Chronic Lymphocytic Leukemia Lymphocytes Research Articles

Metabolic profiling of CD19+ cells in chronic lymphocytic leukemia by single-cell mass spectrometry imaging

Background and aimsModern mass spectrometry imaging (MSI) enables single cells’ metabolism exploration. Aims of this study were development of the single-cell MSI of human CD19+ lymphocytes and metabolic profiling of chronic lymphocytic leukemia (CLL). Materials and methodsBlood donor (BD) samples were used for the optimization of CD19+ lymphocyte isolation and single-cell matrix-assisted laser desorption/ionization time-of-flight (MALDI TOF) MSI. Independent set of 200 CD19+ lymphocytes coming from 5 CLL patients and 5 BD was used for the CD19+ lymphocytes classification assessment and the untargeted metabolic profiling. CLL vs BD lymphocyte classification was performed using partial least squares-discriminant analysis (PLS-DA) using normalized single-cell mass spectra recorded in 300–600 and 600–950 Da ranges was applied. ResultsAccuracy assessed by 10-fold cross-validation of CD19+ lymphocyte PLS-DA classification reached >90.0 %. Volcano plots showed 106 significantly altered m/z signals in CLL of which 9 were tentatively annotated. Among tentatively annotated m/z signals formaldehyde and glutathione metabolites and tetrahydrofolate stand out. ConclusionA method for single-cell MALDI TOF MSI of CD19+ lymphocytes was successfully developed. The method confirmed the significance of oxidative stress and single-carbon metabolism, pyruvate and fatty acid metabolism and apoptosis in CLL and it provided metabolic candidates for diagnostic applications.

Coronado CLL: A Phase Ib/II Trial of Combination Rp-3500 and Olaparib in DNA Damage Repair Pathway Deficient Relapsed/Refract ory Chronic Lymphocytic Leukemia

Background: Genes within the DNA damage repair ( DDR) pathways are frequently mutated in relapsed/refractory ( R/R) chronic lymphocytic leukemia ( CLL) and clinically correlate with decreased response rates and shortened progression-free ( PFS) and overall survivals ( OS). The most commonly affected DDR genetic aberrations include deletion 17p13 [ del(17p)], deletion 11q22.3 [ del(11q)], and mutations in TP53, ATM, SF3B1, XPO1 and POT1. Due to their poor clinical outcomes, patients (pts) with DDR-deficient CLL remain an area of unmet need and the development of novel drugs and combinations will be critical to improving their prognosis. Mechanistically, CLL cells with DDR genetic alterations lack double-stranded DNA breakage repair and major cell cycle checkpoint pathways. Therefore, R/R CLL cells are dependent on single-stranded DNA breakage ( SSB) repair and alternative DNA replication arrest machinery to ensure DNA integrity, strand repair and cell survival. DNA damage at the replication fork is primarily recognized by ataxia telangiectasia and rad3 ( ATR) protein, which ensures mitotic arrest and recruitment of poly (ADP-ribose) polymerase ( PARP) based SSB repair mechanisms. In germline DDR-deficient breast and ovarian cancers with BRCA1/BRCA2 mutations, the use of both single agent PARP inhibitors ( PARPi) and ATR inhibitors ( ATRi) have led to significant disease response and improved OS. Furthermore, combination PARPi and ATRi have demonstrated synergistic activity in preclinical data producing increased apoptosis and cell death in BRCA2-mutated ovarian cell lines. In DDR-deficient CLL primary cell and murine models, single agent PARPi and ATRi have demonstrated significant cell death as compared to wildtype CLL and healthy donor lymphocytes. RP-3500 is a highly potent ATRi. In preclinical data generated in SUM149PT DDR-deficient breast cancer cell lines, combining RP-3500 with the PARPi, olaparib, substantially reduced tumor volume at lower doses than the previously determined maximum tolerated dose ( MTD) of each drug when used as monotherapy. Furthermore, intermittent dosing of both drugs (3 days per week) demonstrated equal cell apoptosis as continuous dosing. Therefore, we hypothesize that the combination of RP-3500 and olaparib will be a highly efficacious treatment for R/R DDR-deficient CLL pts and that the lower dosages and intermittent dosing schedule required of each drug when administered in combination will improve safety of the treatment. Study Design and Methods: This is a multi-site (University of Utah and the Ohio State University), phase Ib/II investigator-initiated clinical trial using combination RP-3500 and olaparib in R/R CLL pts with DDR pathway deficiencies to determine the safety and efficacy of the drug combination (NCT05405309). Primary objectives include determining the MTD in phase Ib leading to the recommended phase 2 dose ( RP2D), and overall response rate ( ORR) in phase II. Key secondary objectives include safety and tolerability, PFS, OS and duration of response of the combination. Eligibility: Key inclusion criteria include a diagnosis of CLL according to the 2018 iwCLL guidelines, age ≥18 years, ECOG performance status of ≤2, R/R after at least 2 prior lines of therapy. Primary CLL cells must exhibit any one of the following abnormalities: a) somatic mutation(s) in TP53, ATM, SF3B1, XPO1 or POT1, or b) positive FISH for either del(17p) or del(11q). Statistical Methods: Phase Ib: The phase Ib of the trial will utilizea keyboard design, which is a novel Bayesian method that typically underestimates the MTD. The target toxicity is 30% with an equivalence interval between 25-33% of pts. With an anticipated 3 dose levels ( DL) and an option for a DL-1, up to 18 pts may be required to determine the MTD and RP2D. Phase II: Any pt treated at the RP2D within phase Ib will be rolled into the phase II analysis for efficacy. With a planned 24 evaluable pts in phase II, the target ORR will be 60%, which was selected due to a recent phase I/II study of pirtobrutinib enrolling a similar CLL pt population demonstrating an ORR of the drug ~63%. ORR will be summarized by the observed proportion and an exact one-sided 95% confidence interval (Clopper-Pearson method). With 24 evaluable pts, the lower bound of the confidence interval will be approximately 17-20% below the observed proportion for observed ORR near 60%, which is an acceptable level of precision in a dose expansion cohort.

