ALBERT

Description: Electronic cigarettes (e-cigs) are marketed as safer alternatives to tobacco cigarettes and have shown to reduce their consumption. Here we report for the first time the effects of e-cigs on subjective and objective asthma parameters as well as tolerability in asthmatic smokers who quit or reduced their tobacco consumption by switching to these products. We retrospectively reviewed changes in spirometry data, airway hyper-responsiveness (AHR), asthma exacerbations and subjective asthma control in smoking asthmatics who switched to regular e-cig use. Measurements were taken prior to switching (baseline) and at two consecutive visits (Follow-up/1 at 6 (±1) and Follow-up/2 at 12 (±2) months). Eighteen smoking asthmatics (10 single users, eight dual users) were identified. Overall there were significant improvements in spirometry data, asthma control and AHR. These positive outcomes were noted in single and dual users. Reduction in exacerbation rates was reported, but was not significant. No severe adverse events were noted. This small retrospective study indicates that regular use of e-cigs to substitute smoking is associated with objective and subjective improvements in asthma outcomes. Considering that e-cig use is reportedly less harmful than conventional smoking and can lead to reduced cigarette consumption with subsequent improvements in asthma outcomes, this study shows that e-cigs can be a valid option for asthmatic patients who cannot quit smoking by other methods.

Description: Introduction Tyrosine Kinase Inhibitors (TKI) have completely changed the scenario of CML and dramatically improved the outcomes. Thus, early identification of patients expecting poor outcome is crucial to offer alternative TKI regimens or in some selected cases stem cell transplantation before disease progression may occur. The Evaluating Nilotinib Efficacy and Safety in Trial as First-Line Treatment (ENEST1st) is a phase 3b is an open-label study of nilotinib 300 mg twice daily (BID) in adults with newly diagnosed BCR-ABL positive CP-CML. Aim of the ENEST1st sub-study N10 was to investigate BM microenvironment markers that regulate leukemic stem cells in the bone marrow (BM) niche of Nilotinib-treated patients. Methods The study enrolled patients in 21 Italian ENEST1st participating centers. Response was based on ELN recommendations (Baccarani M, et al. Blood 2013 122:872-884). In an interim analysis, molecular and cytogenetic response by 24 months was assessed. Mononuclear cells were collected from BM and PB samples at the screening visit (V0) and after 3 months of treatment (V4). RT-qPCR for the expression of 10 genes (ARF, KIT, CXCR4, FLT3, LIF, NANOg, PML, PRAME, SET and TIE), involved in the stemness and hematopoietic stem cells survival signaling regulation was conducted. RT-qPCR data were normalized by the expression of GUS mRNA (normalized copy number, NCN). Plasma samples were collected at different time points from both BM or PB samples. Concentrations of 20 different analytes, including IL-1a, IL-3, M-CSF, SCF, SDF1-a, TRAIL, HGF, PDGF-bb, IL1b, IL-6, IL-7, IL-8, IL-10, IL-12, IL-15, G-CSF, GM-CSF, MIP-1a, TNF-a, and VEGF, were simultaneously evaluated using commercially available multiplex bead-based sandwich immunoassay kits. Results 33 out of 37 patients enrolled were available for an interim molecular analysis at 24 months: an optimal response was achieved in 25 patients, a warning response in 5 patients and a failure response in 3 patients. We observed a significant correlation between the expression of two genes involved in the regulation of stem cell pluripotency (NANOg) or cytokine signaling (SET) and patient outcome. Indeed, NANOg and SET mRNA were significantly down-regulated in PB samples at diagnosis of patients with optimal response compared to patients with warning/failure response (NANOg mRNA: 0.3±0.25 NCN