Apoptosis induces Bcl-XS and cleaved Bcl-XL in chronic lymphocytic leukaemia

The Bcl-X gene has both pro-survival, Bcl-X_L, and pro-apoptotic, Bcl-X_S, gene products, which are produced by alternative splicing. The function of these proteins has previously been characterised in cell lines, often by transfecting expression constructs, and primary cell systems capable of dynamically regulating Bcl-X_L and Bcl-X_S have not been described. Such a system is potentially important to allow testing of agents that promote apoptosis by increasing the amount of Bcl-X_S at the expense of Bcl-X_L. In this report we characterise Bcl-X gene products in primary human leukaemic B-cells in culture conditions associated with survival and apoptosis. We found that Bcl-X_S was induced in spontaneous and drug-induced apoptosis and that apoptosis induced in cells cultured on mouse fibroblasts expressing CD40 ligand with IL-4 (CD154/IL-4), a condition mimicking the tissue microenvironment, additionally produced expression of cleavage products of Bcl-X_L. Both Bcl-X_S and Bcl-X_L were produced in a caspase dependent manner. We tested emetine, an agent previously reported to increase Bcl-X_S but found that it did not have this effect in primary human B-cells. Therefore, there are two mechanisms—cleavage of Bcl-X_L and production of Bcl-X_S—by which Bcl-X gene products could enhance apoptosis in CLL but neither appeared to have a primary role in inducing leukaemic cell death.     

线粒体跨膜电位与细胞凋亡

细胞凋亡作为细胞固有的、受机体严密调控的细胞死亡形式,在多细胞生物体清除衰老细胞及无能细胞等方面发挥重要的作用.近年来,细胞凋亡的研究重点已从细胞核转向线粒体.各种死亡信号诱导线粒体膜通透性改变孔（permeability transition pore, PT pore）开放,引起线粒体跨膜电位下降,导致促凋亡物质释放,继而激活caspase,最终使细胞凋亡.Bcl-2和Bcl-X_L通过对线粒体作用而抑制细胞凋亡,而Bax、Bak与Bad通过调节线粒体而诱导细胞凋亡.     

A novel Bcl-XL inhibitor Z36 that induces autophagic cell death in Hela cells

Inhibition of Bcl2 family proteins Bcl-X_L and Bcl-2 represents a promising drug development strategy for cancer treatment by triggering apoptosis in cancer cells. Here we report a novel Bcl-XL inhibitor, Z36, which unexpectedly induces only autophagic cell death, but not apoptosis. This special property distinguishes Z36 from other previously reported Bcl-X_L and Bcl-2 inhibitors that induce cancer cell death mainly through apoptosis, and makes Z36 an attractive molecular tool for studying the cellular regulation of autophagic cell death and apoptosis.     

CXCR4 Chemokine Receptor Signaling Induces Apoptosis in Acute Myeloid Leukemia Cells via Regulation of the Bcl-2 Family Members Bcl-XL,Noxa, and Bak

The CXCR4 chemokine receptor promotes survival of many different cell types. Here, we describe a previously unsuspected role for CXCR4 as a potent inducer of apoptosis in acute myeloid leukemia (AML) cell lines and a subset of clinical AML samples. We show that SDF-1, the sole ligand for CXCR4, induces the expected migration and ERK activation in the KG1a AML cell line transiently overexpressing CXCR4, but ERK activation did not lead to survival. Instead, SDF-1 treatment led via a CXCR4-dependent mechanism to apoptosis, as evidenced by increased annexin V staining, condensation of chromatin, and cleavage of both procaspase-3 and PARP. This SDF-1-induced death pathway was partially inhibited by hypoxia, which is often found in the bone marrow of AML patients. SDF-1-induced apoptosis was inhibited by dominant negative procaspase-9 but not by inhibition of caspase-8 activation, implicating the intrinsic apoptotic pathway. Further analysis showed that this pathway was activated by multiple mechanisms, including up-regulation of Bak at the level of mRNA and protein, stabilization of the Bak activator Noxa, and down-regulation of antiapoptotic Bcl-X_L. Furthermore, adjusting expression levels of Bak, Bcl-X_L, or Noxa individually altered the level of apoptosis in AML cells, suggesting that the combined modulation of these family members by SDF-1 coordinates their interplay to produce apoptosis. Thus, rather than mediating survival, SDF-1 may be a means to induce apoptosis of CXCR4-expressing AML cells directly in the SDF-1-rich bone marrow microenvironment if the survival cues of the bone marrow are disrupted.     