A Challenging Case of Central Nervous System Involvement (CNSi) with Chronic Lymphocytic Leukemia (CLL): A Case Report

Chronic Lymphocytic Leukemia (CLL) is a mature B cell neoplasm characterized by a progressive accumulation of monoclonal B lymphocytes. It manifests primarily in the blood. Infiltration of CLL lymphocytes outside of this site is relatively rare and is defined as extra medullary CLL

CLL-532 Changes in Proteome of CLL (Chronic Lymphocytic Leukemia) Lymphocytes During Investigator-Initiated Trial of Ibrutinib Alone and in Combination With Venetoclax in Treatment-Naïve Patients With CLL

Combined ibrutinib and venetoclax is an effective treatment for CLL. Our investigator-initiated-trial (NCT02756897) combining ibrutinib and venetoclax (Jain N. et al. NEJM. 380:2095,2018) demonstrated 72% achieving bone marrow u-MRD (undetectable minimal residual disease) status for patients with treatment-naïve (TN) CLL. These u-MRD status were durable (Jain N. et al. JAMA-Oncol. 7:1213,2021). These results were recapitulated in CAPTIVATE and GLOW trials. Our objective is to elucidate the proteomic landscape during therapy. Fourteen TN-CLL patients were selected from NCT02756897 trial. Ibrutinib was administered for 3 28-d-cycles; venetoclax was initiated starting at C4D1. Fifty-six peripheral blood samples from 14 patients were obtained at the baseline (C1D1), after one cycle of ibrutinib (C2D1), after 3 cycles of ibrutinib (C4D1) and in one week after venetoclax addition to ibrutinib (C4D8). Mass-spectrometry-based proteomic profiling was performed on these samples. Lysates of the cancer cells were trypsinized, and the peptides were fractionated by liquid chromatography and analyzed by untargeted mass spectrometry. Analysis of proteomic data yielded identification of >1,000 proteins per time-point. K-mean clustering combined with Gap-Statistics identified 8 cluster patterns. Overall, 70 proteins were up-regulated, and 116 proteins were down-regulated. Early changes included upregulation of nuclear pore proteins NUP214, NUP133 and NUP155 at C2D1. PCK2 and PCYT1A were significantly downregulated after ibrutinib treatment. UIMC and SGSH proteins were consistently upregulated throughout all timepoints. Seven selected proteins (AIF1, ARHGAP25, PCK2, PCYT1A, PPBP, PTPN6, S100A11) were further validated using immunoblot analyses. After 1 cycle of ibrutinib, pathways that dominated maximum changes were energy metabolism, cell death, B- and T-cell signaling, and immune response; these were maintained after 3 cycles of ibrutinib. Impact on transcription and protein synthesis inhibition initiated after first cycle of ibrutinib but dominated after 3 cycles of ibrutinib. After one week of venetoclax, at C4D8 timepoint, the main changes included transcription pathway, signal transduction and genes responsible for energy metabolism. Cytoskeleton related pathways are initially downregulated and become upregulated after the addition of venetoclax. The CLL lymphocytes during ibrutinib and venetoclax therapy displayed significant proteome differences compared to baseline. Further validation studies are ongoing to evaluate the roles of these proteins in CLL pathophysiology and therapy response.

