Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P04637 (p53)
 77,613 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Recent studies have documented the involvement of the atypical protein kinase C (aPKC) isoforms in important cellular functions such as cell proliferation and survival. Exposure of cells to a genotoxic stimulus that induces apoptosis, such as UV irradiation, leads to a profound inhibition of the atypical PKC activity in vivo. In this study, we addressed the relationship between this phenomenon and different proteins involved in the apoptotic response. We show that (i) the inhibition of the aPKC activity precedes UV-induced apoptosis; (ii) UV-induced aPKC inhibition and apoptosis are independent of p53; (iii) Bcl-2 proteins are potent modulators of aPKC activity; and (iv) the aPKCs are located upstream of the interleukin-converting enzyme-like protease system, which is required for the induction of apoptosis by both Par-4 (a selective aPKC inhibitor) and UV irradiation. We also demonstrate here that inhibition of aPKC activity leads to a decrease in mitogen-activated protein (MAP) kinase activity and simultaneously an increase in p38 activity. Both effects are critical for the induction of apoptosis in response to Par-4 expression and UV irradiation. Collectively, these results clarify the position of the aPKCs in the UV-induced apoptotic pathway and strongly suggest that MAP kinases play a role in this signaling cascade.
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PMID:Positioning atypical protein kinase C isoforms in the UV-induced apoptotic signaling cascade. 923 92

Inhibition of apoptosis is an important characteristic of oncogenic transformation. The Par-4 gene product has recently been shown to be upregulated in cells undergoing apoptotic cell death, and its ectopic expression was shown to be critical in apoptosis. We demonstrate that expression of oncogenic Ras promotes a potent reduction of Par-4 protein and mRNA levels through a MEK-dependent pathway. In addition, the expression of permanently active mutants of MEK, Raf-1 or zetaprotein kinase C but not of phosphatidylinositol 3-kinase (PI 3-kinase) is sufficient to decrease Par-4 levels. These effects are independent of p53, p16 and p19, and were detected not only in fibroblast primary cultures but also in NIH 3T3 and HeLa cells, indicating that they are not secondary to Ras actions on cell cycle regulation. Importantly, restoration of Par-4 levels to normal in Ras-transformed cells makes these cells sensitive to the pro-apoptotic actions of tumor necrosis factor-alpha under conditions in which PI 3-kinase is inhibited and also severely impairs colony formation in soft agar and tumor development in nude mice, as well as increases the sensitivity of these tumors to camptothecin. This indicates that the downregulation of Par-4 by oncogenic Ras is a critical event in tumor progression.
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PMID:The downregulation of the pro-apoptotic protein Par-4 is critical for Ras-induced survival and tumor progression. 1056 48

The majority of elderly men are affected by benign and malign diseases of the prostate that are governed by endocrine factors and local stromal/epithelial and luminal/epithelial interactions. Prostate epithelial cells secrete numerous factors into the seminal plasma (SMP) that are thought to be responsible for nutrition, accurate pH, and ionic environment of sperm. Our hypothesis assumes that prostatic factors responsible for optimal fertility might have retrograde influences on epithelial cell growth, differentiation, and function. SMP was analyzed for proteins and other biologically active substances by size exclusion high-performance liquid chromatography. Each fraction was investigated for its effect on cell growth and death. A low molecular mass fraction (2-4 kDa) was responsible for inducing apoptosis in proliferating prostate epithelial cells. Signal transduction was mediated by the production of cAMP; no significant changes in tyrosine phosphorylation of membrane receptors were observed. Mechanisms of apoptosis, i.e., caspase- and mitochondria-dependent pathways, were investigated in prostate epithelial cells by caspase activity assays, annexin/propidium iodide staining, changes in mitochondrial potential, p53, Par-4, Bax, and Bcl-2 protein levels. SMP induced p53- and Bcl-2-dependent apoptosis without activation of caspase-3. Obviously, SMP contains protective factors that help eliminate degenerated cells and control epithelial renewal. Age-related changes in the composition of SMP or the susceptibility of epithelial cells might, therefore, contribute to proliferative prostatic diseases
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PMID:A low-molecular-weight fraction of human seminal plasma activates adenylyl cyclase and induces caspase 3-independent apoptosis in prostatic epithelial cells by decreasing mitochondrial potential and Bcl-2/Bax ratio. 1125 85