Mutation of BCL-2 Family Proteins in Cancer

Apoptosis is a genetically controlled cell death process that is required for normal development and tissue homeostasis. Suppression of apoptosis can confer a growth advantage to cells and contribute to cancer; many cancers are relatively resistant to apoptosis, including that induced by radiation or chemotherapeutics. Mutations which inactivate pro-apoptotic or activate anti-apoptotic proteins in cancer cells are therefore likely to be responsible for some of these differences. BCL-2 family proteins are key regulators of apoptosis and there is evidence supporting a role for mutation of BCL-2 family proteins in cancer. This includes well established events such as activation of BCL-2 via translocations in follicular lymphoma, as well as more recent observations implicating activation of Bcl-X_L expression and frameshift and missense mutations of BAX and BCL-2 in cancer.     

Changes in the level of apoptosis-related proteins in Jurkat cells infected with HIV-1 versus HIV-2

Human immunodeficiency virus (HIV) infection-induced apoptosis of infected CD4 T cells as well as uninfected (bystander) CD4 T cells and other types of cells is a major factor in the pathogenesis of AIDS. Clinically, HIV-2 patients have a higher CD4 cell count at the time of an AIDS diagnosis, and generally have longer survival after development of symptoms. The mortality after an AIDS diagnosis has been reported to be more influenced by CD4 cell count than HIV type. Previous studies have shown significant variations in cytopathic effects following in vitro infection with primary isolates of HIV-1 or HIV-2 subtypes; however, the relative contributions of HIV-1 and HIV-2 infection leading to cell death remain unclear. Using a human cell line, Jurkat, we examined differences in key molecules involved in apoptotic signaling pathways during infection with either HIV-1 or HIV-2. HIV-1 infection generated more reactive oxygen species (ROS), increased the expression of a larger number of molecules involved in cell signaling such as p47, p38α, JNK, c-Yes, total PKC, and decreased the expression of molecules such as p38β, ERK1/2, and XIAP relative to HIV-2 infection. HIV-1 induced a higher degree of cell death through stronger activation of both apoptotic pathways. HIV-1 infection downregulated both Bcl-X_L and FLIP expressions at later time points postinfection, while HIV-2 infection dramatically upregulated both Bcl-X_L and FLIP expression. We also found that the expression of Bcl-X_L or FLIP resulted in significant inhibition of HIV replication in Jurkat cells. These findings suggest that HIV-1 infection with high levels of cytotoxicity results in a higher level of cell death through apoptosis during a short time postinfection. The longer period of infection observed with HIV-2 with a lower degree of cytotoxicity was accompanied by increased Bcl-X_L and FLIP expression. High protein levels of Bcl-X_L or FLIP inhibit HIV replication and may be one explanation for the clinical observation that HIV-2 infected patients generally tend to be long-term nonprogressors with high CD4 lymphocyte counts compared with HIV-1 infected persons.     

PUMA Promotes Bax Translocation by Both Directly Interacting with Bax and by Competitive Binding to Bcl-XL during UV-induced Apoptosis

Cell apoptosis induced by UV irradiation is a highly complex process in which different molecular signaling pathways are involved. p53 up-regulated modulator of apoptosis (PUMA) has been proposed as an important regulator in UV irradiation-induced apoptosis. However, the molecular mechanism through which PUMA regulates apoptosis, especially how PUMA activates Bcl-2-associated X protein (Bax) in response to UV irradiation is still controversial. In this study, by using real-time single-cell analysis and fluorescence resonance energy transfer, we investigated the tripartite nexus among PUMA, Bax, and Bcl-X_L in living human lung adenocarcinoma cells (ASTC-a-1) to illustrate how PUMA promotes Bax translocation to initiate apoptosis. Our results show that the interaction between PUMA and Bax increased gradually, with Bax translocating to mitochondria and colocalizing with PUMA after UV irradiation, indicating PUMA promotes Bax translocation directly. Simultaneously, the interaction increased markedly between PUMA and Bcl-X_L and decreased significantly between Bcl-X_L and Bax after UV treatment, suggesting PUMA competitively binds to Bcl-X_L to activate Bax indirectly. The above-mentioned results were further confirmed by coimmunoprecipitation experiments. In addition, pifithrin-α (a p53 inhibitor) and cycloheximide (a protein synthesis inhibitor) could inhibit PUMA-mediated Bax translocation and cell apoptosis. Together, these studies create an important conclusion that PUMA promotes Bax translocation by both by directly interacting with Bax and by competitive binding to Bcl-X_L in UV-induced apoptosis.     

