Expression of Bcl—2 inhibited Fas—mediated apoptosis in human hepatocellular carcinoma BEL—7404 cells

Apoptosis plays an important role in embryonic development,tissue remodeling,immune regulation and tumor regression.Two groups of molecules(Bcl-2 family and “Death factor” family) are involved in regulating apoptosis.In order to know about the effect of Bcl-2 on apoptosis induced by Fas,a typical member of “Death factor” family,the transfection experiments with expression vectors pcDNA3-fl and pcDNA3-bcl-2 were performed in BEL-7404 cells,a human hepatocellular carcinoma cell line which expresses endogenous Fas,but not FasL and Bcl-2.The data showed that the expression of FasL in pcDNA3-fl transfected hepatoma cells obviously induced the apoptosis of the cells.However,the overexpression of Bcl-2 in pcDNA3-bcl-2 transfected 7404/b-16 cells counteracted pcDNA3-fl transient transfection mediated apoptosis.Further study by cotransfection experiments indicated that Bid but not Bax (both were pro-apoptotic proteins of Bcl-2 family) blocked the inhibitory effect of Bcl-2 on Fas-mediated apoptosis.These results suggested that Fas-mediated apoptosis in human hepatoma cells is possibly regulated by Bcl-2 family proteins via mitochondria pathway.     

The role of apoptosis in the development and function of T lymphocytes

Apoptosis plays an essential role in T cell biology. Thymocytes expressing nonfunctional or autoreactive TCRs are eliminated by apoptosis during development. Apoptosis also leads to the deletion of expanded effector T cells during immune responses. The dysregulation of apoptosis in the immune system results in autoimmunity, tumorogenesis and immunodeficiency. Two major pathways lead to apoptosis： the intrinsic cell death pathway controlled by Bcl-2 family members and the extrinsic cell death pathway controlled by death receptor signaling. These two pathways work together to regulate T lymphocyte development and function.     

Signal transduction mediated by Bid,a pro—death Bcl—2 family proteins,connects the death receptor and mitochondria apoptosis pathways

Two major apoptosis pathways have been defined in mammalian cells,the Fas/TNF-R1 death receptor pathway and the mitochondria pathway.The Bcl-2 family proteins consist of both anti-apoptosis and pro-apoptosis members that regulate apoptosis,mainly by controlling the release of cytochrome c and other mitochondrial apoptotic events.However,death signals mediated by Fas/TNF-R1 receptors can usually activate caspases directly,bypassing the need for mitochondria and escaping the regulation by Bcl-2 family proteins.Bid is a novel pro-apoptosis Bcl-2 family protein that is activated by caspase 8 in response to Fas/TNF-R1 death receptor signals.Activated Bid is translocated to mitochondria and induces cytochrome c release,which in turn activates downstream caspases.Such a connection between the two apoptosis pathways could be important for induction of apoptosis in certain types of cells and responsible for the pathogenesis of a number of human diseases.     

Mechanism of Smac in regulating cell apoptosis and its implication in cancer chemotherapy

The Second mitochondrial-derived activator of caspase (Smac), a mitochondrial protein, plays an important role in inducing cell apoptosis by activating caspases. After receiving apoptotic signals, mitochondria releases cytochrome c to induce the formation of caspase-9 activating apoptosome and releases Smac to counteract the inhibitory activity of IAPs. Mature Smac binds to human IAP family members and relieves their inhibition of caspases. In this study, the human osteosarcoma cell line Saos-2 was used to establish the apoptosis model. Smac expression during cell growth and its biological effects in inducing cell apoptosis     

Bcl-2 over-expression and activation of protein kinase C suppress the Trail-induced apoptosis in Jurkat T cells

INTRODUCTIONThaillll (TNF-related apoptosis inducing ligand)is a recently described member of the TNF family.Like other members of the TNF ligand family) availcould induce apoptosis of neoplastically transformedcells by priVating cell surface death receptors ThailRI and ThaiLR212].Trail has been demonstrated to play an important role in homeostasis of immune system includ.lug eradication of the old lymphocytel3], actiVationinduced T cell deathI41, regulation Of T cen eXPansion by…     

Nerve growth factor prevents the apoptosis-associated increase in acetylcholinesterase activity after hydrogen peroxide treatment by activating Akt

Acetylcholinesterase (ACHE) is thought to play an important role during apoptosis.Our resultsshowed that H_2O_2 induced AChE activity,a functional marker in apoptosis,increases in neuronal-like PC 12cells.Glutathione, which is involved in cellular redox homeostasis,inhibited the increase of AChE activity,suggesting that reactive oxygen species (ROS) play a key role in this process.Further investigation showedthat the elevation of AChE was observed after the degradation of Akt, release of cytochrome c from mitochondriainto the cytosol,and activation of caspase family members.When nerve growth factor (NGF) was present,with the maintenance of Akt level,the elevation of AChE,the cytochrome c diffusion,as well as apoptosiswere markedly attenuated in H202-treated PC 12 cells. However,wortmannin,an inhibitor of the PI3K/Aktpathway,accelerated the apoptosis and increased the AChE activity.The overexpression of constitutivelyactivated Akt,which is a downstream signalling element of the NGF receptor TrkA,delayed mitochondrialcollapse and inhibited elevation of AChE activity.Thus, NGF prevented apoptosis and elevation of AChEactivity by activating the Akt pathway and stabilizing the function of mitochondria.     

