Cigarette smoking and serum soluble Fas levels: Findings from the JACC study

Cigarette smoking enhances low-grade systemic inflammation in the lung and other organs. Activated immune cells play an important role at early and late stages of inflammation, and in recent years, soluble Fas (sFas), an isoform of death molecule Fas, was found to interfere with the apoptotic pathways of these activated immune cells. The aim of this study was to confirm the association between cigarette smoking and sFas levels in healthy male subjects. We measured serum sFas levels of 4415 male subjects selected as controls for a nested case-control study within the large-scale cohort study conducted in Japan, called the JACC Study. Smoking status at baseline was evaluated by a self-administered questionnaire. Least square means of sFas according to smoking status and numbers of cigarettes smoked per day among smokers were calculated and adjusted for possible confounding factors. Mean sFas levels showed an increasing trend across never smokers, past smokers and current smokers, as 2.21 (95% CI: 2.14–2.27) ng/ml, 2.29 (2.22–2.36) ng/ml, and 2.36 (2.30–2.43) ng/ml, respectively. However, no dose-response relationship was observed between the number of cigarettes smoked per day and sFas levels among smokers.     

Fas Apoptosis Inhibitory Molecule Contains a Novel β-Sandwich in Contact with a Partially Ordered Domain

Fas apoptosis inhibitory molecule (FAIM) is a soluble cytosolic protein inhibitor of programmed cell death and is found in organisms throughout the animal kingdom. A short isoform of FAIM is expressed in all tissue types, while an alternatively spliced long isoform is specifically expressed in the brain. Here, the short isoform is shown to consist of two independently folding domains in contact with each other. The NMR solution structure of the C-terminal domain of murine FAIM is solved in isolation and revealed to be a novel protein fold, a noninterleaved seven-stranded β-sandwich. The structure and sequence reveal several residues that are likely to be involved in functionally significant interactions with the N-terminal domain or other binding partners. Chemical shift perturbation is used to elucidate contacts made between the N-terminal domain and the C-terminal domain.     

Caspase-8, c-FLIP, and caspase-9 in c-Myc-induced apoptosis of fibroblasts

c-Myc is known to induce or potentiate apoptotic processes predominantly by triggering or enhancing the activity of caspases, but the activation mechanisms of caspases by c-Myc remain still poorly understood. Here we found that in MycER™ rat fibroblasts the activation of c-Myc led to an early activation and cleavage of the initiator caspase-8, and concurrent processing and activation of the effector caspases 3 and 7. Interestingly, the expression of cellular FLICE inhibitory protein (c-FLIP) mRNA and the encoded protein, c-FLIP_L, a catalytically inactive homologue of caspase-8, were down-regulated prior to or coincidently with the activation of caspase-8. Of the other known initiators, caspase-9, involved in the mitochondrial pathway, was activated/processed surprisingly late, only after the effector caspases 3/7. Further, we studied the potential involvement of the Fas- and tumor necrosis factor receptor (TNFR)-mediated signaling in the activation of caspase-8 by c-Myc. Blocking of the function of these death receptors by neutralizing antibodies against Fas ligand and TNF-α did not prevent the processing of caspase-8 or cell death. c-Myc was neither found to induce any changes in the expression of TNF-related apoptosis inducing ligand (TRAIL) or its receptor. These data suggest that caspase-8 does not become activated through an extrinsic but an “intrinsic/intracellular” apoptotic pathway unleashed by the down-regulation of c-FLIP by c-Myc. Moreover, ectopic expression of c-FLIP_L inhibited the c-Myc-induced apoptosis.     

MicroRNA expression in the aging mouse thymus

MicroRNAs (miRNAs) have been implicated in the process of aging in many model organisms, such as Caenorhabditis elegans, and in many organs, such as the mouse lung and human epididymis. However, the role of miRNAs in the thymus tissues of the aging mouse remains unclear. To address this question, we investigated the miRNA expression profiles in the thymuses of 1-, 10- and 19-month-old mice using miRNA array and qRT-PCR assays. A total of 223 mouse miRNAs were screened, and the expression levels of those miRNAs exhibited gradual increases and decreases over the course of thymus aging. Fifty miRNAs in the 10-month-old thymus and 81 miRNAs in the 19-month-old thymus were defined as differentially expressed miRNAs (p < 0.05) in comparison with their levels in the 1-month-old mouse, and approximately one-third of these miRNAs were grouped within 11 miRNA clusters. Each miRNA cluster contained 2 to 5 miRNA genes, and most of the cluster members displayed similar expression patterns, being either increased or decreased. In addition, Ingenuity Pathway Analysis (IPA) software and the IPA database were used to analyze the 12 miRNAs that exhibited significant expression changes, revealing that as many as 15 pathways may be involved. Thus, our current study determined the expression profiles of miRNAs in the mouse thymus during the process of aging. The results suggested that these miRNAs could become meaningful biomarkers for studying thymus aging and that the aging-related alternations in miRNA expression may be involved in the regulation of cell proliferation, apoptosis, development and carcinogenesis/tumorigenesis.     