Adenosine-induced caspase-3 activation by tuning Bcl-X<Subscript>L</Subscript>/DIABLO/IAP expression in HuH-7 human hepatoma cells

Extracellular adenosine disrupted mitochondrial membrane potentials in HuH-7 cells, a Fas-deficient human hepatoma cell line, and the effect was inhibited by the adenosine transporter inhibitor dipyridamole or by overexpressing Bcl-X_L. Adenosine downregulated the expression of mRNAs and proteins for Bcl-X_L and inhibitor of apoptosis protein 2 (IAP2) to directly inhibit caspase-3, -7, and -9, but it otherwise upregulated the expression of mRNA and protein for DIABLO, an inhibitor of IAPs. Those adenosine effects were attenuated by dipyridamole. Caspase-3 and -8 were implicated in adenosine-induced HuH-7 cell death, and adenosine actually activated caspase-3 without caspase-9 activation. The caspase-3 activation was inhibited by overexpressing Bcl-X_L or IAP2. Taken together, the results of the present study indicate that intracellularly transported adenosine activates caspase-3 by neutralizing caspase-3 inhibition due to IAP as a result of decreased IAP2 expression and reduced IAP activity in response to increased DIABLO expression and perhaps DIABLO release from damaged mitochondria, in addition to caspase-8 activation. This represents further insight into adenosine-induced HuH-7 cell apoptotic pathway.     

Importance of Bcl-2-family proteins in murine hematopoietic progenitor and early B cells

Mitochondrial apoptosis regulates survival and development of hematopoietic cells. Prominent roles of some Bcl-2-family members in this regulation have been established, for instance for pro-apoptotic Bim and anti-apoptotic Mcl-1. Additional, mostly smaller roles are known for other Bcl-2-members but it has been extremely difficult to obtain a comprehensive picture of the regulation of mitochondrial apoptosis in hematopoietic cells by Bcl-2-family proteins. We here use a system of mouse ‘conditionally immortalized’ lymphoid-primed hematopoietic progenitor (LMPP) cells that can be differentiated in vitro to pro-B cells, to analyze the importance of these proteins in cell survival. We established cells deficient in Bim, Noxa, Bim/Noxa, Bim/Puma, Bim/Bmf, Bax, Bak or Bax/Bak and use specific inhibitors of Bcl-2, Bcl-X_L and Mcl-1 to assess their importance. In progenitor (LMPP) cells, we found an important role of Noxa, alone and together with Bim. Cell death induced by inhibition of Bcl-2 and Bcl-X_L entirely depended on Bim and could be implemented by Bax and by Bak. Inhibition of Mcl-1 caused apoptosis that was independent of Bim but strongly depended on Noxa and was completely prevented by the absence of Bax; small amounts of anti-apoptotic proteins were co-immunoprecipitated with Bim. During differentiation to pro-B cells, substantial changes in the expression of Bcl-2-family proteins were seen, and Bcl-2, Bcl-X_L and Mcl-1 were all partially in complexes with Bim. In differentiated cells, Noxa appeared to have lost all importance while the loss of Bim and Puma provided protection. The results strongly suggest that the main role of Bim in these hematopoietic cells is the neutralization of Mcl-1, identify a number of likely molecular events during the maintenance of survival and the induction of apoptosis in mouse hematopoietic progenitor cells, and provide data on the regulation of expression and importance of these proteins during differentiation along the B cell lineage.Subject terms: Apoptosis, Immune cell death     

Beclin 1-independent autophagy induced by a Bcl-XL/Bcl-2 targeting compound,Z18

Inhibitors of Bcl-X_L/Bcl-2 can induce autophagy by releasing the autophagic protein Beclin 1 from its complexes with these proteins. Here we report a novel compound targeting the BH3 binding groove of Bcl-X_L/Bcl-2, Z18, which efficiently induces autophagy-associated cell death in HeLa cells, without apparent apoptosis. Unexpectedly, the inhibition of Beclin 1 and phosphatidylinositol 3-kinase have no obvious effect on Z18-induced autophagy in HeLa cells, implying that it is a non-canonical Beclin 1-independent autophagy. Meanwhile, the accumulation of autophagosomes is positively correlated with Z18-induced cell death and the full flux of autophagy is not necessary.     