The influence of venetoclax, used alone or in combination with cladribine (2-CdA), on CLL cells apoptosis in vitro: Preliminary results

Venetoclax (VEN), a highly selective BCL-2 inhibitor, is successfully used in the treatment of chronic lymphocytic leukemia (CLL). The purine analogue - cladribine (2-CdA) - is also administered to CLL patients, especially as a part of chemoimmunotherapy. To compare the effects of the VEN+2-CdA regimen with that of the 2 drugs used alone on the apoptosis of CLL lymphocytes in vitro. Mononuclear cells were collected from 103 previously untreated CLL patients. They were incubated with VEN (40 nM) or/and 2-CdA (16 μM) for 48 h. Cytotoxicity, overall apoptosis, mitochondrial transmembrane potential changes (ΔΨm), and expression of selected apoptosis-involved proteins were measured. The cytotoxicity, overall apoptosis, caspase-3 or caspase-9 expression, and ΔΨm were significantly higher after VEN+2-CdA addition compared to both drugs used alone, with a very strong synergistic effect observed. The percentage of BCL-2-positive cells decreased after VEN and VEN+2-CdA addition compared to controls. The TP53-expressing cells increased under the influence of all tested regimens. The VEN+2-CdA increased the expression of BIM, BAX and NOXA compared to either controls or VEN or 2-CdA alone. Similar increases in PUMA expression were observed after VEN, 2-CdA and VEN+2-CdA addition. The FAS-associated death-domain protein (FADD) expression was significantly higher after 2-CdA and 2-CdA+VEN addition as compared to control. Our results confirm the involvement of both VEN and 2-CdA in the intrinsic apoptotic pathway. They also demonstrate that these agents have a synergistic effect on CLL cells in vitro. Further studies are needed to assess the influence of VEN+2-CdA on the expression of apoptosis-involved genes.

A Phase II Clinical Trial of the Pan PI3K Inhibitor, Buparlisib, for the Treatment of Relapsed and Refractory Chronic Lymphocytic Leukemia: Canadian Cancer Trials Group IND.216

Introduction: Inhibition of the phospho-inositol 3 kinase (PI3K) delta isoform is effective in the treatment of relapsed and refractory chronic lymphocytic leukemia (CLL) (Pongas G, et al. Semin Oncol 2016; 43: 647). The efficacy of this class of drugs is limited by the potency of the inhibitor and its toxicity profile. Buparlisib is an orally available pan-Class I PI3K inhibitor which has greater potency than idelalisib in vitro . Low P70S6k and raptor levels, both of which are downstream regulators of the PI3K/mTOR pathway, correlate with sensitivity to PI3K inhibitor activity in CLL lymphocytes in vitro (Amrein L, et al. Int J Cancer 2013; 133: 247-52). The recommended phase II dose of buparlisib is 100 mg daily po and the main toxicities in Phase I were hyperglycemia, hypertension and mood disturbance (Bendell JC, et al. J Clin Oncol. 2012;30:282-90). We conducted a single arm phase II trial of buparlisib in patients with relapsed and refractory CLL (NCT02340780) and attempted to correlate response with P70S6k and raptor levels.Methods: Patients with CLL requiring re-treatment after at least one prior line of therapy were eligible. Buparlisib 100 mg daily was administered continuously on 28-day cycles with dose reductions to 80 mg and 60 mg in the event of toxicity. Mood questionaires (PHQ-9 and GAD-7) were administered at study entry and with each treatment cycle. The primary endpoint was overall response rate, defined according to the Revised International Workship on CLL (Hallek 2008) incorporating updated recommendations for novel targeted agents (Cheson 2012). Additional endpoints included safety, duration of response and progression free survival. Levels of P70S6k and raptor were measured in isolated CLL cells prior to therapy with buparlisib and compared with mean values as per Amrein et al. Int J Cancer 2013;133: 247-52).Results: Between April 2015 and January 2017, fourteen patients were enrolled; Rai stage high (n=7), intermediate (n=6) and low (n=1). Of these, 13 were eligible for toxicity (1 ineligible due to inadequate washout period) and 11 for response assessment (2 did not complete 1 cycle of therapy). The median age was 74 years (61-87), male:female 8:5, ECOG 0-1 and median number of prior therapies 1 (range 1-3). No patients received prior therapy with idelalisib or other PI3K inhibitor; 3 received prior ibrutinib, including the ineligible patient. Six of 13 patients had a partial response (46.2%, 95%, CI: 19.2,74.9%), with a median duration of response of 14.4 months. Five patients with a best response of stable disease all experienced tumor shrinkage (figure). There were no complete responses. Patients received a median of 5 cycles of therapy (range 1 to 20), the dose intensity was 485.6 mg per week and 27.3% received > 90% of planned doses. Ten patients have stopped protocol therapy, 1 for progressive disease and 9 for therapy-related adverse events: hyperglycemia (n=4), mood disorder (n=3), fatigue and generalized muscle weakness (n=1), elevated AST (n=1), hypertension (n=1) and thrombocytopenia (n=1). Mood disorders improved after stopping therapy in all 3 patients. The most common related adverse events (>15%) were diarrhea, nausea, fatigue, anorexia and dysguesia; all were <grade 3 except for fatigue. Hyperglycemia was seen in 9/13 patients. There were no related serious adverse events. Among the 8 patients tested, no correlation was observed between biomarker level and response or progression free survival.Conclusion: The response rates of single-agent idelalisib (Brown JR, et al. JCO ASCO Annual Meeting Abstracts. 2013;31 abstract 7003) and buparlisib are comparable with a different toxicity profile, making buparlisib another potential therapeutic option in CLL. Better mitigation of toxicity is required to make this an acceptable therapy for patients and rational drug combinations are needed to improve the efficacy of this agent. We could not confirm the importance of P70S6K or raptor in this small clinical trial. Validating these biomarkers in a larger cohort may help to predict which CLL patients are most likely to benefit from therapy with a PI3K inhibitor. [Display omitted] DisclosuresAssouline:Bristol Myer Squibb: Speakers Bureau; Novartis Canada Inc.: Honoraria; Pfizer: Speakers Bureau; Paladin: Speakers Bureau; Janssen: Honoraria. Banerji:Roche: Research Funding; Lundbeck: Research Funding; Abbvie: Research Funding; Janssen: Research Funding; Gilead: Research Funding. Caplan:Janssen: Honoraria. Owen:Roche: Consultancy, Honoraria, Research Funding; Lundbeck: Honoraria; Gilead: Honoraria, Research Funding; Janssen: Honoraria; AbbVie: Honoraria; Celgene: Honoraria; AstraZeneca: Honoraria; Pharmacyclics LLC, an AbbVie Company: Research Funding. Robinson:Gilead: Honoraria; Roche: Honoraria; Janssen: Honoraria; Lundbeck: Honoraria; Abbvie: Honoraria. Prica:Celgene: Honoraria; Janssen: Honoraria. Peters:Abbvie: Honoraria; Roche: Honoraria; Lundbeck: Honoraria; Gilead: Honoraria; Janssen: Honoraria. Hay:Roche: Research Funding; Abbvie: Research Funding; Kite: Research Funding; Amgen: Research Funding; Celgene: Research Funding; Janssen: Research Funding; Novartis: Research Funding.

