Project description:Chronic Lymphocytic Leukemia (CLL) is strictly dependent on the complex interplay between the intrinsic features of the leukemic cells and microenvironmental stimulations including inflammatory stimuli by Toll Like Receptors (TLR) which protect CLL cells from drug induced apoptosis by upregulating NFKBIZ, an atypical co-transcription factor. To face the challenge of targeting transcription factors, we exploited the capacity of Dimethyl Itaconate (DI), an electrophilic synthetic derivative of Itaconate, to block NFKBIZ acting as anti-inflammatory agent. Primary CLL cells isolated from the peripheral blood of patients, leukemic splenocytes isolated from TCL1 transgenic mice, and circulating leukocytes isolated from healthy donors were treated in vitro with increasing concentrations of DI either alone or in combination with the TLR ligands. DI abrogated the induction of NFKBIZ as well as its target genes IL6 and IL10. Remarkably, DI reduced metabolic activation and cell viability of leukemic cells even if added after a robust TLR pre-stimulation; in contrast, no toxic effect was evident in normal leukocytes including T- and B-lymphocytes. DI induced apoptosis of malignant cells by reducing BCL-XL and MCL1 levels while inducing PARP cleavage. RNA sequencing highlighted that DI abrogated the TLR9-mediated upregulation of transcripts related to the metabolism of rRNAs, interferon and cytokine signaling. Notably, in addition to the expected electrophilic stress signature observed after DI treatment, novel pathways emerged including the downregulation of distinct MHC class II complex genes. In conclusion, DI not only abrogated the pro-inflammatory effects of TLR stimulation but also targeted a specific vulnerability in CLL cells.

Project description:Chronic Lymphocytic Leukemia (CLL) is strictly dependent on the complex interplay between the intrinsic features of the leukemic cells and microenvironmental stimulations including inflammatory stimuli by Toll Like Receptors (TLR) which protect CLL cells from drug induced apoptosis by upregulating NFKBIZ, an atypical co-transcription factor. To face the challenge of targeting transcription factors, we exploited the capacity of Dimethyl Itaconate (DI), an electrophilic synthetic derivative of Itaconate, to block NFKBIZ acting as anti-inflammatory agent. Primary CLL cells isolated from the peripheral blood of patients, leukemic splenocytes isolated from TCL1 transgenic mice, and circulating leukocytes isolated from healthy donors were treated in vitro with increasing concentrations of DI either alone or in combination with the TLR ligands. DI abrogated the induction of NFKBIZ as well as its target genes IL6 and IL10. Remarkably, DI reduced metabolic activation and cell viability of leukemic cells even if added after a robust TLR pre-stimulation; in contrast, no toxic effect was evident in normal leukocytes including T- and B-lymphocytes. DI induced apoptosis of malignant cells by reducing BCL-XL and MCL1 levels while inducing PARP cleavage. RNA sequencing highlighted that DI abrogated the TLR9-mediated upregulation of transcripts related to the metabolism of rRNAs, interferon and cytokine signaling. Notably, in addition to the expected electrophilic stress signature observed after DI treatment, novel pathways emerged including the downregulation of distinct MHC class II complex genes. In conclusion, DI not only abrogated the pro-inflammatory effects of TLR stimulation but also targeted a specific vulnerability in CLL cells.

Project description:Salinomycin, an antibiotic potassium ionophore, has been reported recently to act as a selective breast cancer stem cell inhibitor, but the biochemical basis for its anticancer effects is not clear. The Wnt/β-catenin signal transduction pathway plays a central role in stem cell development, and its aberrant activation can cause cancer. In this study, we identified salinomycin as a potent inhibitor of the Wnt signaling cascade. In Wnt-transfected HEK293 cells, salinomycin blocked the phosphorylation of the Wnt coreceptor lipoprotein receptor related protein 6 (LRP6) and induced its degradation. Nigericin, another potassium ionophore with activity against cancer stem cells, exerted similar effects. In otherwise unmanipulated chronic lymphocytic leukemia cells with constitutive Wnt activation nanomolar concentrations of salinomycin down-regulated the expression of Wnt target genes such as LEF1, cyclin D1, and fibronectin, depressed LRP6 levels, and limited cell survival. Normal human peripheral blood lymphocytes resisted salinomycin toxicity. These results indicate that ionic changes induced by salinomycin and related drugs inhibit proximal Wnt signaling by interfering with LPR6 phosphorylation, and thus impair the survival of cells that depend on Wnt signaling at the plasma membrane.

