Lysophosphatidic acid accelerates development of porcine embryos by activating formation of the blastocoel.

Culture media modifications, including the addition of various factors, are important for the in vitro production of oocytes and embryos. In this study, we investigated the effects of lysophosphatidic acid (LPA) on porcine embryo development. Porcine parthenogenetic embryos were cultured with 0, 0.1, 1, and 10 µM LPA for 7 days, or cultured in basic medium until Day 4 and then treated with LPA from Days 4 to 7. No difference in the in vitro development of embryos cultured with LPA for 7 days was observed. Conversely, rates of blastocyst and over-expanded blastocyst formation were higher in the 0.1 and 1 µM LPA-treated versus the other groups of embryos treated from Days 4 to 7. Moreover, formation of early blastocysts occurred earlier and embryo size was larger in LPA-treated compared to control embryos. Expression of Connexin 43 and gap junction and cell adhesion-related genes (GJC1 and CDH1, respectively) was also higher in LPA-treated compared to control embryos. Despite no difference in the blastocyst total cell number between groups, the apoptotic index was lower in the LPA-treated group than in the control group; indeed, BCL2L1 (B-cell lymphoma 2-like protein 1) expression increased while BAK (Bcl-2 homologous antagonist killer) decreased in the LPA-treated group. Thus, addition of LPA to the medium from Days 4 to 7 of culture improves blastocyst formation and aids the development of preimplantation embryos.

Suture compression induced midpalatal suture chondrocyte apoptosis with increased caspase-3, caspase-9, Bad, Bak, Bax and Bid expression.

OBJECTIVE: Previous studies found bone resorption and chondrocytes loss in mouse models of mid-palatal suture when given continuous compressive force, although chondrocytes response remained unknown. Herein, we design this study to determine how continuous compression force induces chondrocytes apoptosis. METHODS: Thirty C57BL/6 male mice (aged 6 weeks) were randomly assigned into controls (not ligated to a spring), blank controls (ligated with no compression) and the compression group (ligated with 20-g compression). After 4 d, palatal tissues were sampled and stained by TB and safranin-O. Tunel staining measured the percentage of apoptotic chondrocytes, and immunohistochemistry was performed to label apoptosis-associated proteins (e.g., Bcl-2, Bcl-xl, Bax, Bak, Bid, Bad, caspase-3, caspase-8 and caspase-9). Intergroup comparison was made by the rank sum test, and P < 0.05 was defined as statistical significance. RESULTS: After 7d of induction, TB and safranin-O staining revealed that the cartilage area in the compression group was significantly decreased, while the control group remained largely unaltered. Tunel staining showed that apoptotic cell numbers in the mid-palatal suture were significantly higher than the control group. Immunohistochemistry showed that mice in the compression group had significantly increased expression of caspase-3, caspase-9, Bad, Bak, Bax and Bid; However, caspase-8 remained unaltered. No expression of Bcl-2 and Bcl-xl was detected. CONCLUSIONS: Continuous compression force induces chondrocytes apoptosis in the mid-palatal suture. This process might be associated with the mitochondrial pathway.

Toll like receptor 4 signaling pathway participated in Salmonella lipopolysaccharide-induced spleen injury in young chicks.

Spleen is one of the crucial sites for cellular and humoral immunity but it easily damaged during pathogenic infections resulting in immunosuppression. The current study was therefore performed to explore the mechanism of acute spleen injury induced by salmonella lipopolysaccharide (LPS) in young chicks. Healthy one-day-old Cobb strain broiler chicks were intra-peritoneally injected with saline or LPS. LPS treatment caused significant decreases in body and spleen weights at 36 and 72 h. Histological analysis showed the changes of ellipsoid structures with beginning of nuclear pyknosis and karyolysis similar to steatosis at 12 h, maximum histopathological lesions were seen at 36 h, however these were disappeared at 72 h post LPS stimulation. Cell proliferation was decreased (low PCNA positivity) and apoptosis increased (high ssDNA positivity) in the spleen at 12 and 36 h after LPS treatment. The expression levels of mRNA for caspase-3, caspase-8, B-cell lymphoma 2 (BCL-2), tumor protein p53 or p53 and Bcl-2 homologous antagonist killer (BAK) showed slight increase at some time points following LPS stimulation. LPS treatment also induced significant up-regulation in toll like receptor 4 (TLR4) at 36 h post LPS stimulation and slight increase in expressions of its downstream molecules (MyD88 and NF-κB) at 12 h post LPS treatment. The keystone cytokines (TNF-α and IL-6) exhibited significant up-regulation at 12 h following LPS stimulation. Our findings provided novel information about the histopathological as well as apoptotic and proliferative alterations in spleen mediated by TLR4 signaling induced by Salmonella LPS in avian species.