The SHP—2 tyrosine phosphatase：Signaling mechanisms and biological functions

Cellular biological avtivities are tightly controlled by intracellular signaling processes initiated by extracellular signals.Protein tyrosine phosphatases,which remove phosphate groups from phosphorylated signaling molecules,play equally important tyrosine roles as protein tyrosine kinases in signal transduction.SHP-2 a cytoplasmic SH2 domain containing protein tyrosine phosphatase,is involved in the signaling pathways of a variety of growth factors and cytokines.Recent studies have clearly demonstrated that this phosphatase plays an important role in transducing signal relay from the cell surface to the nucleus,and is a critical intracellular regulator in mediating cell proliferation and differentiation.     

Dimerization of two novel apoptosis-inducing proteins and its function in regulating cell apoptosis

Apoptosis (or programmed cell death) was firstly described by Kerr[1] in 1972. Since bcl-2 cDNA was cloned by Cleary et al.[2] in 1986, many apoptosis-related genes have been found in human or mammalian cell lines. The bcl-2 family[35] containing 23 genes, the caspase family[68] bearing 14 members and the TNF family[9,10] are the most clearly elucidated ones. With the study of apoptosis going deeper, people have realized that cell apoptosis is impor-tant in development and homeostasis of mu…     

iASPP protects the heart from ischemia injury by inhibiting p53 expression and cardiomyocyte apoptosis

Currently, there remains a great need to elucidate the molecular mechanism of acute myocardial infarction in order to facilitate the development of novel therapy. Inhibitor of apoptosis-stimulating protein of p53 (iASPP) is a member of the ASPP family proteins and an evolutionarily preserved inhibitor of p53 that is involved in many cellular processes, including apoptosis of cancer cells. The purpose of this study was to investigate the possible role of iASPP in acute myocardial infarction. The protein level of iASPP was markedly reduced in the ischemic hearts in vivo and hydrogen peroxide-exposed cardiomyocytes in vitro. Overexpression of iASPP reduced the infarct size and cardiomyocyte apoptosis of mice subjected to 24 h of coronary artery ligation. Echocardiography showed that cardiac function was improved as indicated by the increase in ejection fraction and fractional shortening. In contrast, knockdown of iASPP exacerbated cardiac injury as manifested by impaired cardiac function, increased infarct size, and apoptosis rate. Mechanistically, overexpression of iASPP inhibited, while knockdown of iASPP increased the expressions of p53 and Bax, the key regulators of apoptosis. Taken together, our results suggested that iASPP is an important regulator of cardiomyocyte apoptosis, which represents a potential target in the therapy of myocardial infarction.     

Caspases - an update

Caspases belong to a family of highly conserved aspartate-specific cysteine proteases and are members of the interleukin-1beta-converting enzyme family, present in multicellular organisms. The caspase gene family consists of 15 mammalian members that are grouped into two major sub-families, namely inflammatory caspases and apoptotic caspases. The apoptotic caspases are further subdivided into two sub-groups, initiator caspases and executioner caspases. The caspases form a caspase-cascade system that plays the central role in the induction, transduction and amplification of intracellular apoptotic signals for cell fate determination, regulation of immunity, and cellular proliferation and differentiation. The substrates of apoptotic caspases have been associated with cellular dismantling, while inflammatory caspases mediate the proteolytic activation of inflammatory cytokines. The activation of this delicate caspase-cascade system and its functions are regulated by a variety of regulatory molecules, such as the inhibitor of apoptosis protein (IAP), FLICE, calpain, and Ca(2+). Based on the available literature we have reviewed and discussed the members of the caspase family, caspase-cascade system, caspase-regulating molecules and their apoptotic and non-apoptotic functions in cellular life and death. Also recent progress in the molecular structure and physiological role of non-mammalian caspases such as paracaspases, metacaspases and caspase-like-protease family members are included in relation to that of mammalian species.     