vs 0.6±0.7 NCN, respectively; p=0.05; SET mRNA: 0.2±0.3 NCN vs 2.3±4.2 NCN, respectively; p=0.03). We also investigated the plasma level of several factors involved in the hematopoietic stem cells (HSCs). Some of these markers showed a significant correlation with patient's outcome when evaluated at diagnosis in either PB or BM samples. Indeed, high level of IL12 (in the BM samples), or HGF, mCSF and SCF (in the PB samples) were associated to a worst prognosis markers, since significantly correlating with no MMR@12months (IL12, p=0.03), intermediate/high Socal score (mCSF, p=0.03; SCF, p=0.03), no reduction of MMR below to 1 at 3 month (SCF, p=0.04) or warning/failure response to Nilotinib treatment (HGF, p=0.03; SCF, p=0.04). Indeed, we find a lower levels of PDGFb, SDF1, TNFa, TRAIL (in the BM samples), and HGF, SDF1, TRAIL (in the PB samples) in those patients with intermediate/high Hasford or Sokal score (PDGFb, p=0.0007; SDF1, p=0.02), warning/failure response to Nilotinib treatment (HGF, p=0.03) or lacking of MMR4.0 (SDF1, p=0.01; TNFa, p=0.02; TRAIL, p=0.05). Conclusion/Summary Taken together, our results suggest that the expression analysis of genes involved in cell pluripotency (NANOg) and/or cell signaling (SET) at baseline, may indicate early achievement of deep molecular response in shown CML-CP patients treated with nilotinib. In addition, in patients with optimal response to Nilotinib, high concentration of SDF-1, TRAIL (inversely correlated with BCR-ABL, and associated to an higher susceptibility to apoptosis in the leukemic blasts) were observed as well as BM TNF (cell-extrinsic and potent endogenous suppressor of HSC activity). A lower concentration of several factors associated to hematopoietic progenitor cell growth and survival (including HGF, SCF and IL12) were observed compared to patients failing to achieve response to Nilotinib. These data strongly suggest that stromal microenvironment supports the viability of BCR-ABL cells in BM niches through direct feeding, or environment releasing of survival factors. Disclosures Soverini: Novartis, Briston-Myers Squibb, ARIAD: Consultancy. Martinelli:MSD: Consultancy; BMS: Speakers Bureau; Roche: Consultancy; ARIAD: Consultancy; Novartis: Speakers Bureau; Pfizer: Consultancy. Saglio:Bristol-Myers Squibb: Consultancy, Honoraria; Pfizer: Consultancy, Honoraria; ARIAD: Consultancy, Honoraria; Novartis Pharmaceutical Corporation: Consultancy, Honoraria. Galimberti:Novartis: Employment. Giles:Novartis: Consultancy, Honoraria, Research Funding. Hochhaus:Pfizer: Honoraria, Research Funding; Bristol-Myers Squibb: Honoraria, Research Funding; ARIAD: Honoraria, Research Funding; Novartis: Honoraria, Research Funding.

Description: Abstract 2795 In the era of molecular target therapy, whereas Imatinib has shown an overall survival rate of 85% and an estimated event-free survival of 55% in a 8 year result update of IRIS trial, several in vitro data have confirmed that Ph+ stem cells housed within BM niches are resistant to TKI treatments. Second generation TKI Nilotinib has been designed with improved target specificity over Imatinib. Its efficacy in the treatment of patients with CML who are resistant to or intolerant to Imatinib led to the registration of a clinical trial CAMN107EIC01, a phase IIIb, multicentre, open-label study applying Nilotinib in the treatment of newly diagnosed CML. The aim of the current study (CAMN107EIC01 sub-study N10) is to define BM microenvironment markers that nurture and determine leukemic stem cell fate in the BM niches of Nilotinib treated patients. We enrolled 37 patients involving 21 Italian centers, from whom written informed consent has been obtained for sub-study N10. Patients have been monitored by Real Time RT-PCR (RT-qPCR) for the expression of the fusion mRNA BCR-ABL, as specified by the core protocol. Major Molecular Response (MMR) is