ABT737 enhances cholangiocarcinoma sensitivity to cisplatin through regulation of mitochondrial dynamics.

Cholangiocarcinoma responses weakly to cisplatin. Mitochondrial dynamics participate in the response to various stresses, and mainly involve mitophagy and mitochondrial fusion and fission. Bcl-2 family proteins play critical roles in orchestrating mitochondrial dynamics, and are involved in the resistance to cisplatin. Here we reported that ABT737, combined with cisplatin, can promote cholangiocarcinoma cells to undergo apoptosis. We found that the combined treatment decreased the Mcl-1 pro-survival form and increased Bak. Cells undergoing cisplatin treatment showed hyperfused mitochondria, whereas fragmentation was dominant in the mitochondria of cells exposed to the combined treatment, with higher Fis1 levels, decreased Mfn2 and OPA1 levels, increased ratio of Drp1 60kD to 80kD form, and more Drp1 located on mitochondria. More p62 aggregates were observed in cells with fragmented mitochondria, and they gradually translocated to mitochondria. Mitophagy was induced by the combined treatment. Knockdown p62 decreased the Drp1 ratio, increased Tom20, and increased cell viability. Our data indicated that mitochondrial dynamics play an important role in the response of cholangiocarcinoma to cisplatin. ABT737 might enhance cholangiocarcinoma sensitivity to cisplatin through regulation of mitochondrial dynamics and the balance within Bcl-2 family proteins. Furthermore, p62 seems to be critical in the regulation of mitochondrial dynamics.

Type I interferon upregulates Bak and contributes to T cell loss during human immunodeficiency virus (HIV) infection.

The role of Type I interferon (IFN) during pathogenic HIV and SIV infections remains unclear, with conflicting observations suggesting protective versus immunopathological effects. We therefore examined the effect of IFNα/ß on T cell death and viremia in HIV infection. Ex vivo analysis of eight pro- and anti-apoptotic molecules in chronic HIV-1 infection revealed that pro-apoptotic Bak was increased in CD4+ T cells and correlated directly with sensitivity to CD95/Fas-mediated apoptosis and inversely with CD4+ T cell counts. Apoptosis sensitivity and Bak expression were primarily increased in effector memory T cells. Knockdown of Bak by RNA interference inhibited CD95/Fas-induced death of T cells from HIV-1-infected individuals. In HIV-1-infected patients, IFNα-stimulated gene expression correlated positively with ex vivo T cell Bak levels, CD95/Fas-mediated apoptosis and viremia and negatively with CD4+ T cell counts. In vitro IFNα/ß stimulation enhanced Bak expression, CD95/Fas expression and CD95/Fas-mediated apoptosis in healthy donor T cells and induced death of HIV-specific CD8+ T cells from HIV-1-infected patients. HIV-1 in vitro sensitized T cells to CD95/Fas-induced apoptosis and this was Toll-like receptor (TLR)7/9- and Type I IFN-dependent. This sensitization by HIV-1 was due to an indirect effect on T cells, as it occurred in peripheral blood mononuclear cell cultures but not purified CD4+ T cells. Finally, peak IFNα levels and viral loads correlated negatively during acute SIV infection suggesting a potential antiviral effect, but positively during chronic SIV infection indicating that either the virus drives IFNα production or IFNα may facilitate loss of viral control. The above findings indicate stage-specific opposing effects of Type I IFNs during HIV-1 infection and suggest a novel mechanism by which these cytokines contribute to T cell depletion, dysregulation of cellular immunity and disease progression.

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-XL. Furthermore, adjusting expression levels of Bak, Bcl-XL, 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.

miR-125b inhibitor enhance the chemosensitivity of glioblastoma stem cells to temozolomide by targeting Bak1.