Regulation of apoptosis by Bcl-2 family proteins

For multicellular organisms, the rigorous control of programmed cell death is as important as that of cell proliferation. The mechanisms involved in the regulation of cell death are not yet understood, but a key component is the family of caspases which are activated in a cascade and are responsible for the apoptotic-specific changes and disassembly of the cell. Although the caspases represent a central point in apoptosis, their activation is regulated by a variety of other factors. Among these, Bcl-2 family plays a pivotal role in caspases activation, by this deciding whether a cell will live or die. Bcl-2 family members are known to focus much of their response to the mitochondria level, upstream the irreversible cellular damage, but their functions are not yet well defined. This review summarizes the recent data regarding the Bcl-2 proteins and the ways they regulate the apoptosis.     

凋亡抑制蛋白IAP及其调控

调亡过程中关键参与者是caspase家族的多种成员,它们在凋亡过程中要受到严格调控。凋亡抑制蛋白IAP通过抑制caspase的活性从而参与对凋亡的调控,所以IAP的结构特征及其调控机制具有重要意义。     

CD155 knockdown promotes apoptosis via AKT/Bcl‐2/Bax in colon cancer cells

CD155, one of the nectin‐like molecule family members, is involved in cell adhesion and motility. CD155 is overexpressed in several human cancers, but its role in proliferation and apoptosis of colorectal cancer remains unclear. We found that CD155 was up‐regulated in colorectal cancer tissues. CD155 knockdown via shRNA lentiviruses inhibited colon cancers cell migration and invasion, with a reduction in the expression of FAK, Src and MMP‐2. CD155 down‐regulation also suppressed colon cancer cell proliferation, accompanied by changing expressions of some molecules related to cell cycle. Finally, CD155 knockdown increased the expression ratio between Bax and Bcl‐2, resulting in a significant increase in colon cancer cell apoptosis. Taken together, these results demonstrate that CD155 is involved in not only migration and invasion but also proliferation and survival abilities of colon cancer cells, suggesting that CD155 is one of key molecules promoting the growth and metastasis of colorectal cancer.     

Bcl-2 family gene modulation during spontaneous apoptosis of B-chronic lymphocytic leukemia cells

Malignant cell accumulation in B-cell chronic lymphocytic leukemia (B-CLL) is primarily caused by defective apoptosis rather than increased proliferation. To further understand the role of Bcl-2 family members, known regulators of apoptosis, in the abnormal B-CLL survival, we have measured their mRNA levels in fresh B-CLL cells and in cultures undergoing spontaneous apoptosis. Using RNA protection assays we found constitutive expression of most bcl-2 members with high levels of bcl2, bcl-w, bad, bak, bax, and the bcl-2/bax ratio, compared to normal PBL. Spontaneous apoptosis of B-CLL cells by in vitro culture resulted in decreased bcl-2, bcl-w, bfl-1, mcl-1, bak, bax, and bcl-2/bax expression. The pro-apoptotic member bik was only expressed in 5/19 cases and was not modulated during apoptosis, suggesting that bik is not involved in this process. Thus, several Bcl-2 family genes are regulated during B-CLL spontaneous apoptosis and their relative levels may contribute to in vivo progression of the disease.     

唯BH3域蛋白与神经细胞凋亡

细胞凋亡在神经细胞的生理性和病理性死亡中起着重要作用。唯BH3域蛋白是Bcl-2家族中的一类仅含有BH3同源结构域的促凋亡分子,它们通过抑制Bcl-2抗凋亡成员的活性或激活Bax/Bak样促凋亡成员的活性来调节细胞凋亡。最近研究表明,唯BH3域蛋白在凋亡的启动及凋亡通路的沟通中发挥着极其重要的作用。     

Mitochondrial Carrier Homolog 2: A Clue to Cracking the BCL-2 Family Riddle?

BCL-2 family members are pivotal regulators of the apoptotic process. Mitochondria are a major site-of-action for these proteins. Several prominent alterations occur to mitochondria during apoptosis that seem to be part of the “mitochondrial apoptotic program.” The BCL-2 family members are believed to be the major regulators of this program, however their exact mechanism of action still remains a mystery. BID, a pro-apoptotic BCL-2 family member plays an essential role in initiating this program. Recently, we have revealed that in apoptotic cells the activated/truncated form of BID, tBID, interacts with a novel, uncharacterized protein named mitochondrial carrier homolog 2 (Mtch2). Mtch2 is a conserved protein that is similar to members of the mitochondrial carrier protein (MCP) family. This review summarizes the current knowledge regarding BCL-2 family members and the mitochondrial apoptotic program and examines the possible involvement of Mtch2 in this program.     

凋亡调控基因BCL2家族研究的新进展

凋亡的调控是细胞生理死亡和肿瘤发生的重要机制. 对各种刺激诱导下细胞凋亡机制的分析有助于深入了解肿瘤细胞生物学及发现新的治疗对策.凋亡调控基因BCL2家族成员可分为凋亡阻遏基因和凋亡促进基因.这些基因编码的蛋白质分子通过组成和/或影响同二聚体与异二聚体的不同比例而介导其对细胞存活的生物学效应.