Strontium ranelate increases the formation of bone-like mineralized nodules in osteoblast cell cultures and leads to Sr incorporation into the intact nodules

We describe effects of strontium ranelate treatment on intact mineralized nodules produced in osteoblast cell cultures. We analyzed the matrix directly at the cell culture surfaces following treatment with 0.05 and 0.5 mM Sr²⁺. This method allowed for data to be obtained from intact nodules, rather than from extracted samples. The bone-like nature of the matrix was evaluated by using attenuated total reflection Fourier transform infrared spectroscopy and the incorporation of Sr into the nodules was investigated by using both energy dispersive X-ray spectroscopy and synchrotron radiation micro X-ray fluorescence. We observed typical mineralized nodules in all of the cell cultures. However, the formation of these nodules was markedly increased in cultures treated with 0.5 mM Sr²⁺. In all of the cultures, the nature of the intact matrix was similar to that described in native bone tissue, being comprised of a poorly crystalline CO₃ ^2?-containing apatite and a collagenous matrix. This indicated that treatment had no deleterious effects on the matrix. Moreover, the nodules presented Ca and P as the main chemical components, confirming their bone-like mineralized nature. The incorporation of Sr into the nodules was clearly observed in the treated cultures, with their relative Sr content [Sr/(Ca+Sr) ratio] being markedly increased in a dose-dependent manner. Thus, strontium ranelate promoted an increase in the formation of mineralized nodules in osteoblast cell cultures while preserving the bone-like nature of the matrix at the tissue level. We further demonstrated that Sr was incorporated into the intact nodules formed during treatment.     

Kinetics of osteoprogenitor proliferation and osteoblast differentiation in vitro.

Fetal rat calvaria cells plated at very low density generate discrete colonies, some of which are bone colonies (nodules) from individual osteoprogenitors that divide and differentiate. We have analyzed the relationship between cell proliferation and acquisition of tissue-specific differentiation markers in bone colonies followed individually from the original single cell to the fully mineralized state. The size distribution of fully formed nodules is unimodal, suggesting that the coupling between proliferation and differentiation of osteoprogenitor cells is governed by a stochastic element, but distributed around an optimum, corresponding to the peak colony size/division potential. Kinetic analysis of colony growth showed that osteoprogenitors undergo 9-10 population doublings before the appearance of the first morphologically differentiated osteoblasts in the developing colony. Double immunolabeling showed that these proliferating cells express a gradient of bone markers, from proliferative alkaline phosphatase-negative cells at the periphery of colonies, to postmitotic, osteocalcin-producing osteoblasts at the centers. An inverse relationship exists between cell division and expression of osteocalcin, the latter being restricted to late-stage, BrdU-negative osteoblasts, while the expression of all other markers is acquired before the cessation of proliferation, but not concomitantly. Bone sialoprotein expression is biphasic, detectable in some of the early, alkaline phosphatase-negative cells, and again later in both late preosteoblast (BrdU-positive) and osteoblast (BrdU-negative, osteocalcin-positive) cells. In late-stage, heavily mineralized nodules, staining for osteocalcin and bone sialoprotein is not detectable in the oldest/most mature cells. Our observations support the view that the bone nodule "tissue-like" structure, originating from a single osteoprogenitor and finally encompassing mineralized matrix production, recapitulates successive stages of the osteoblast differentiation pathway, in a proliferation/maturation sequence. Understanding the complexity of the proliferation/differentiation kinetics that occurs within bone nodules will aid in the qualitative and/or quantitative interpretation of tissue-specific marker expression during osteoblastic differentiation.     

Facilitation of human osteoblast apoptosis by sulindac and indomethacin under hypoxic injury

Hypoxic–ischemia injury occurs after trauma causes consequential bone necrosis. Non‐steroid anti‐inflammatory drugs (NSAIDs) are frequently used in orthopedic clinics for pain relief. However, the underlying mechanism and outcome for usage of NSAIDs is poorly understood. To investigate the damage and loss of osteoblast function in hypoxia, two hypoxia mimetics, cobalt chloride (CoCl₂) and desferrioxamine (DFO), were used to create an in vitro hypoxic microenvironment. The cell damage was observed by decreases of cell viability and increases in cyclooxygenase‐2 and cleaved poly(ADP‐ribose) polymerase (PARP). Cell apoptosis was confirmed by WST‐1 cytotoxic assays and flow cytometry. The functional expression of osteoblast in alkaline phosphatase (ALP) activity was significantly decreased by CoCl₂ and inhibited when treated with DFO. To simulate the use of NSAID after hypoxic injury, four types of anti‐inflammatory drugs, sulindac sulfide (SUL), indomethacin (IND), aspirin (Asp), and sodium salicylate (NaS), were applied to osteoblasts after 1 h of hypoxia mimetic treatment. SUL and IND further enhanced cell death after hypoxia. ALP activity was totally abolished in hypoxic osteoblasts under IND treatment. Facilitation of osteoblast apoptosis occurred regardless of IND dosage under hypoxic conditions. To investigate osteoblast in vivo, local hypoxia was created by fracture of tibia and then treated the injured mice with IND by oral feeding. IND‐induced osteoblast apoptosis was confirmed by positive staining of TUNEL assay in fractured mice. Significant delay of fracture healing in bone tissue was also observed with the treatment of IND. These results provide information pertaining to choosing appropriate anti‐inflammatory drugs for orthopedic patients. J. Cell. Biochem. 113: 148–155, 2012. © 2011 Wiley Periodicals, Inc.     

