with a reduced γ/β-globin ratio, an increase in glycophorin A, and a nuclear translocation of PKC-α. Moreover, lenalidomide could induce a selective G/G arrest of the cell cycle in del(5q) cells, slowing down the rate proliferation in those cells. Altogether, our results could not only better explain the role of PI-PLCβ1/PKC-α signaling in erythropoiesis but also lead to a better comprehension of the lenalidomide effect on del(5q) MDS and pave the way to innovative, targeted therapies.-Poli, A., Ratti, S., Finelli, C., Mongiorgi, S., Clissa, C., Lonetti, A., Cappellini, A., Catozzi, A., Barraco, M., Suh, P.-G., Manzoli, L., McCubrey, J. A., Cocco, L., Follo, M. Y. Nuclear translocation of PKC-α is associated with cell cycle arrest and erythroid differentiation in myelodysplastic syndromes (MDSs).
The efficient treatment of hematological malignancies as Acute Myeloid Leukemia, myelofibrosis and Chronic Myeloid Leukemia, requires the elimination of cancer-initiating cells and the prevention of disease relapse through targeting pathways that stimulate generation and maintenance of these cells. In mammals, inhibition of Smoothened, the key mediator of the Hedgehog signaling pathway, reduces Chronic Myeloid Leukemia progression and propagation. These findings make Smo a candidate target to inhibit maintenance of leukemia-initiating cells. In Drosophila melanogaster the same pathway maintains the hematopoietic precursor cells of the lymph gland, the hematopoietic organ that develops in the larva. Using Drosophila as an in vivo model, we investigated the mode of action of PF-04449913, a small-molecule inhibitor of the human Smo protein. Drosophila larvae fed with PF-04449913 showed traits of altered hematopoietic homeostasis. These include the development of melanotic nodules, increase of circulating hemocytes, the size increase of the lymph gland and accelerated differentiation of blood cells likely due to the exit of multi-potent precursors from quiescence. Importantly, the Smo inhibition can lead to the complete loss of hematopoietic precursors. We conclude that PF-04449913 inhibits Drosophila Smo blocking the Hh signaling pathway and causing the loss of hematopoietic precursor cells. Interestingly, this is the effect expected in patients treated with PF-04449913: number decrease of cancer initiating cells in the bone marrow to reduce the risk of leukemia relapse. Altogether our results indicate that Drosophila comprises a model system for the in vivo study of molecules that target evolutionary conserved pathways implicated in human hematological malignancies.
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.
Introduction. Azacitidine (AZA) is the standard of care of higher-risk myelodysplastic syndromes (MDS), but the duration of clinical response is limited, and outcome after AZA failure is dismal. Several studies have demonstrated the efficacy and safety of combining AZA with Lenalidomide (LEN), either administered concurrently or sequentially, however the optimum dose and schedule for this combination remains unknown. The aim of this study was to evaluate the efficacy and safety of the combination vs the sequential use of AZA and LEN in higher-risk MDS pts (IPSS score risk: High or INT-2), and to look for possible biomarkers able to predict response. Primary endpoint: ORR, defined as the Rate of Complete Remission (CR), Partial Remission (PR), Marrow Complete Remission (mCR), and Hematological Improvement (HI), following the International Working Group (IWG) criteria (Cheson, 2006). Methods. This is a randomized, phase II, multicenter, open label study, including pts with MDS (WHO 2008 classification) with International Prognostic Scoring System (IPSS) risk High or Intermediate-2, without previous treatment with AZA or LEN. ARM 1 (combined treatment): AZA: 75 mg/m2/day (days 1-5) I.C. + LEN: 10 