Primary Chronic Lymphocytic Leukemia Cells Can be Maintained Long-Term in Serum-Free, Cytokine-Free 3D Culture

Chronic Lymphocytic Leukemia (CLL) cells undergo rapid and spontaneous apoptosis when cultured in vitro, challenging the study of disease biology. Conventional CLL culture platforms are dependent on addition of high concentrations of soluble molecules, animal- derived serum, adhesion proteins or allogeneic/xenogeneic stromal cells. We have hypothesized that a three-dimensional (3D) architecture may create a niche-like culture system, enabling CLL cell maintenance within a self-perpetuating microenvironment, in the absence of additional growth factors.In order to assess optimal culture parameters, several conditions were tested: (1) Initial seeding densities (2, 10 and 40 x 106 cells/scaffold); (2) Culture media (IMDM or RPMI + 10% FBS, StemSpan SFEM and Hybridoma SFM); (3) Oxygen tension (21% or 5% O2) and (4) Scaffold coating (uncoated, collagen, RGD). Primary mononuclear cells were seeded onto polyurethane scaffolds and complete media exchanges were performed every third day. The system has enabled successful culture for up to 54 days in 6 out of 7 primary patient samples, 5 of them isolated from peripheral blood (PB) and 1 from bone marrow (BM). Conventional cultures, set up in parallel, died out by day 7.On days 1, 7, 14 and 28, cultures were evaluated for viable cell expansion in the scaffold with Cell Titer Glo 3D (CTG), for morphological characteristics of CLL lymphocytes by May-Grunwald Giemsa (MGG) staining and for in situ niche-like structure formation with scanning electron microscopy (SEM) and fluorescence confocal microscopy. In both serum-containing media (RPMI and IMDM), cultures established with 2 x 106 cells/scaffold showed a reduction in CTG at day 28 compared with that at day 1 (p<0.01, N=2, n=2), whereas higher seeding densities maintained ATP content and metabolism in situ, suggesting improved maintenance of viable cells in scaffolds. For higher seeding densities, SEM images of scaffolds at day 28 show cells clustering in niches and MGG-stained cells show morphological characteristics of CLL, similar to those isolated from patients at day 0. Cultures with 1 x 107 cells/scaffold in hypoxia (5% O2) and in StemSpan SFEM also showed reduction in CTG from days 1 to 28 (p<0.01, N=3, n=2), suggesting lack of in situ proliferation in these conditions. Furthermore, functionalization of scaffolds with collagen or RGD coating did not improve culture dynamics, displaying no difference between conditions at days 1 or 28 with CTG and created more debris and cellular anomalies when visualised with MGG. In contrast, CLL cells morphologically identical to those isolated from the patient were retrieved from the uncoated scaffolds.When comparing RPMI + 10% FBS (FBS) and serum-free media Hybridoma SFM (SF), primary CLL cells were seeded at 1 x 107 cells/scaffold. Scaffold-extracted and supernatant cells were counted and analysed for viability with Guava Via Count assay and assessed for morphology with MGG at every medium exchange. At days 1, 14 and 28 of culture, cells extracted from scaffolds were also analysed with propidium iodide and Annexin V staining for detection of early apoptosis. In the first 8 days of culture, 10.2% of seeded cells egressed from FBS culture, compared with 5.9% in SF, both stabilizing thereafter with similar numbers of viable cells migrating into the supernatant. After 8 days, cells were more viable in SF than FBS in the supernatant (43.3% and 21.8%, respectively; p=0.0097) as well as when cells extracted from scaffolds on days 14 (61.9% and 32.6%, respectively; p<0.0001) and 28 (61% and 16%, respectively; p=0.0013). Consistent with these results, in situ proliferation was higher for SF than FBS (n=3, p<0.05). Using confocal microscopy, DAPI, and an amine reactive dye, widespread in situ scaffolddistribution of cells was observed in SF by day 28 with formation of cellular clusters inside the scaffold. Furthermore, lymphocytes and nurse-like cells (vimentin positive) were detected at day 28 in SF by confocal microscopy in niche-like structures.To the best of our knowledge, this work constitutes the first long-term culture (up to 8 weeks) of patient-derived primary CLL cells without cytokines, serum or feeder layers by using a 3D scaffold and high cell density. This platform may address an unmet need for a culture system which could represent the native disease environment, and a potential drug-testing platform. DisclosuresNo relevant conflicts of interest to declare.