defined as detectable disease ≤0.1% BCR-ABL according to the international scale (IS). Plasma and mononuclear cells have been collected from BM and PB samples of the enrolled patients at the screening visit (V0) and after 3 months of treatment (V4). We purified total RNA from BM and PB mononuclear cells of the enrolled patients to screen by RT-qPCR the expression of 10 genes (ARF, cKIT, CXCR4, FLT3, LIF, NANOg, PML, PRAME, SET and TIE), involved in the regulation of the stemness and survival signaling of hematopoietic stem cells. RT-qPCR results were normalized by the expression of ABL mRNA (Normalized mRNA copy Number: NCN). Moreover, we evaluated by multiplex ELISA assay BioPlex, the BM plasma concentration level of 20 cytokines (IL1a, IL1b, IL3, IL6, IL7, IL8, IL10, IL12, IL15, G-CSF, M-CSF, SCF, SDF1, TRAIL, HGF, PDGFbb, GM-CSF, MIP-1a, TNFa and VEGF), known to be key factors in the interaction of Ph+ stem cells to BM microenvironment. The interim analysis of MMR until the 12th month is available in 26 out of 37 enrolled patients. We observed that MMR is achieved during the first 12 months of treatments in 17 out of 26 (65%) patients. Molecular analysis showed that the expression of two genes involved in the regulation of stem cell pluripotency (NANOg) and cytokine signaling (SET) were significantly down-regulated at V0 in PB mononuclear cells of patients achieving MMR in comparison to cells from non-responding patients (4vs21 NANOg NCN, p=0.05; 8vs32 SET NCN, p=0.05). These data were also confirmed on BM patient's sample. Moreover, we investigated the concentration level of the above-mentioned soluble factors in BM plasma samples of all 37 enrolled patients at both V0 and V4. We observed that the BM plasma level of several cytokines produced by leukemic cells significantly decreased during the first 3 months of Nilotinib treatment: IL3 (54vs3ng/ml; p=0.02), M-CSF (56vs12 ng/ml; p=0.005), SCF (170vs104 ng/ml; p=0.007), HGF (7565vs705 ng/ml; p

Description: In view of the exciting results reported in patients with CD19+ malignancies given CAR T cells, it is expected that a continuously growing number of patients will be offered this treatment and, thus, will be exposed to gene-modified products. Since the techniques of gene manipulation are relatively new, some of the risks associated to CAR T therapy may be unpredictable. Recently, two patients who relapsed with CD19-, CAR-expressing leukemia were reported, this observation being interpretable in light of an inadvertent leukemic cell transduction with the second generation CAR.CD19 lentivirus during CAR T cell manufacturing (Lacey, ASH, 2016 128:281). Immunoglobulin heavy chain sequencing analysis of 17 additional infusion products also identified the leukemic clonotypes in six additional products (86%). In vitro and in vivo experiments proved that these CAR+ leukemic clones were not killed by CAR.CD19 T cells (Ruella, ASH, 2017 130:4463). Since lentiviruses proved to be superior for transduction of quiescent hematopietic stem cells due to their ability to infect non-dividing cells, we hypothesized that CAR-T cell manufacturing based on the genetic modification of T cells by gammaretroviral vector could theoretically represent a safe approach. Peripheral blood or bone marrow (BM)-derived mononuclear cells of patients with 〉40% of blasts at diagnosis (CD45dim+/CD34+/CD19+/CD22+/CD10+), were transduced with a retrovirus encoding for a second generation CAR.CD19.41bb.z in frame with a suicide gene (i.e., inducible caspase 9, iC9) employed in the academic Clinical Trial (NCT03373071) run at the Bambino Gesù Children's Hospital, Rome, Italy. Patient-derived CAR-T cells showed a phenotype not significantly different from that found on CAR-T cells generated by healthy-donors (data not shown). In particular, we demonstrated that both flow-cytofluorimetry and RealTime-quantitative PCR (with