Temozolomide (TMZ) is a promising chemotherapeutic agent for treating glioblastomas. However, resistance develops quickly with a high frequency. Glioblastoma stem cells (GSCs) causing resistance to drug therapy were considered to be one of key factors. The mechanisms underlying GSCs resistance to TMZ are not fully understood. MicroRNAs (miRNAs) have emerged to play important roles in tumorigenesis and drug resistance. Previous study showed that miR-125b was necessary for GSCs fission and for making stem cells insensitive to chemotherapy. Thus, exploring the functions and mechanisms of miR-125b action on TMZ-treated GSCs would be valuable. In this study, we found that miR-125b was up-regulated in TMZ-resistant cells, inhibition of which caused a marked increase of TMZ-induced cytotoxicity and apoptosis and a subsequent decrease in the resistance to TMZ in GSCs. Moreover, we demonstrated that the pro-apoptotic Bcl-2 antagonist killer 1 (Bak1) was a direct target of miR-125b. Down-regulation of Bak1 inhibited TMZ-induced apoptosis and led to an increased resistance to TMZ. Restoring Bak1 expression recovered TMZ sensitivity on GSCs. Taken together; our data strongly support an important role for miR-125b on conferring TMZ resistance through targeting Bak1 expression.

Autocrine TNF is critical for the survival of human dendritic cells by regulating BAK, BCL-2, and FLIPL.

The life span of dendritic cells (DCs) is determined by the balance of pro- and antiapoptotic proteins. In this study, we report that serum-free cultured human monocyte-derived DCs after TLR stimulation with polyinosinic acid-polycytidylic acid or LPS underwent apoptosis, which was correlated with low TNF production. Apoptosis was prevented by the addition of exogenous TNF or by concomitant stimulation with R-848, which strongly amplified endogenous TNF production. Neutralization of TNF confirmed that DC survival was mediated by autocrine TNF induced either by stimulation with R-848 or by ligation of CD40. DCs stimulated by polyinosinic acid-polycytidylic acid or IFN-ß, another known inducer of DC apoptosis, were characterized by high levels and activation of the proapoptotic protein BAK. The ratio of antiapoptotic BCL-2 to BAK correlated best with the survival of activated DCs. Addition of TNF increased this ratio but had little effect on BAX and XIAP. Knockdown experiments using small interfering RNAs confirmed that the survival of activated and also of immature DCs was regulated by BAK and showed that TNF was protective only in the presence of FLIP(L). Together, our data demonstrate that the survival of DCs during differentiation and activation depends on autocrine TNF and that the inhibition of BAK plays an important role in this process.

Elevated serine protease HtrA1 inhibits cell proliferation, reduces invasion, and induces apoptosis in esophageal squamous cell carcinoma by blocking the nuclear factor-κB signaling pathway.

Emerging evidence has demonstrated that high-temperature requirement protein A1 (HtrA1) appears to be involved in several important biological processes in mammals such as growth, apoptosis, embryogenesis, invasion, metastasis, and cancer and has been verified to be reduced in a variety of human tumors. However, its precise functions and molecular mechanisms in esophageal squamous cell carcinoma (ESCC) remain unclear. Here, we detected HtrA1 level in ESCC tissues and cells and investigated the biological roles of HtrA1 in ESCC. We found that expressions of HtrA1 mRNA and protein in ESCC tissues and cells were significantly lower than those in normal esophageal epithelial tissues and cells (P < 0.05). Expressions of HtrA1 mRNA and protein were closely associated with TNM staging and lymph node metastasis (P < 0.05). Additionally, the survival rate of patients with low HtrA1 level was lower than those patients with high HtrA1 level (P < 0.05). Elevated HtrA1 level markedly inhibited cell proliferation in vitro and in vivo, reduced cell invasion in vitro, and induced cell apoptosis. Notably, HtrA1 overexpression inhibited phosphorylation levels of IκBα and p65 subunit of the NF-κB signaling pathway, but increased total IκBα level, coupled with decreases of Ki-67, Bcl-2, Bcl-xL, cyclin D1, and MMP-9 proteins and increase of caspase-3 activity. Overall, these data suggest that HtrA1 may play critical roles in the tumorgenesis and progression of ESCC, and HtrA1 overexpression exerts its anti-tumor effect by blocking the NF-κB signaling pathway; thus, manipulation of HtrA1 may be an effective molecular target for ESCC treatment.

Age-related hearing loss in C57BL/6J mice is mediated by Bak-dependent mitochondrial apoptosis.