Smudge Cells in Chronic Lymphocytic Leukemia: Pathophysiology, Laboratory Considerations, and Clinical Significance.

Chronic lymphocytic leukemia (CLL) is the most commonly encountered leukemia in the clinical laboratory. Cytoskeletal defects in CLL lymphocytes can result in the formation of up to 75% smudge cells (SCs) during blood film preparation. Failure to account for these damaged lymphocytes in the white blood cell (WBC) differential diminishes the accuracy and reproducibility of the results. Lacking clear practice standards on handling SCs in CLL, different laboratories may employ different methods to mitigate SC-induced errors. This review explores the pathophysiology of SCs, their effect on WBC differentials in CLL, and how these results can impact clinical decisions. The pros and cons of various SC corrective methods are described to assist laboratories in developing an optimized protocol to reduce errors and inconsistencies in WBC differentials. Finally, the potential utility of SC enumeration as an indicator of CLL prognosis is discussed in terms of laboratories with differing access to technology.

Antiapoptotic Proteins mcl-1 and bcl-2 as well as Growth Factors FGF and VEGF Influence Survival of Peripheral Blood and Bone Marrow Chronic Lymphocytic Leukemia Cells

Abstract Apoptosis inhibition in chronic lymphocytic leukemia (CLL) is one of the most important mechanism in the disease onset, progression and therapy response and is dependent of interaction with different microenvironments. Aim of our paper is to determine expression of antiapoptoic proteins mcl-1 and bcl-2 in CLL cells isolated from two different compartments (peripheral blood and bone marrow) and its relation to percent of apoptotic cells and concentration of growth factors (FGF and VEGF). Our results showed that peripheral blood CLL lymphocytes have lower apoptotic rate then those isolated from bone marrow, though bone marrow CLL lymphocytes express higher levels of antipoptotic proteins bcl-2 and mcl-1. In bone marrow FGF concentration is 10-fold higher then in patients plasma but has an limited impact on mcl-1 expression. In contrary, VEGF concentration is higher in peripheral blood and corelate with percent of apoptotic cells and mcl-1 expression in this compartment. CLL cells derived from two different microenvironmets acts differently when tested for apoptosis „ex vivo“. In peripheral blood apoptosis is strongly connected with expression of antiapoptoic proteins (mcl-1 and bcl-2) and growth factors, but not in bone marrow.

Autoimmune Cytopenias in Chronic Lymphocytic Leukemia: Focus on Molecular Aspects.

Autoimmune cytopenias, particularly autoimmune hemolytic anemia (AIHA) and immune thrombocytopenia (ITP), complicate up to 25% of chronic lymphocytic leukemia (CLL) cases. Their occurrence correlates with a more aggressive disease with unmutated VHIG status and unfavorable cytogenetics (17p and 11q deletions). CLL lymphocytes are thought to be responsible of a number of pathogenic mechanisms, including aberrant antigen presentation and cytokine production. Moreover, pathogenic B-cell lymphocytes may induce T-cell subsets imbalance that favors the emergence of autoreactive B-cells producing anti-red blood cells and anti-platelets autoantibodies. In the last 15 years, molecular insights into the pathogenesis of both primary and secondary AIHA/ITP has shown that autoreactive B-cells often display stereotyped B-cell receptor and that the autoantibodies themselves have restricted phenotypes. Moreover, a skewed T-cell repertoire and clonal T cells (mainly CD8+) may be present. In addition, an imbalance of T regulatory-/T helper 17-cells ratio has been involved in AIHA and ITP development, and correlates with various cytokine genes polymorphisms. Finally, altered miRNA and lnRNA profiles have been found in autoimmune cytopenias and seem to correlate with disease phase. Genomic studies are limited in these forms, except for recurrent mutations of KMT2D and CARD11 in cold agglutinin disease, which is considered a clonal B-cell lymphoproliferative disorder resulting in AIHA. In this manuscript, we review the most recent literature on AIHA and ITP secondary to CLL, focusing on available molecular evidences of pathogenic, clinical, and prognostic relevance.