a sensitivity up to 10-5) failed to identify leukemic cells in the final CAR-T cell products generated from Bcp-ALL patients. To generate an in vitro model of CAR+ leukemic cells, we genetically modified CD19+ RAJI and DAUDI cell lines with the bicistronic retroviral vector carrying both second generation CAR.CD19 and the suicide gene iC9 (iC9.CAR-RAJI and iC9.CAR-DAUDI). We demonstrated the possibility of promptlyeliminating CAR+ leukemic cells, through exposure to 20nM of AP1903 of iC9.CAR-DAUDI and iC9.CAR-RAJI cells. Indeed, very early activation (6 hours) of the suicide gene iC9 resulted into a significant reduction in the percentage of CAR+ RAJI leukemic cells (Fig.A). The presence of iC9.CAR.CD19 molecule on leukemic cells precluded the detection of the CD19 antigen, whereas cells retain the expression of all other specific B-lineage markers. CD19 antigen started to be detectable 72 hours after AP1903 exposurewhen CAR negative leukemic cells become preponderant. To demonstrate that CD19 antigen was not down-regulated, but only masked by CAR molecule in iC9.CAR-RAJI and iC9.CAR-DAUDI cell lines, we measured CD19 mRNA, showing no significant modification with respect to wild-type (WT) RAJI and DAUDI cell lines. Moreover, iC9.CAR-RAJI and iC9.CAR-DAUDI cell lines were effectively eliminated by CAR.CD19 T cells (12.5±13.7% and 3.4±4.3% residualleukaemia, respectively) at the same extent of WT cell line (0% and 0.08±0.1%, residual leukaemia, respectively; p〉0.05 Fig.B). To assess if patient-derived iC9.CAR.CD19 T cells were able to generate leukemia in vivo mouse model, NSG female mice were infused i.v. with 10x106 CAR-T cells and control NT-T cells. Mice were monitored for a total period of 250 days, by recurrent bleed. Simultaneously, another cohort of mice was infused with patient-derived BM cells (5x106) and monitored for the same time. Mice infused with Bcp-ALL BM cells developed leukemia-phenotype,with 82% of cells expressing hCD45dim and hCD19. By contrast, mice receiving patient-derived CAR-T cells showed a lowpercentage of CD45+ cells (0.1±0.01%), all CD3+. Despite the long period of observation, we did not detect any expansion of hCD19+ cells in this animal cohort. Taken together these data suggest that the use of a retroviral platform, associated with the presence of iC9 suicide gene, contributes to the genesis of a highly functional and safe CAR-T product, even when the production starts from a biological material characterized by high contamination of leukemic blasts. Disclosures Locatelli: Amgen: Honoraria, Membership on an entity's Board of Directors or advisory committees; Miltenyi: Honoraria; bluebird bio: Consultancy; Bellicum: Consultancy, Membership on an entity's Board of Directors or advisory committees; Novartis: Consultancy, Membership on an entity's Board of Directors or advisory committees.

Description: Prognosis of a significant proportion of patients with chemotherapy-refractory or multiply-relapsed CD30+ Non-Hodgkin's Lymphoma (NHL) or Hodgkin lymphoma (HL) still remain poor. Targeting CD30 with monoclonal antibodies in HL and anaplastic large cell lymphoma was shown to induce remarkable clinical activity; however, occurrence of adverse events (mainly neuropathy) may result into treatment discontinuation in many patients. Immunotherapeutic approaches targeting CD30 by chimeric antigen receptor (CAR) has been demonstrated to be of value in two independent clinical trials, although clinical benefit was sub-optimal. We designed a new CAR construct characterized by an anti-CD30 single-chain variable-fragment cassette (AC10), linked to CD3ζ by the signaling domains of two costimulatory molecules, namely either CD28.4-1BB or CD28.OX40. The inducible Caspase-9 (iCasp9) safety switch was included in both constructs with the goal of promptly controlling undue toxicity. As a selectable marker, we added in frame