Age-related hearing loss (AHL), known as presbycusis, is a universal feature of mammalian aging and is the most common sensory disorder in the elderly population. The molecular mechanisms underlying AHL are unknown, and currently there is no treatment for the disorder. Here we report that C57BL/6J mice with a deletion of the mitochondrial pro-apoptotic gene Bak exhibit reduced age-related apoptotic cell death of spiral ganglion neurons and hair cells in the cochlea, and prevention of AHL. Oxidative stress induces Bak expression in primary cochlear cells, and Bak deficiency prevents apoptotic cell death. Furthermore, a mitochondrially targeted catalase transgene suppresses Bak expression in the cochlea, reduces cochlear cell death, and prevents AHL. Oral supplementation with the mitochondrial antioxidants alpha-lipoic acid and coenzyme Q(10) also suppresses Bak expression in the cochlea, reduces cochlear cell death, and prevents AHL. Thus, induction of a Bak-dependent mitochondrial apoptosis program in response to oxidative stress is a key mechanism of AHL in C57BL/6J mice.

The role of interleukin-6, endothelins, and apoptotic genes in small bowel transplantation, in a swine model of ischemia and reperfusion injury.

IRI is closely related to sepsis in ITx setting. Complete understanding of the mechanisms involved in IRI development may improve outcomes. Ortothopic ITx without immunosuppression was performed in order to characterize IRI-associated mucosal damage. Twenty pigs underwent ITx. Two groups were assigned to different CI times: G1: 90 min and, G2: 180 min. Euro-Collins was used as preservation solution. Jejunal fragments were collected at donor laparotomy, 30 min, and 3 days after reperfusion. IRI assessment involved: histopathologic analysis, quantification of MPO-positive cells through immunohistochemical studies, quantification of epithelial apoptotic cells using TUNEL staining, and quantification of IL-6, ET-1, Bak, and Bcl-XL genes expression by RT-PCR. Neutrophilic infiltration increased in a similar fashion in both groups, but lasted longer in G2. Apoptosis detected by TUNEL staining increased and anti-apoptotic gene Bcl-XL expression decreased significantly in G1, 3 days after surgery. Endothelin-1 and IL-6 genes expression increased 30 min after the procedure and returned to baseline 3 days after surgery. In conclusion, IL-6 and ET-1 are involved precociously in the development of intestinal IRI. Apoptosis was more frequently detected in G1 grafts by TUNEL-staining and by RT-PCR.

Cell-bound exopolysaccharide from probiotic bacteria induces autophagic cell death of tumour cells.

AIM: Lactic acid bacteria (LAB) are beneficial micro-organisms that have been associated with several probiotic effects in both humans and animals. Here, using proteome analysis, we investigate the antitumour effects of cell-bound exopolysaccharides (cb-EPS) isolated from Lactobacillus acidophilus 606 on colon cancer cells and explore the proteins critical for their antitumour activity. METHODS AND RESULTS: cb-EPS inhibited the proliferation of HT-29 colon cancer cells by directly affecting cell morphology and not the cell cycle. Using two-dimensional polyacrylamide gel electrophoresis coupled with matrix-assisted laser desorption-ionization time-of-flight mass spectrometry (MALDI-TOF/MS) and immunoblot analysis, we found that cb-EPS dramatically induced Beclin-1 and GRP78, and affected Bcl-2 and Bak regulation. CONCLUSIONS: The results of this study indicate that cb-EPS are antitumourigenic against HT-29 colon cancer cells and that this activity is because of the activation of autophagic cell death promoted directly by the induction of Beclin-1 and GRP78, as well as indirectly through the induction of Bcl-2 and Bak. SIGNIFICANCE AND IMPACT OF THE STUDY: These results may contribute to understanding the novel mechanisms by which probiotic bacteria induce tumour cell death via autophagy.

Effects of varicocele upon the expression of apoptosis-related proteins.

Varicocele-associated apoptosis has been recognised as a cause of male infertility. Thus, we assessed the expression of somatic apoptosis-related proteins (the typical protein-dependent apoptosis markers) in ejaculated sperm plasma from both patients with varicocele and normal donors. We evaluated the relationships between certain apoptosis-related proteins and normal semen quality. Semen samples were obtained from 25 patients with varicocele and from 10 normal fertile controls. These samples were compared using computer-assisted semen analysis for motion parameters and manual analysis for morphology, and were also assayed for apoptosis-related protein activation including caspase-3, poly-ACP-ribose polymerase (PARP), the Bcl-2 family (Bcl-2, Bak) and p53 by means of immunoblot analysis. PARP, Bak and p53 were expressed substantially more in the sperm cells of the varicocele group when compared with the normal group (P < 0.05). The expression of caspase-3 and Bcl-2 did not appear to differ between these two study groups. An increased expression of PARP, Bak and p53 for varicocele-afflicted individuals indicated an increased participation by these agents in the regulating of apoptosis in the ejaculated semen from patients with varicocele, suggesting that certain protein-development apoptotic mechanisms might originate in the cytoplasmic droplet or within mitochondria of spermatocytes and then might function within the nucleus of the cell.