Effects of eEF1A1 targeting by aptamer/siRNA in chronic lymphocytic leukaemia cells.

The effectiveness of therapies for chronic lymphocytic leukemia (CLL), the most common leukemia in Western countries adults, can be improved via a deeper understanding of its molecular abnormalities. Whereas the isoforms of the eukaryotic elongation factor 1A (eEF1A1 and eEF1A2) are implicated in different tumors, no information are available in CLL. eEF1A1/eEF1A2 amounts were quantitated in the lymphocytes of 46 CLL patients vs normal control (real time PCR, western blotting). eEF1A1 role in CLL was investigated in a cellular (MEC-1) and animal model of CLL via its targeting by an aptamer (GT75) or a siRNA (siA1) delivered by electroporation (in vitro) or lipofection (in vivo). eEF1A1/eEF1A2 were elevated in CLL lymphocytes vs control. eEF1A1 but not eEF1A2 levels were higher in patients which died during the study compared to those surviving. eEF1A1 targeting (GT75/siA1) resulted in MEC-1 viability reduction/autophagy stimulation and in vivo tumor growth down-regulation. The increase of eEF1A1 in dead vs surviving patients may confer to eEF1A1 the role of a prognostic marker for CLL and possibly of a therapeutic target, given its involvement in MEC-1 survival. Specific aptamer/siRNA released by optimized delivery systems may allow the development of novel therapeutic options.

Intravascular Colonization of Kaposi Sarcoma: Expanding the Spectrum of Specific Infiltrates of B-Cell Chronic Lymphocytic Leukemia

B-cell chronic lymphocytic leukemia (CLL), a low-grade malignancy consisting of CD5(+), CD23(+), and CD43(+) small B lymphocytes, is the most frequent leukemia in the western world. Patients with CLL may exhibit skin changes characterized by histopathologic evidence of infiltration by atypical B lymphocytes, also known as "specific cutaneous infiltrates of CLL"; in addition, CLL is known to be associated with an increased risk of second cancers, including Kaposi sarcoma (KS). The combination of KS and CLL within the same cutaneous biopsy specimen has only rarely been described. We report a peculiar case of KS occurring in a patient with CLL, in which histopathological evaluation of KS lesions revealed prominent accumulation of CLL lymphocytes within neoplastic vascular spaces. We believe that our findings represent a novel example of intravascular colonization of vascular neoplasms by neoplastic lymphoid cells, further expanding the evergrowing spectrum of specific cutaneous infiltrates of CLL.

PIM kinase inhibitor, AZD1208, inhibits protein translation and induces autophagy in primary chronic lymphocytic leukemia cells.

The PIM1, PIM2, and PIM3 serine/threonine kinases play a role in the proliferation and survival of cancer cells. Mice lacking these three kinases were viable. Further, in human hematological malignancies, these proteins are overexpressed making them suitable targets. Several small molecule inhibitors against this enzyme were synthesized and tested. AZD1208, an orally available small-molecule drug, inhibits all three PIM kinases at a low nanomolar range. AZD1208 has been tested in clinical trials for patients with solid tumors and hematological malignancies, especially acute myelogenous leukemia. The present study evaluated the efficacy and biological actions of AZD1208 in chronic lymphocytic leukemia (CLL) cells. CLL cells had higher levels of PIM2 protein and mRNAs than did normal lymphocytes from healthy donors. Treatment of CLL lymphocytes with AZD1208 resulted in modest cell death, whereas practically no cytotoxicity was observed in healthy lymphocytes. To determine the mechanism by which AZD1208 inhibits PIM kinase function, we evaluated PIM kinase pathway and downstream substrates. Because peripheral blood CLL cells are replicationally quiescent, we analyzed substrates involved in apoptosis, transcription, and translation but not cell cycle targets. AZD1208 inhibited protein translation by decreasing phosphorylation levels of 4E-binding protein 1 (4E-BP1). AZD1208 induced autophagy in replicationally-quiescent CLL cells, which is consistent with protein translation inhibition. These data suggest that AZD1208 may elicit cytotoxicity in CLL cells through inhibiting translation and autophagy induction.

Quantitative Cytologic Descriptors to Differentiate CLL, Sézary, Granular, and Villous Lymphocytes Through Image Analysis.

We aimed to find descriptors to identify chronic lymphocytic leukemia (CLL), Sézary, granular, and villous lymphocytes among normal and abnormal lymphocytes in peripheral blood. Image analysis was applied to 768 images from 15 different types of lymphoid cells and monocytes to determine four discriminant descriptors. For each descriptor, numerical scales were obtained using 627 images from 79 patients. An assessment of the four descriptors was performed using smears from 209 new patients. Cyan correlation of the nucleus identified clumped chromatin, and standard deviation of the granulometric curve of the cyan of the nucleus was specific for cerebriform chromatin. Skewness of the histogram of the u component of the cytoplasm identified cytoplasmic granulation. Hairiness showed specificity for cytoplasmic villi. In the assessment, 96% of the smears were correctly classified. The quantitative descriptors obtained through image analysis may contribute to the morphologic identification of the abnormal lymphoid cells considered in this article.