the CD34 antigen. The in vitro anti-tumor efficacy was evaluated by using either the NHL cell line: Karpas299, or the HL cell lines: L428, in both short-term cytotoxic assay (51Cr release assays) and long-term co-cultures for 6 days. Supernatant from co-culture experiments was analyzed by Elisa. We assessed the antitumor effect of CAR.CD30 T cells in a in vivo NSG mouse model engrafted i.v. with lymphoma FF-luciferase cell lines Karpas299 or L428, and monitored tumor growth by IVIS Imaging system. For tumor re-challenging, mice of the NHL model surviving until day +140, were i.v. infused with 0.2x106 Karpas299 cells, and subsequently followed for additional 110 days. Persistence of CAR.CD30 T cells was evaluated, together with a deep characterization of memory profile of T cells. Independently from the costimulatory domains CD28.OX40 or CD28.4-1BB, the generated retroviral vectors showed similar transduction efficiency of T cells (86.5±5.1% and 79.3±5.3%, respectively). Nevertheless, CD28.OX40 costimulatory domains was associated with more stable expression of the CAR over time, during extensive in vitro culture (84.72±5.30% vs 63.98±11.51% CD28.4-1BB CAR T cells at 30 days after transduction; p=0.002). For both CAR constructs, we did not observe any significant difference in the suicide gene iCasp9 activity, both in vitro and in vivo. In short-term cytotoxic assay, both CAR.CD30 T cells significantly and specifically lysed CD30+ NHL and HL tumor cell lines. In long-term co-culture, CD28.OX40 showed a superior anti-lymphoma in vitro activity as compared to CD28.41BB T cells, when challenged at very high tumor/effector ratio (8:1) (for Karpas 299; p=0.03). Moreover, the antigen stimulation was associated to higher levels of Th1 cytokine production, with CD28.OX40 T cells secreting a significantly higher amount of IFNγ, IL2 and TNFα as compared to CD28.41BB T cells (p= 0.040; p=0.008; p=0.02; respectively). Bioluminescence in HL (L428) tumor-bearing mice, treated with NT T cells, rapidly increased up to 5 log in less than 50 days and mice either died or were sacrificed due to morbidity. The best outcome was observed in mice treated with CD28.OX40, as three out of five mice were still alive at the experimental end-point of day+165, as compared with mice treated with CD28.4-1BB (60% vs 0%, p=0.0021). In NHL (Karpas 299) mouse models, CD28.OX40 had an extensive anti-tumor control superior to that of CD28.41BB T cells, leading to a significant reduction of tumor bioluminescence at day 45 (3.32x10 vs 2.29x10, p=0.04). The median survival of mice treated with NT and CD28.4-1BB CAR T cells was 45.5 and 58 days respectively, but undetermined for mice treated with CD28.OX40 CAR T cells (p=0.0002). After 140 days, cured mice were re-challenged with Karpas 299; mice were followed for other 100 days. Bioluminescence analysis showed rapid progression of the tumor in the control mice cohort, as well as in CD28.4-1BB treated mice. In contrast, in CD28.OX40 treated mice, at day+240 days, 4 out of 6 mice were tumor-free, resulting into a statistically significant survival benefit (p=0.0014). Only in mice treated with 28.OX40 T cells, we observed a long-lasting persistence of circulating CAR-T cells up to day +221. In summary, we have developed a novel CAR.CD30 construct displaying features that make it a particularly suitable candidate for a clinical trial in patients suffering from CD30+ tumors. Disclosures Merli: Novartis: Honoraria; Sobi: Consultancy; Amgen: Honoraria; Bellicum: Consultancy. Locatelli:Novartis: Consultancy, Membership on an entity's Board of Directors or advisory committees; Bellicum: Consultancy, Membership on an entity's Board of Directors or advisory committees, Speakers Bureau; BluebirdBio: Consultancy; Miltenyi: Honoraria; Amgen: Consultancy, Membership on an entity's Board of Directors or advisory committees, Speakers Bureau.