Bcl-2 regulates the onset of shiga toxin 1-induced apoptosis in THP-1 cells.

Shiga toxins (Stxs), which are proteins expressed by the enteric pathogens Shigella dysenteriae serotype 1 and some serotypes of Escherichia coli, are potent protein synthesis inhibitors. Stx-producing organisms cause bloody diarrhea with the potential to progress to acute renal failure and central nervous system complications. Studies using animal models of these diseases have shown that Stxs are major virulence factors, and purified toxins have been shown to be capable of killing many types of cells in vitro. We showed that Stx type 1 (Stx1) rapidly induced apoptosis in undifferentiated, monocytic THP-1 cells through a mechanism involving the endoplasmic reticulum (ER) stress response. Rapid apoptosis correlated with increased expression of C/EBP homologous protein (CHOP), TRAIL, and DR5, while expression of the antiapoptotic factor Bcl-2 was downregulated. Stx1 treatment of differentiated, macrophage-like THP-1 cells was associated with cytokine production and delayed apoptosis. The mechanisms contributing to cell maturation-dependent differences in responses to Stx1 are unknown. We show here that in macrophage-like cells, Stx1 activated the proximal ER stress sensors RNA-dependent protein kinase-like ER kinase and inositol-requiring ER signal kinase 1alpha but did not activate activating transcription factor 6. Proapoptotic signaling pathways mediated by CHOP and by Bax and Bak were activated by Stx1. However, the toxin also activated prosurvival signaling through increased expression, mitochondrial translocation, and alternative phosphorylation of Bcl-2.

Arsenic induces cell apoptosis in cultured osteoblasts through endoplasmic reticulum stress.

Osteoporosis is characterized by low bone mass resulting from an imbalance between bone resorption by osteoclasts and bone formation by osteoblasts. Therefore, decreased bone formation by osteoblasts may lead to the development of osteoporosis, and rate of apoptosis is responsible for the regulation of bone formation. Arsenic (As) exists ubiquitously in our environment and increases the risk of neurotoxicity, liver injury, peripheral vascular disease and cancer. However, the effect of As on apoptosis of osteoblasts is mostly unknown. Here, we found that As induced cell apoptosis in osteoblastic cell lines (including hFOB, MC3T3-E1 and MG-63) and mouse bone marrow stromal cells (M2-10B4). As also induced upregulation of Bax and Bak, downregulation of Bcl-2 and dysfunction of mitochondria in osteoblasts. As also triggered endoplasmic reticulum (ER) stress, as indicated by changes in cytosolic-calcium levels. We found that As increased the expression and activities of glucose-regulated protein 78 (GRP78) and calpain. Transfection of cells with GRP78 or calpain siRNA reduced As-mediated cell apoptosis in osteoblasts. Therefore, our results suggest that As increased cell apoptosis in cultured osteoblasts and increased the risk of osteoporosis.

Bax deficiency promotes an up-regulation of Bim(EL) and Bak during striatal and cortical postnatal development, and after excitotoxic injury.

In this study we analyzed whether other members of the Bcl-2 family are regulated in the absence of Bax during the postnatal development of the striatum and cortex and after striatal excitotoxic lesion. Compared with wild-type animals, Bax knockout mice showed region- and time-dependent increases in pro-apoptotic proteins Bak and Bim(EL). Excitotoxicity induced in the adult striatum increased Bim(EL) in both genotypes whereas Bak and Bcl-x(L) were only increased in Bax knockout mice. However, translocation of Bim(EL) protein to the mitochondrial fraction, cytochrome c release and caspase-3 activation were only observed in wild-type striata. Furthermore, analysis of Bim null mutant mice showed that this protein is not essential to excitotoxicity-induced striatal cell death. In conclusion, our results show that in Bax deficient mice Bim(EL) and Bak are specifically regulated during postnatal development, suggesting that these proteins may participate in the compensatory mechanisms triggered in the absence of Bax. In contrast, Bax is required to induce apoptosis after excitotoxicity in the adult striatum.

Gossypol induced apoptosis of polymorphonuclear leukocytes and monocytes: involvement of mitochondrial pathway and reactive oxygen species.

