Purpose: To investigate the roles of BCL2, MCL1, and BCL-XL in the survival of diffuse large B-cell lymphoma (DLBCL).Experimental designs: Immunohistochemical analysis of 105 primary DLBCL samples, and Western blot analysis of 18 DLBCL cell lines for the expression of BCL2, MCL1, and BCL-XL. Pharmacologic targeting of BCL2, MCL1, and BCL-XL with ABT-199, homoharringtonine (HHT), and ABT-737. Analysis of DLBCL clones with manipulated expressions of BCL2, MCL1, and BCL-XL. Immunoprecipitation of MCL1 complexes in selected DLBCL cell lines. Experimental therapy aimed at inhibition of BCL2 and MCL1 using ABT-199 and HHT, single agent, or in combination, in vitro and in vivo on primary cell-based murine xenograft models of DLBCL.Results: By the pharmacologic targeting of BCL2, MCL1, and BCL-XL, we demonstrated that DLBCL can be divided into BCL2-dependent and MCL1-dependent subgroups with a less pronounced role left for BCL-XL. Derived DLBCL clones with manipulated expressions of BCL2, MCL1, and BCL-XL, as well as the immunoprecipitation experiments, which analyzed MCL1 protein complexes, confirmed these findings at the molecular level. We demonstrated that concurrent inhibition of BCL2 and MCL1 with ABT-199 and HHT induced significant synthetic lethality in most BCL2-expressing DLBCL cell lines. The marked cytotoxic synergy between ABT-199 and HHT was also confirmed in vivo using primary cell-based murine xenograft models of DLBCL.Conclusions: As homoharringtonine is a clinically approved antileukemia drug, and ABT-199 is in advanced phases of diverse clinical trials, our data might have direct implications for novel concepts of early clinical trials in patients with aggressive DLBCL.
This retrospective study evaluated the secondary clinical risk score at relapse, the prognostic significance of pre-transplant positron emission tomography (PET), and complete remission (CR) assessed by computed tomography (CT) after salvage chemotherapy before autologous stem cell transplant (ASCT) in 76 patients with relapsed/refractory Hodgkin lymphoma (HL). Median follow-up after ASCT was 23 months. Overall 11/20 PET-positive and 14/56 PET-negative patients relapsed after ASCT. In univariate analysis, only PET negativity before ASCT was significantly associated with better 2-year progression-free survival (PFS) (72.7 ± 6.3% vs. 36.1 ± 11.6%, p = 0.01) and 2-year overall survival (OS) (90.3 ± 4.1% vs. 61.4 ± 11.6%, p = 0.009). Other factors were not significant. In multivariate analysis, none of the evaluated factors were significant for PFS and OS. However, positive pre-transplant PET identified a population with worse PFS and OS at least in univariate analysis.
on behalf of the CLWP of the EBMT This randomized-controlled trial studied the efficacy of palifermin in a chemotherapy-only, high-dose Melphalan (HDM) transplant setting, to reduce oral mucositis (OM) and its sequelae measured by patient-reported outcomes (PRO) and medical resource use. Palifermin, relative to placebo was given either pre-/post-HDM or pre-HDM in patients with multiple myeloma (MM) undergoing auto-SCT at 39 European centers. Oral cavity assessment (WHO) and PRO questionnaires (oral mucositis daily questionnaire (OMDQ) and EQ 5D) were used in 281 patients (mean age 56, ± s.d. ¼ 8 years). 57 patients received placebo. One hundred and fifteen subjects were randomized to pre-/post-HDM receiving palifermin on 3 consecutive days before HDM and after auto-SCT and 109 patients were randomized to pre-HDM, receiving palifermin (60 mg/kg/day) i.v. for 3 consecutive days before HDM. There was no statistically significant difference in maximum OM severity. Severe OM occurred in 37% (placebo), 38% (pre-/post-HDM) and 24% (pre-HDM) of patients. No significant difference was observed with respect to PRO assessments or medical resource use, but more infections and fever during neutropenia were reported in pre-/post-HDM vs placebo (for example, 51 and 26%). To conclude, palifermin was unable to reduce OM or OM-related patient's burden in MM transplant patients.
A reliable, cryoprotective, xeno-free medium suitable for different cell types is highly desirable in regenerative medicine. There is danger of infection or allergic reaction with the use of fetal bovine serum (FBS), making it problematic for medical applications. The aim of the present study was to develop an FBS-free cryoprotective medium for human mesenchymal stromal cells (hMSCs; primary cells) and immortalized human osteoblasts (SAOS-2 cell line). Furthermore, we endeavored to eliminate or reduce the presence of dimethyl sulfoxide (DMSO) in the medium. Sericin, a sticky protein derived from the silkworm cocoon, was investigated as a substitute for FBS and DMSO in the freezing medium. Cell viability (24 hours after thawing, both hMSC and SAOS-2) and colony-forming ability (2 weeks after thawing, only for hMSCs) were both determined. The FBSfree medium with 1% sericin in 10% DMSO was found to be a suitable freezing medium for primary hMSCs, in contrast to immortalized human osteoblasts. Surprisingly, the storage of hMSCs in a cultivation medium with only 10% DMSO also provided satisfactory results. Any drop in DMSO concentration led to significantly worse survival of cells, with little improvement in hMSC survival in the presence of sericin. Thus, sericin may substitute for FBS in the freezing medium for primary hMSCs, but cannot substitute for DMSO.
Apoptosis is a normal aspect of human physiology ensuring tissue homeostasis. Evasion of endogenous cell death processes, including apoptosis, represents one of the characteristics of cancer. Defects in the physiological mechanisms of apoptosis contribute to the pathological cell expansion and to the development and progression of cancer. Resistance of malignant cells to cancer therapeutic agents may be, in some cases, caused by dysregulation of apoptotic pathways, e.g. BCL2 or IAP overexpression. The understanding of the physiological mechanisms that control apoptosis and the elucidation of apoptotic defects in cancer cells may lead to the development of targeted cancer therapies. Apoptotic pathways, molecules involved in the cross-talk between individual apoptosis pathways and promising new anti-cancer agents, which trigger directly or indirectly apoptosis of hematologic cancer cells, are reviewed in this article.
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