Description: Based on the clinical success observed in acute lymphoblastic leukemia (ALL) with chimeric antigen receptor engineered T (CAR T), we hypothesized that combining the specificity of a CAR with the innate allo-reactivity of KIR-mismatched NK cells might provide a powerful tool for adoptive cell therapy. The use of a third-party bank of CAR-NK cells offers the advantage of an immediate availability to be exploited in the allogenic setting and could be associated with a lower toxicity profile than CAR-T cells. In order to overcome regulatory and manufacturing hurdles associated with generation of CAR-NK cells, we developed a feeder-free culture resulting in a 3.2-log expansion after 20 days of culture. Specifically, natural cytotoxicity receptors (NCR) expressed on NK cells are stimulated in the presence of pleiotropic cytokines and expanded in GMP grade bioreactors. Expanded NK cells from healthy donors preserve a high percentage of CD56+ CD57- cells (85±13%), associated with high proliferative capability, and maintain the surface expression and the responsiveness of NCR and CD16. We proved that NK cells generated from 10 different healthy donors have high ability to recognize and eliminate different tumor types, including acute myeloid leukemia (AML) and ALL. After genetic modification with a retroviral vector encoding a CAR specific for CD19 antigen, transduction of activated NK cells averaged 38%±15% and the CAR.CD19 expression was stable over extended in vitro culture (60 days). Detailed phenotypic characterization of CAR-NK cells showed that CAR expression was not limited to the more mature NKG2A-/KIR+ cells, but rather was distributed across different NK subsets. We also demonstrated that NK and CAR-NK cells display significant anti-leukemia activity towards CD19+ leukemia and lymphoma cell lines (LCL 721.221, DAUDI and BV173) and primary blasts obtained from patients with B-cell precursor ALL (Bcp-ALL). Co-culture experiments using a 1:5 E/T ratio, showed that, while the anti-tumor activity was already remarkable with non-modified effector NK cells (60±30%, 71±33% and 54±23% of residual LCL 721.221, DAUDI and BV173 cells, respectively; p

Description: Introduction. Interferon alpha (IFN-α) is an attractive agent for the treatment of Essential Thrombocythemia (ET) due to its ability to induce clonal complete remission, sometimes lasting beyond treatment discontinuation, and to its recognized non-leukemogenicity. However, despite decades of clinical experience with IFN-α in patients with MPNs, optimal dose schedules, treatment duration and the ultimate molecular basis of the heterogeneous response still remain undefined. Hence, the early identification of IFN-sensitive patients may help limit IFN-α exposure to those who really benefit from treatment. Aim. Here we report the results of a trial involving 61 ET patients treated with IFN-α, aimed to identify the baseline molecular and clinical parameters able to predict response to treatment. Methods. IFN treatment schedule implied an initial induction phase with 3MU/five times a week; in patients who reached a platelet count 600x109/L or platelet reduction was

Description: Woolsey Mound, a 1km-diameter carbonate-gas hydrate complex in the northern Gulf of Mexico, is the site of the Gulf’s only seafloor monitoring station-observatory in its only research reserve, Mississippi Canyon 118. Active venting, outcropping hydrate, and a thriving chemosynthetic community recommend the site for study. Since 2005, the Gulf of Mexico Hydrates Research Consortium has been conducting multidisciplinary studies to 1. Characterize the site, 2. Establish a facility for real-time monitoring-observing of gas hydrates in a natural setting, 3. Study the effects of gas hydrates on seafloor stability, 4. Establish fluid migration routes and estimates of fluid-flux at the site, 5. Establish the interrelationships between the organisms at the vent site and the association-dissociation of hydrates. A variety of novel geological, geophysical, geochemical and biological studies has been designed and conducted, some in survey mode, others in monitoring mode. Geophysical studies involving merging multiple seismic data acquisition systems accompanied by the application of custom processing techniques verify communication of surface features with deep structures. Supporting geological data derive from innovative recovery techniques. Geochemical sensors, used experimentally in survey mode, including aboard an AUV, double as monitoring devices. A suite of pore-fluid sampling devices has returned data that capture change at the site in daily increments; using only noise as an energy source, hydrophones have returned daily fluctuations in physical properties. Ever-expanding capabilities of a custom-ROV have been determined by research needs. Processing of new as well as conventional data via unconventional means has resulted in the discovery of new features…..vents, faults, benthic fauna…..and modification of others including pockmarks, hydrate outcrops, vent activity, and water-column chemical plumes. Though real-time monitoring awaits communications and power link to land, periodic data-collection reveals a carbonate-hydrate mound, part of an immensely complex hydrocarbon system.