Project description:BackgroundDisruption of alternative splicing in apoptotic factors has been associated to chronic lymphocytic leukemia among other cancers and hematological malignancies. The proapoptotic proteins Caspase-9 and PP2Acα are functionally related in a direct interaction, which constitutes a promising target for cancer therapy. Both proteins present aberrant mRNA splicing variants that are antiapoptotic (Caspase-9b) and catalytically inactive (PP2Acα2), respectively.ResultsIn this work we have analyzed the relative abundance of the aberrant spliced forms Caspase-9b and PP2Acα2 in several cell lines and chronic lymphocytic leukemia patients and correlated it with several parameters of the disease. Despite 40 % of the patients presented Caspase-9b dysregulation, there was no direct association between alterations in Caspase-9b relative abundance and the parameters analyzed in medical records. More importantly, PP2Acα2 dysregulation was observed in 88 % of CLL patients and was related with advanced stages of the malignancy.ConclusionsCaspase-9b dysregulation seemed to be associated with the disease, although the differences between healthy donors and CLL patients were not statistically significant. However, PP2Acα2 dysregulation was significantly different between healthy donors and CLL patients and correlated with Binet B and C stages; therefore, we propose the use of PP2Acα2 dysregulation as a potential biomarker for advanced stages of chronic lymphocytic leukemia.

Project description:Most forms of chemotherapy employ mechanisms involving induction of oxidative stress, a strategy that can be effective due to the elevated oxidative state commonly observed in cancer cells. However, recent studies have shown that relative redox levels in primary tumors can be heterogeneous, suggesting that regimens dependent on differential oxidative state may not be uniformly effective. To investigate this issue in hematological malignancies, we evaluated mechanisms controlling oxidative state in primary specimens derived from acute myelogenous leukemia (AML) patients. Our studies demonstrate three striking findings. First, the majority of functionally defined leukemia stem cells (LSCs) are characterized by relatively low levels of reactive oxygen species (termed "ROS-low"). Second, ROS-low LSCs aberrantly overexpress BCL-2. Third, BCL-2 inhibition reduced oxidative phosphorylation and selectively eradicated quiescent LSCs. Based on these findings, we propose a model wherein the unique physiology of ROS-low LSCs provides an opportunity for selective targeting via disruption of BCL-2-dependent oxidative phosphorylation.

Project description:The Pim proteins are Ser/Thr kinases over-expressed in several hematological malignancies such as chronic lymphocytic leukemia (CLL) and some solid cancers like prostate cancer. Several small molecules have been developed to inhibit these kinases. In prostate cancer cell lines, the Pim kinase inhibitor SMI-4a and the Bcl-2 antagonist ABT-737 resulted in synergistic cytotoxicity. Akin to prostate cancer cells, CLL lymphocytes over-express Pim and Bcl-2 proteins. It was hypothesized that similar cytotoxic interaction should be observed in CLL. This study evaluated the in vitro cytotoxic effect of three Pim kinase inhibitors (AZD1208, SGI-1776 and SMI-4a) combined with Bcl-2 antagonists (ABT-737 or ABT-199) in malignant CLL lymphocytes. Data indicated Pim kinase inhibitors in combination with ABT-737 or ABT-199 resulted mostly in additive cytotoxicity with a few synergistic responses; however, the extent of synergism was less robust than that observed previously in prostate cancer cell lines treated with SMI-4a and ABT-737.

Project description:The human antiapoptotic bcl-2 gene has been discovered in t(14;18) B-cell leukemias/lymphomas because of its overexpression caused at a transcriptional control level by the bcl-2/IgH fusion gene. We were the first to disclose the post-transcriptional control of bcl-2 expression mediated by interactions of an adenine + uracil (AU)-rich element (ARE) in the 3'-UTR of bcl-2 mRNA with AU-binding proteins (AUBPs). Here, we identify and characterize zeta-crystallin as a new bcl-2 AUBP, whose silencing or overexpression has impact on bcl-2 mRNA stability. An increased Bcl-2 level observed in normal phytohemagglutinin (PHA)-activated T lymphocytes, acute lymphatic leukemia (ALL) T-cell lines, and T cells of patients with leukemia in comparison with normal non-PHA-activated T lymphocytes was concomitant with an increase in zeta-crystallin level. The specific association of zeta-crystallin with the bcl-2 ARE was significantly enhanced in T cells of patients with ALL, which accounts for the higher stability of bcl-2 mRNA and suggests a possible contribution of zeta-crystallin to bcl-2 overexpression occurring in this leukemia.

Project description:The BCL-2 family of proteins integrates pro- and anti-apoptotic signals within the cell and is responsible for initiation of caspase-dependent apoptosis. Chronic lymphocytic leukemia (CLL) cells are particularly dependent on the anti-apoptotic protein BCL-2 for their survival, making this an attractive therapeutic target in CLL. Several early efforts to create inhibitors of the anti-apoptotic family members faced significant challenges, but eventually, the BCL-2 specific inhibitor venetoclax moved forward in CLL. Overall and complete response rates to venetoclax monotherapy in relapsed, refractory CLL are approximately 80 and 20%, respectively, even in patients with high-risk 17p deletion. Toxicities have been manageable and include neutropenia, diarrhea, and nausea. The risk of tumor lysis syndrome (TLS), seen in early experience with the drug, has been mitigated by the use of appropriate TLS risk assessment, prophylaxis, and management. Future studies of venetoclax will focus on combination approaches, predictive biomarker discovery, and mechanisms of resistance.

Project description:Dimethyl Itaconate selectively targets chronic lymphocytic leukemia cells

Project description:Dimethyl Itaconate selectively targets chronic lymphocytic leukemia cells