Death receptor-3 mediates apoptosis in human osteoblasts under narrowly regulated conditions

We previously reported that a soluble form of the TNF-family receptor death receptor-3 (DR3) is expressed in osteoblasts. DR3 regulates death or differentiation in other tissues, and DR3 ligands occur in bone, but the function of DR3 in the osteoblast was unknown. We studied the expression of DR3 and the effects crosslinking antibodies to DR3 or of natural DR3 ligands in human osteoblasts. Western analysis showed that nontransformed osteoblasts and the MG63 osteosarcoma cell line produce both soluble decoy receptor and transmembrane isoforms of DR3. Cell surface labeling showed that low and high DR3-expressing osteoblast populations occur. Verification of by cloning showed a point mutation in DR3 from MG63 cells. Activation of DR3 by antibody crosslinking or with DR3 ligands caused apoptosis in osteoblasts and in MG63 cells, but only in low-density cell cultures. In dense cultures apoptosis did not occur, but nuclear factor-kappaB nuclear translocation was observed under some conditions. Crosslinking of DR3 in high-density MG63 cultures blocked expression of bone matrix elements. DR3 activation in high-density nontransformed osteoblasts had only minor effects on cell maturation. We conclude that DR3 activation can mediate apoptosis in osteoblasts. Its activity is, however, highly restricted by its soluble ligand-binding isoform and possibly also by alternate survival signals. In the presence of survival signals, DR3 may affect cell maturation although effects on differentiation were clearly seen only in the MG63 transformed cell line.     

Apoptosis modulatory activities of transiently expressed Bcl-2: Roles in cytochrome c release and Bax regulation

Bcl-2 and Bcl-X_L are pro-survival members of the Bcl-2 family. These proteins have been shown to antagonize the pro-apoptotic activity of Bax and promote cell survival through blocking Bax translocation from the cytosol to mitochondria and by preventing the release of cytochrome c. However, it has been recently reported that transiently expressed Bcl-2 unexpectedly leads to significant cell toxicity. To study this intriguing phenomenon, we have carried out further analyses into the properties of transiently expressed Bcl-2. We found that various isoforms of human and different species of Bcl-2 were equally capable of inducing apoptosis. In addition, we discovered that transient expression of Bcl-2, unlike its pro-survival homolog Bcl-X_L, can lead to the release of cytochrome c from mitochondria and that the resulting cell death can be inhibited by caspase and calpain inhibitors. Moreover, we have shown that unlike the pro-apoptotic protein Bid, the toxicity associated with the transient expression of Bcl-2 occurs independent of the activity of the endogenous Bax. Finally, we found that in spite of its intrinsic toxicity, transiently expressed Bcl-2 is fully capable of blocking the ectopically expressed Bax from localizing to mitochondria. Taken together, these studies demonstrate that transiently expressed Bcl-2 displays opposing functional properties.     

Heat-induced programmed cell death in Leishmania infantum is reverted by Bcl-XL expression

An increasing number of reports indicate that single-celled organisms are able to die following what seems to be an ordered program of cell death with strong similarities to apoptosis from higher eukaryotes. DNA degradation and several other apoptotic-like processes have also been described in the parasitic protozoa Leishmania. However, the existence of an apoptotic death in this parasite is still a matter of controversy. Our results indicate that most of the processes of macromolecular degradation and organelle dysfunction observed in mammalian cells during apoptosis can also be reproduced in promastigotes of the genus Leishmania when incubated at temperatures above 38°C. These processes can be partially reversed by the expression of the anti-apoptotic mammalian gene Bcl-X_L, which suggests that this family of apoptosis-regulating proteins was present very early in the evolution of eukaryotic cells.