The aim of this study was to determine how gossypol affects the viability and activity of polymorphonuclear leukocytes and monocytes in blood obtained from healthy donors. Loss of mitochondrial membrane potential (delta psi m) and apoptosis was maximized in human polymorphonuclear leukocytes and monocytes after incubation with gossypol. Pretreatment with a caspase-9 inhibitor or antioxidants (superoxide dismutase or Trolox) inhibited gossypol-induced loss of the delta psi m and apoptosis. Likewise, we observed participation of caspase -3, -7, and -10 in gossypol-induced apoptosis. Expression of the proapoptotic genes bax, bak, bad and p53/Tp53 increased in polymorphonuclear leukocytes exposed to gossypol. The expression of the anti-apoptotic genes bcl-(XL) and mcl-1 was reduced when polymorphonuclear leukocytes and monocytes were treated with gossypol. Gossypol treatment also inhibited yeast phagocytosis by these cells. We concluded that gossypol induces apoptosis in phagocytic cells and that this effect was dose-dependent. The findings in this report may be important to consider in light of possible gossypol use in clinical strategies for cancer treatment.

Maneb potentiates paraquat neurotoxicity by inducing key Bcl-2 family members.

An important feature of Parkinson's disease is the degeneration of dopaminergic neurons in the Substantia Nigra pars compacta. Paraquat (PQ) and MPTP cause the selective degeneration of these neurons in vivo, and combining PQ with maneb exacerbates that pathology. Elucidation of the cell death mechanisms involved is important to understand how multiple environmental toxins may contribute to sporadic Parkinson's disease. We recently reported that PQ induces neuronal apoptosis through Bak activation, in contrast to MPP(+), the toxic metabolite of MPTP, which relies on Bax and p53. Here we show that individually PQ and maneb activate Bak, but together they trigger Bax-dependent cell death. Focusing on mechanisms responsible for this synergy, we found that maneb+PQ increased the expression of three strong Bak inhibitors, Bfl-1, Bcl-xL and Mcl-1, and also induced Bax activators that included Bik and Bim. Those responses favor Bax-dependent MOMP and apoptosis. SiRNA knockdown of Bax and Bak confirmed that individually PQ and maneb induce Bak-dependent cell death, but together they block the Bak pathway and activate apoptosis through Bax.

Bcl-2 genes regulate noise-induced hearing loss.

Proteins of the Bcl-2 family have been implicated in control of apoptotic pathways modulating neuronal cell death, including noise-induced hearing loss. In this study, we assessed the expressions of anti- and proapoptotic Bcl-2 genes, represented by Bcl-xL and Bak following noise exposures, which yielded temporary threshold shift (TTS) or permanent threshold shift (PTS). Auditory brainstem responses (ABRs) were assessed at 4, 8, and 16 kHz before exposure and on days 1, 3, 7, and 10 following exposure to 100 dB SPL, 4 kHz OBN, 1 hr (TTS) or 120 dB SPL, 4 kHz OBN, 5 hr (PTS). On day 10, subjects were euthanized. ABR thresholds increased following both exposures, fully recovered following the TTS exposure, and showed a 22.6 dB (4 kHz), 42.5 dB (8 kHz), and 44.9 dB (16 kHz) mean shift on day 10 following the PTS exposure. PTS was accompanied by outer hair cell loss progressing epically and basally from the 4-kHz region. Additional animals were euthanized for immunohistochemical assessment. BcL-xL was robustly expressed in outer hair cells following TTS exposure, whereas Bak was expressed following PTS exposure. These results indicate an important role of the Bcl-2 family proteins in regulating sensory cell survival or death following intense noise. Bcl-xL plays an essential role in prevention of sensory cell death following TTS levels of noise, and PTS exposure provokes the expression of Bak and, with that, cell death.

Enhancement of sodium butyrate-induced cell death by hyperthermia in HCT 116 human colorectal cancer cells.

AIM: The possible enhancing effect of the combined use of sodium butyrate (SB) and hyperthermia to kill HCT 116 cells was evaluated. MATERIALS AND METHODS: HCT 116 cells were subjected to SB (1 mM) treatment followed by hyperthermia (44 degrees C 60 min) and the effects on cell death, cell proliferation and the cell cycle were examined. Apoptosis-indicating protein expressions and intracellular superoxide formation were also analysed. RESULTS: A marked reduction in the growth rate of the combined-treatment group was observed compared to those of the single-treatment groups. This involved the increased expression of p53 and p21, the alteration of the balance of anti- and proapoptotic Bcl-2 family proteins and enhanced superoxide formation. However, the death receptor pathway played no role. CONCLUSION: Hyperthermia synergistically promoted cell death induced by SB. Thus, the combined treatment led to mutual potentiation of the killing effects of each agent.