DICE

The conventional view of CD95 (Fas/APO-1) is that it is a dedicated apoptosis-inducing receptor with important functions in immune cell homeostasis and in viral and tumor defense. There is an emerging recognition, however, that CD95 also has multiple non-apoptotic activities. In the context of cancer, CD95 was shown to have tumor-promoting activities, and the concept of this new function of CD95 in cancer is gaining traction. Recently, we showed that not only is CD95 a growth promoter for cancer cells, but, paradoxically, when either CD95 or CD95 ligand (CD95L) is removed, that virtually all cancer cells die through a process we have named DICE (death induced by CD95R/L elimination). In this perspective, I outline a hypothesis regarding the physiological function of DICE, and why it may be possible to use induction of DICE to treat many, if not most, cancers.     

Investigation of Gallic Acid Induced Anticancer Effect in Human Breast Carcinoma MCF‐7 Cells

Gallic acid (GA), a polyhydroxylphenolic compound abundantly distributed in plants, fruits, and foods, has been reported to have various biological activities including an anticancer effect. In this study, we extensively investigated the anticancer effect of GA in human breast carcinoma MCF‐7 cells. Our study indicated that treatment with GA resulted in inhibition of proliferation and induction of apoptosis in MCF‐7 cells. Then, the molecular mechanism of GA's apoptotic action in MCF‐7 cells was further investigated. The results revealed that GA induced apoptosis by triggering the extrinsic or Fas/FasL pathway as well as the intrinsic or mitochondrial pathway. Furthermore, the apoptotic signaling induced by GA was amplified by cross‐link between the two pathways. Taken together, our findings may be useful for understanding the mechanism of action of GA on breast cancer cells and provide new insights into the possible application of such compound and its derivatives in breast cancer therapy.     

Killer Artificial Antigen Presenting Cells (KaAPC) for Efficient In Vitro Depletion of Human Antigen-specific T Cells

Current treatment of T cell mediated autoimmune diseases relies mostly on strategies of global immunosuppression, which, in the long term, is accompanied by adverse side effects such as a reduced ability to control infections or malignancies. Therefore, new approaches need to be developed that target only the disease mediating cells and leave the remaining immune system intact. Over the past decade a variety of cell based immunotherapy strategies to modulate T cell mediated immune responses have been developed. Most of these approaches rely on tolerance-inducing antigen presenting cells (APC). However, in addition to being technically difficult and cumbersome, such cell-based approaches are highly sensitive to cytotoxic T cell responses, which limits their therapeutic capacity. Here we present a protocol for the generation of non-cellular killer artificial antigen presenting cells (KaAPC), which allows for the depletion of pathologic T cells while leaving the remaining immune system untouched and functional. KaAPC is an alternative solution to cellular immunotherapy which has potential for treating autoimmune diseases and allograft rejections by regulating undesirable T cell responses in an antigen specific fashion.     

The Temporal Relationship between Protein Phosphatase, Mitochondrial CytochromecRelease, and Caspase Activation in Apoptosis

Apoptosis is mediated by members of the caspase family of proteases which can be activated by release of mitochondrial cytochromec.Additional members of the caspase family are activated at the cell surface in response to direct stimulus from the external environment such as by activation of the Fas receptor. It has been suggested that these upstream caspases directly activate the downstream caspases which would obviate a role for cytochromecin apoptosis induced by the Fas receptor. We demonstrate that cytochromecis released from mitochondria of Jurkat cells in response to both staurosporine and an agonistic anti-Fas antibody and that only the latter is inhibited by the caspase inhibitor z-VAD-FMK. This suggests that an upstream caspase such as caspase-8 is required for the Fas-mediated release of mitochondrial cytochromec.The protein phosphatase inhibitor calyculin A prevented cytochromecrelease and apoptosis induced by both agents, suggesting that release of cytochromecis required in both models. Zinc, once thought of as an endonuclease inhibitor, has previously been shown to prevent the activation of caspase-3. We show that zinc prevents the activation of downstream caspases and apoptosis induced by both insults, yet does not prevent release of mitochondrial cytochromec.The ability of calyculin A and zinc to prevent DNA digestion implies that the mitochondrial pathway is important for induction of apoptosis by both agents. These results do not support an alternative pathway in which caspase-8 directly activates caspase-3. These results also demonstrate that a critical protein phosphatase regulates the release of cytochromecand apoptosis induced by both insults.