Degeneration and death of neurons is the fundamental process responsible for the clinical manifestations of many different neurological disorders of aging, incuding Alzheimer's disease, Parkinson's disease and stroke. The death of neurons in such disorders involves apoptotic biochemical cascades involving upstream effectors (Par-4, p53 and pro-apoptotic Bcl-2 family members), mitochondrial alterations and caspase activation. Both genetic and environmental factors, and the aging process itself, contribute to intiation of such neuronal apoptosis. For example, mutations in the amyloid precursor protein and presenilin genes can cause Alzheimer's disease, while head injury is a risk factor for both Alzheimer's and Parkinson's diseases. At the cellular level, neuronal apoptosis in neurodegenerative disorders may be triggered by oxidative stress, metabolic compromise and disruption of calcium homeostasis. Neuroprotective (antiapoptotic) signaling pathways involving neurotrophic factors, cytokines and "conditioning responses" can counteract the effects of aging and genetic predisposition in experimental models of neurodegenerative disorders. A better understanding of the molecular underpinnings of neuronal death is leading directly to novel preventative and therapeutic approaches to neurodegenerative disorders.
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PMID:Neurodegenerative disorders and ischemic brain diseases. 1132 Oct 43

Transformation and malignant progression of prostate cancer is regulated by the inability of prostatic epithelial cells to undergo apoptosis rather than by increased cell proliferation. The basic apoptotic machinery of most prostate cancer cells is intact and the inability to undergo apoptosis is due to molecular alterations that result in failure to initiate or execute apoptotic pathways. This review discusses the role of anti-apoptotic proteins such as Bcl-2/BclXL, NF-kappaB, IGF, caveolin, and Akt, and pro-apoptotic molecules such as PTEN, p53, Bin1, TGF-beta, and Par-4 that can regulate progression of prostate cancer. In addition to highlighting the salient features of these molecules and their relevance in apoptosis, this review provides an appraisal of their therapeutic potential in prostate cancer. Molecular targeting of these proteins and/or their innate pro- or anti-apoptotic pathways, either singly or in combination, may be explored in conjunction with conventional and currently available experimental strategies for the treatment of both hormone-sensitive and hormone-resistant prostate cancer.
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PMID:Regulation of apoptosis in prostate cancer. 1208 64

Signals between neurons are transduced primarily by receptors, and second messenger and kinase cascades, located in pre- and postsynaptic terminals. Such synaptic signaling pathways include those activated by neurotransmitters, cytokines, neurotrophic factors, and cell-adhesion molecules. Many of these signaling systems are also localized in the growth cones of axons and dendrites, where they control pathfinding and synaptogenesis during development. Although it has been known for decades that such signaling pathways can affect the survival of neurons, by promoting or preventing a form of programmed cell death known as apoptosis, we have discovered that apoptotic biochemical cascades can exert local actions on the functions and structural dynamics of growth cones and synapses. In this article, we provide a brief background on apoptotic biochemical cascades, and present examples of studies in this laboratory that have identified novel apoptotic and anti-apoptotic signaling mechanisms that are activated and act locally in synapses, growth cones, and dendrites to modify their structure and function. Apoptotic synaptic cascades that may play roles in neuronal plasticity include activation of caspases that can cleave certain types of ionotropic glutamate-receptor subunits and thereby modify synaptic plasticity. Caspases may also cleave cytoskeletal protein substrates in growth cones of developing neurons and may thereby regulate neurite outgrowth. Par-4 and the tumor-suppressor protein p53 are pro-apoptotic proteins that may also function in synaptic and developmental plasticity. Examples of anti-apoptotic signals that regulate the plasticity of growth cones and synapses include neurotrophic factor-activated kinase cascades, calcium-mediated actin depolymerization, and activation of the transcription factor NF-kappaB. The emerging data strongly suggest that many of the signaling mechanisms that control apoptosis are also involved in regulating the structural and functional plasticity of neuronal circuits under physiological conditions.
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PMID:Do apoptotic mechanisms regulate synaptic plasticity and growth-cone motility? 1242 11

The 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) model constitutes the best-characterized toxin paradigm for Parkinson's disease, faithfully replicating most of its clinical and pathological hallmarks. Many lines of evidence point to a significant contribution of apoptosis to cell death after application of 1-methyl-4-phenylpyridinium (MPP(+)) in cell culture or MPTP in vivo. This holds true for apoptotic DNA strand breaks, activation of the JNK pathway and caspases, induction of Par-4 protein and the protection conferred by interference with p53, Apaf-1 or Bax signalling. In MPTP models, intervention in upstream events of apoptosis, e.g. by inhibition of the JNK pathway, provides morphological and functional rescue. In contrast, inhibition of the propagation and execution phase of apoptosis, e.g. by inhibition of caspases, blocks or delays cell death but may not recover neuronal function. At this stage, the combination of an anti-apoptotic together with a neurorestorative therapy may be promising.
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PMID:Apoptotic mechanisms and antiapoptotic therapy in the MPTP model of Parkinson's disease. 1262 49