mg/day (days 1-21), orally, every 4 weeks. ARM 2 (sequential treatment): AZA: 75 mg/m2/day (days 1-5) I.C. + LEN: 10 mg/day (days 6-21), orally, every 4 weeks. The induction treatment was planned for 8 cycles (32 weeks). For responder patients (CR, PR, mCR, or HI) the same treatment was continued until disease progression or unacceptable toxicity. A sample size of 44 pts was planned. Results. From March 2013, 44 pts (27 males), with a median age of 72 (48-83 yrs) were enrolled, from 13 hematologic italian Centers. At baseline, IPSS risk was: Intermediate-2: 31 pts; High: 9 pts; not determined (N.D.) (because of lack of cytogenetic data): 2 pts. (all with RAEB-2). In 2 pts IPSS risk was Intermediate-1, but they were enrolled because of severe thrombocytopenia and neutropenia, respectively. IPSS-R risk was: intermediate: 8 pts; High: 16 pts; Very-High: 18 pts; N.D.: 2 pts. In 5 pts (11.4%) del(5q) was present. 21 pts were randomly assigned to ARM 1, and 23 pts to ARM 2. 34/44 pts (77.3%) completed ≥ 6 cycles of treatment, and are evaluable for response. The remaining 10 pts (4 in ARM 1 and 6 in ARM 2) are not evaluable for response, as they discontinued treatment before completing the 6th cycle because of adverse events (6 pts, 13.6%), consent withdrawal (2 pts, 4.5%) or medical decision (2 pts, 4.5%), respectively. Treatment was given for a median of 8.5 (1-37) cycles; in ARM 1: 9 (1-32) cycles, in ARM 2: 8 (1-37) cycles, respectively. 6 pts (ARM 1: 2; ARM 2: 4) are still on treatment. Pts have been followed for a median of 15 (2-37) months for all subjects, for a median of 32 (18-37) months for survivors. Among the 34 pts evaluable for response, 26/34 pts (ORR: 76.5 %) showed a favourable response to treatment. The Best Response achieved was: CR: 8 pts (23.5%), PR: 1 pt (2.9%), mCR: 3 pts (8.8%), HI: 8 pts (23.5%), mCR+HI: 6 pts (17.6%). The remaining 8 pts showed either Stable Disease (SD) (6 pts, 17.6%) or Disease Progression (DP) (2 pts, 5.9%). First Response was detected after a median of 2 (1-8) cycles. The median duration of hematologic response was 10.5 months. A grade > 2 non hematologic toxicity was observed in 54.5 % of pts, and an emerging (from grade 0-2 to > 2) hematologic toxicity in 27.3% of pts. In 61.4% of pts LEN dose was reduced because of hematologic or non-hematologic toxicity. 32 pts (72.7%) died , and 17 pts (38.6%) showed progression to AML. Median overall survival (OS) was 15 months. No significant differences between the 2 arms were observed, in terms of ORR, CR rate, toxicity, AML incidence and OS, but there was a trend (although still not significant) towards a longer median duration of response in the sequential arm: ARM 1: 6 months; ARM 2: 18 months (p=0.0847). MDS cells showed alterations of the inositide-dependent signalling as well as an altered microRNA profile. In particular, responder cases showed a frequent downregulation of miR-3613 and mir-4668, that were upregulated in non responder cases. Further analyses are ongoing. Conclusions. Our results confirm the efficacy of both AZA+LEN treatment regimens in higher-risk MDS pts, in terms of ORR, although the sequential schedule seems to induce more durable responses. Moreover, possible relationships with signal transduction pathways and microRNA profile are under evaluation. Disclosures Finelli: Novartis: Other: Speaker fees; Celgene: Other: Speaker fees; Celgene: Research Funding. Gobbi:Janssen: Consultancy, Honoraria; Novartis: Consultancy, Research Funding; Roche: Honoraria; Takeda: Consultancy; Gilead: Honoraria; Celgene: Consultancy; Mundipharma: Consultancy, Research Funding. Cavo:Bristol-Myers Squibb: Consultancy, Honoraria; Millennium: Consultancy, Honoraria; Celgene: Consultancy, Honoraria; Amgen: Consultancy, Honoraria; Janssen-Cilag: Consultancy, Honoraria.
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