Altered expression of metabolic pathways in CLL detected by unlabelled quantitative mass spectrometry analysis.

Chronic lymphocytic leukaemia (CLL) remains the most common incurable malignancy of B cells in the western world. Patient outcomes are heterogeneous and can be difficult to predict with current prognostic markers. Here, we used a quantitative label-free proteomic technique to ascertain differences in the B-cell proteome from healthy donors and CLL patients with either mutated (M-CLL) or unmutated (UM-CLL) IGHV to identify new prognostic markers. In peripheral B-CLL cells, 349 (22%) proteins were differentially expressed between normal B cells and B-CLL cells and 189 (12%) were differentially expressed between M-CLL and UM-CLL. We also examined the proteome of proliferating CLL cells in the lymph nodes, and identified 76 (~8%) differentially expressed proteins between healthy and CLL lymph nodes. B-CLL cells show over-expression of proteins involved in lipid and cholesterol metabolism. A comprehensive lipidomic analysis highlighted large differences in glycolipids and sphingolipids. A shift was observed from the pro-apoptotic lipid ceramide towards the anti-apoptotic/chemoresistant lipid, glucosylceramide, which was more evident in patients with aggressive disease (UM-CLL). This study details a novel quantitative proteomic technique applied for the first time to primary patient samples in CLL and highlights that primary CLL lymphocytes display markers of a metabolic shift towards lipid synthesis and breakdown.

Metabolic rewiring beyond Warburg in chronic lymphocytic leukemia: How much do we actually know?

Chronic Lymphocytic Leukemia (CLL) is the most common adult leukemia in the western world. CLL consists of the accumulation of malignant B-cells in the blood stream and homing tissues. Although treatable, this disease is not curable, and resistance or relapse is often present. In many cancers, the study of metabolic reprograming has uncovered novel targets that are already being exploited in the clinic. However, CLL metabolism is still poorly understood. The ability of CLL lymphocytes to adapt to diverse microenvironments is accompanied by modifications in cell metabolism, revealing the challenge of targeting the CLL lymphocytes present in all different compartments. Despite this, the study of CLL metabolism led to an ongoing clinical trial using glucose uptake and mitochondrial respiration inhibitors. In contrast, glutamine and fatty acid metabolism remain to be further exploited in CLL. Here, we summarize the present knowledge of CLL metabolism, as well as the metabolic influence of Myc, ATM and p53 on CLL lymphocytes.

Improving CLL Vγ9Vδ2-T–cell fitness for cellular therapy by ex vivo activation and ibrutinib

AbstractThe efficacy of autologous (αβ) T-cell–based treatment strategies in chronic lymphocytic leukemia (CLL) has been modest. The Vγ9Vδ2-T cell subset consists of cytotoxic T lymphocytes with potent antilymphoma activity via a major histocompatibility complex–independent mechanism. We studied whether Vγ9Vδ2-T cells can be exploited as autologous effector lymphocytes in CLL. Healthy control Vγ9Vδ2-T cells were activated by and had potent cytolytic activity against CLL cells. However, CLL-derived Vγ9Vδ2-T cells proved dysfunctional with respect to effector cytokine production and degranulation, despite an increased frequency of the effector-type subset. Consequently, cytotoxicity against malignant B cells was hampered. A comparable dysfunctional phenotype was observed in healthy Vγ9Vδ2-T cells after coculture with CLL cells, indicating a leukemia-induced mechanism. Gene-expression profiling implicated alterations in synapse formation as a conceivable contributor to compromised Vγ9Vδ2-T–cell function in CLL patients. Dysfunction of Vγ9Vδ2-T cells was fully reversible upon activation with autologous monocyte-derived dendritic cells (moDCs). moDC activation resulted in efficient expansion and predominantly yielded Vγ9Vδ2-T cells with a memory phenotype. Furthermore, ibrutinib treatment promoted an antitumor T helper 1 (TH1) phenotype in Vγ9Vδ2-T cells, and we demonstrated binding of ibrutinib to IL-2-inducible kinase (ITK) in Vγ9Vδ2-T cells. Taken together, CLL-mediated dysfunction of autologous Vγ9Vδ2-T cells is fully reversible, resulting in potent cytotoxicity toward CLL cells. Our data support the potential use of Vγ9Vδ2-T cells as effector T cells in CLL immunotherapy and favor further exploration of combining Vγ9Vδ2-T-cell–based therapy with ibrutinib.

Ibrutinib Resistance Is Reduced by an Inhibitor of Fatty Acid Oxidation in Primary CLL Lymphocytes.