The pyrimidine analogue Ara-C and the purine analogues fludarabine and cladribine (2-CdA) are essential compounds in the treatment of acute myeloid leukemia (AML). Inhibition of cell proliferation and induction of apoptosis are the major mechanisms of cytotoxic agents to cause tumor cell death. Therefore, we studied whether Ara-C in combination with the purine analogues exerts synergistic or antagonistic effects on cell proliferation, phosphatidylserine exposure and disruption of mitochondrial membrane potential (MMP) in the AML cell lines HL60 and HEL. Furthermore, effects of the combination of Ara-C with bendamustine, a new bifunctional agent with alkylating activity and a purine nucleus, was investigated. Assessment by combination index analysis showed that Ara-C combined with fludarabine or bendamustine exhibited additive to antagonistic effects on inhibition of cell proliferation, induction of apoptosis as well as on disruption of mitochondrial membrane potential, independent of a simultaneous or consecutive (purine analogues before Ara-C) incubation schedule. In contrast, the combination of Ara-C with 2-CdA exclusively yielded synergistic effects. While inducing IC50 levels of apoptosis neither the antagonistic nor the synergistic drug combinations caused a specific expression pattern of apoptosis-associated proteins such as the pro- or antiapoptotic Bcl-2 family members, executioner caspases, IAPs (inhibitor of apoptosis proteins), proapoptotic Par-4, PARP, or p53. In conclusion, we here demonstrate that the in vitro efficacy of drug combinations containing Ara-C and purine analogues depends on the purine analogue applied, whereas incubation schedules or escalating dosages do not contribute to the synergistic effects.
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PMID:In AML cell lines Ara-C combined with purine analogues is able to exert synergistic as well as antagonistic effects on proliferation, apoptosis and disruption of mitochondrial membrane potential. 1269 Nov 59

Activation of glutamate receptors can trigger the death of neurons and some types of glial cells, particularly when the cells are coincidentally subjected to adverse conditions such as reduced levels of oxygen or glucose, increased levels of oxidative stress, exposure to toxins or other pathogenic agents, or a disease-causing genetic mutation. Such excitotoxic cell death involves excessive calcium influx and release from internal organelles, oxyradical production, and engagement of programmed cell death (apoptosis) cascades. Apoptotic proteins such as p53, Bax, and Par-4 induce mitochondrial membrane permeability changes resulting in the release of cytochrome c and the activation of proteases, such as caspase-3. Events occurring at several subcellular sites, including the plasma membrane, endoplasmic reticulum, mitochondria and nucleus play important roles in excitotoxicity. Excitotoxic cascades are initiated in postsynaptic dendrites and may either cause local degeneration or plasticity of those synapses, or may propagate the signals to the cell body resulting in cell death. Cells possess an array of antiexcitotoxic mechanisms including neurotrophic signaling pathways, intrinsic stress-response pathways, and survival proteins such as protein chaperones, calcium-binding proteins, and inhibitor of apoptosis proteins. Considerable evidence supports roles for excitotoxicity in acute disorders such as epileptic seizures, stroke and traumatic brain and spinal cord injury, as well as in chronic age-related disorders such as Alzheimer's, Parkinson's, and Huntington's disease and amyotrophic lateral sclerosis. A better understanding of the excitotoxic process is not only leading to the development of novel therapeutic approaches for neurodegenerative disorders, but also to unexpected insight into mechanisms of synaptic plasticity.
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PMID:Excitotoxic and excitoprotective mechanisms: abundant targets for the prevention and treatment of neurodegenerative disorders. 1272 91

The prostate apoptosis response-4 (par-4) gene was isolated in a differential screen for immediate-early genes that are up-regulated during apoptosis of prostate cancer cells. Unlike most other immediate-early genes, par-4 is exclusively induced during apoptosis. The expression or induction of par-4 is not restricted to prostatic cells. The par-4 gene is widely expressed in diverse normal tissues and cell types and conserved during evolution. Par-4 protein contains a leucine zipper domain that is essential for sensitization of cells to apoptosis. Functional studies indicate that par-4 expression is necessary to induce apoptosis. Par-4 protein may induce apoptosis by a p53-independent pathway that involves cytoplasmic inactivation of atypical protein kinase C isoforms resulting in down-regulation of MAP kinase activity and an up-regulation of p38 kinase activity. However, Par-4 is detected in the cytoplasm and in the nucleus, suggesting both cytoplasmic and nuclear roles for the pro-apoptotic protein. Interestingly, Par-4 is predicted to contain a death domain homologous to that of Fas or TRADD, and may therefore trigger a death cascade analogous to that of the death domain proteins. Par-4-dependent apoptosis is abrogated by Bcl-2 and by caspase inhibitors. Identification of the components of the p53-independent apoptosis pathway induced by Par-4 may help to further elucidate the mechanism of Par-4 action. Moreover, in view of the pro-apoptotic function of Par-4, its role in diseases, such as cancer and neurogenerative disorders, whose pathophysiology involves apoptotic cell death needs further investigation.
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PMID:Apoptosis mediated by a novel leucine zipper protein Par-4. 1464 2


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