Chronic Lymphocytic Leukemia (CLL) is an incurable disease, characterized by the accumulation of malignant B-lymphocytes in the blood stream (quiescent state) and homing tissues (where they can proliferate). In CLL, the targeting of B-cell receptor signaling through a Burton's tyrosine kinase inhibitor (ibrutinib) has rendered outstanding clinical results. However, complete remission is not guaranteed due to drug resistance or relapse, revealing the need for novel approaches for CLL treatment. The characterization of metabolic rewiring in proliferative cancer cells is already being applied for diagnostic and therapeutic purposes, but our knowledge of quiescent cell metabolism—relevant for CLL cells—is still fragmentary. Recently, we reported that glutamine metabolism in primary CLL cells bearing the del11q deletion is different from their del11q negative counterparts, making del11q cells especially sensitive to glutaminase and glycolysis inhibitors. In this work, we used our primary CLL lymphocyte bank and compounds interfering with central carbon metabolism to define metabolic traits associated with ibrutinib resistance. We observe a differential basal metabolite uptake linked to ibrutinib resistance, favoring glutamine uptake and catabolism. Upon ibrutinib treatment, the redox balance in ibrutinib resistant cells is shifted toward NADPH accumulation, without an increase in glutamine uptake, suggesting alternative metabolic rewiring such as the activation of fatty acid oxidation. In accordance to this idea, the curtailing of fatty acid oxidation by CPT1 inhibition (etomoxir) re-sensitized resistant cells to ibrutinib. Our results suggest that fatty acid oxidation could be explored as a target to overcome ibrutinib resistance.

Volume, conductance, and scatter parameters of neoplastic and nonneoplastic lymphocytes using Coulter LH780.

PURPOSE:Automated hematology analyzers yield a complete hematological profile including a complete blood count and a differential white blood cell count. The differential count is based on analyses of three parameters, namely, volume, conductance, and scatter (VCS). We aimed to evaluate the VCS parameters, histograms, and scatterplots of neoplastic and nonneoplastic lymphocytes.MATERIAL AND METHODS:Patients were grouped into four categories, namely, acute lymphoblastic leukemia (ALL), chronic systemic disorders, chronic lymphocytic leukemia (CLL), and acute viral disease. Lymphocytes from all four groups were compared with lymphocytes from normal participants.RESULTS AND CONCLUSIONS:The histogram for acute viral disease showed a trough at T1, which was slightly obliterated, and the F1 curve mildly extended to the right. The T1 for ALL was replaced with a peak at >40% of the preset limit. The F1 peak was shifted to left for CLL. The scatterplot for viral disease showed lymphocytes extending to the variant lymphocyte window. The lymphocytes of ALL extended to the blast window, with both increase in volume and mild increase in scatter. The lymphocytes in CLL were smaller and located below the normal lymphocyte region. Mean lymphocyte volume was significantly increased in ALL and was significantly decreased in CLL. Mean lymphocyte conductance was significantly increased in CLL and significantly decreased in both acute viral disease and ALL. Mean lymphocyte scatter was significantly decreased in acute viral disease and significantly increased in ALL.

Genetic Variability of Tumor Necrosis Factor Receptors Type I and II in Lymphoproliferative Diseases in the Serbian Population –

Summary TNF-alpha and LT-alpha are involved in the pathogenesis of established lymphoproliferative diseases. Both molecules bind to TNFRI and TNFRII. TNFRI is the major mediator of the TNF pro-apoptotic and proliferative effects and TNFRII might enhance these effects. TNF receptors I and II are normally present on hematopoetic cells. TNFR II is characteristic only on immune cells, especially on peripheral leukocytes. Neoplastic B cells and activated B lymphocytes have increased expression of surface TNFR I. In this study, we have analyzed polymorphisms in the TNFRI gene (TNFRI+36A/G SNP) and polymorphism in the TNFRII gene (TNFRII + 676 T/G). All these polymorphisms were studied in patients with chronic lymphocytic leukemia (CLL), patients with non-Hodkin’s lymphoma (NHL) and in healthy controls. The present study was undertaken to investigate the genetic association of these polymorphisms with lymproproliferative disease development. A total of 68 patients (49-CLL, 19-HNL) were diagnosed at the Clinic of Hematology, Clinical centre Niš, Serbia, using clinical findings and conventional morphological, cytochemical and immunological tests. Genomic DNA was isolated from isolated lymphocytes by proteinase K/phenol/chloroform method, and genotyped for TNFR I (A36G) and TNFR II (T676G) using the PCR-RFLP method. No significant differences in allele frequencies of TNFR1 polymorphism were found between the patients with lymphoproliferative disease and healthy individuals. In a group of healthy individuals, the study has revealed for the first time significantly higher TNFRI G/G genotype compared to the patients with lymphoproliferative disease (χ22 = 5.66; p = 0.017). Also, we reported the implication of TNFRII T allele in NHL pathogenesis, respectively (χ22 = 10.77; p = 0.001; Mantel-Haenszel: χ22 = 10.64; p = 0.0011). Our data showed that TNFRII T676G polymorphisms have an important role in NHL pathogenesis but not in CLL patients. A/A polymorphism in TNFRI was not associated with CLL and NHL patients in the Serbian population. Investigated polymorphisms on TNFR genes in leukemic cells of CLL and NHL patients have not showed a correlation with increased proliferation of B lymphocytes and increased expression of TNF R II on B CLL lymphocytes.