Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.10.2 (focal adhesion kinase)
 44,029 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

There is accumulating evidence that cell survival and energy metabolism are inexorably linked. As a major mediator of both the metabolic and anti-apoptotic effects of growth factors, the serine/threonine kinase Akt (also known as protein kinase B or PKB) is particularly well-suited to coordinate the regulation of these interrelated processes. Recent demonstrations that growth factors and Akt require glucose (Glc) to prevent apoptosis and promote cell survival are compatible with this contention, as is a positive correlation between Akt-regulated mitochondrial hexokinase (mtHK) association and apoptotic resistance. From a phylogenetic perspective, the ability of Akt to regulate cellular energy metabolism apparently preceded the capacity to control cell survival, suggesting an evolutionary basis for the Glc dependent anti-apoptotic effects of Akt. We speculate that, somewhere in the course of evolution, the metabolic regulatory function of Akt evolved into an adaptive sensing system involving mtHK that ensures mitochondrial homeostasis, thereby coupling metabolism to cell survival. We also propose that this "guardian" function of mtHK may be specifically exploited for therapeutic purposes.
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PMID:Mitochondrial hexokinases: guardians of the mitochondria. 1584 94

This article describes recent advances in the development and biological evaluation of small molecule inhibitors for the serine/threonine kinase Akt (PKB). Akt plays a pivotal role in cell survival and proliferation through a number of downstream effectors. Recent studies indicate that unregulated activation of the PI3K/Akt pathway is a prominent feature of many human cancers and Akt is over-expressed or activated in all major cancers. Akt is considered an attractive target for chemotherapy and it has been postulated that inhibition of Akt alone or in combination with standard cancer chemotherapeutics will reduce the apoptotic threshold and preferentially kill cancer cells. The development of specific and potent inhibitors will allow this hypothesis to be tested in animals. The majority of small molecule inhibitors in this nascent field are classic ATP-competitive inhibitors which provide little specificity. Phosphatidylinositol (PI) analogs have been reported to inhibit Akt, but these inhibitors may also have specificity problems with respect to other PH domain containing proteins and may have poor bioavailability. None of the inhibitors in these classes have been reported to have Akt isozyme specificity. Recently, novel allosteric inhibitors have been reported which are pleckstrin homology domain dependent and exhibit Akt isozyme selectivity. Inhibitors in this class may have sufficient potency and specificity to test for tumor efficacy in animal models and recently reported preliminary experiments are reviewed.
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PMID:The Akt/PKB family of protein kinases: a review of small molecule inhibitors and progress towards target validation. 1585 41

The serine/threonine kinase Akt/PKB has been implicated in cell survival signalling in many cell types, including the dorsal root ganglion (DRG). However, little is known about its role in physiological and pathophysiological conditions in the adult sensory and nociceptive system. In this study, we show that in naive animals almost all cells express Akt but only a subset of small-diameter neurons expresses a high level of phospho-Akt (p-Akt Ser 473). Activation of peripheral nociceptors in vivo using intraplantar injections of capsaicin in anaesthetized rats induced a rapid onset and time-dependent increase in p-Akt Ser 473 in small- and medium-sized DRG, predominantly TRPV1-positive neurons. In addition, electrical stimulation of 'A and C' fibres in the sciatic nerve induced an increase in the cytoplasmic staining of p-Akt Ser 473 in small- and medium-size DRG neurons. Blocking neuronal activity in the sciatic nerve using tetrodotoxin reduced the basal level of p-Akt Ser 473. Cultured DRG neurons confirmed that phosphorylation of Akt in different cellular compartments is triggered by depolarization or receptor activation, and suggested that this effect is mediated in part by phosphatidylinositol 3-kinase. Our results show that p-Akt Ser 473 is a marker of nociceptor activation and suggest a novel role for Akt in the transduction of intracellular signals in adult DRG neurons.
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PMID:Activity-dependent phosphorylation of Akt/PKB in adult DRG neurons. 1586 74

Although communications between mammalian oocytes and their surrounding granulosa cells mediated by the Kit-Kit ligand (KL, or stem cell factor, SCF) system have been proven to be crucial for follicular development, Kit downstream signaling pathways in mammalian oocytes are largely unknown. In this study, by using ovaries and isolated oocytes from postnatal mice and rats, we demonstrated for the first time that components of the PI3 kinase pathway, the serine/threonine kinase Akt (PKB) which enhances cellular proliferation and survival, and an Akt substrate FKHRL1 which is a transcription factor that leads to apoptosis and cell cycle arrest, are expressed in mammalian oocytes. By using an in vitro oocytes culture system, we found that oocytes-derived Akt and FKHRL1 are regulated by SCF. Treatment of cultured oocytes with SCF cannot only rapidly phosphorylate and activate Akt, but also simultaneously phosphorylate and may therefore functionally suppress FKHRL1, through the action of PI3 kinase. Together with our in situ hybridization and immunohistochemistry data that Akt and FKHRL1 are mostly expressed in oocytes in primordial and primary ovaries and reports that FKHRL1 gene-deficient mice exhibited excessive activation from primordial to primary follicles as well as enlarged oocyte sizes, we suppose that in mammalian oocytes, actions of granulosa cell derived SCF on primordial to primary follicle transition and subsequent follicle development may involve activation of Akt and inhibition of FKHRL1 activities in oocytes. The role of oocyte's Akt may be to enhance follicle development and the role of oocyte's FKHRL1 may be to inhibit follicle development. We propose that the cascade from granulosa cell SCF to oocyte Kit-PI3 kinase-Akt-FKHRL1 may play an important role to regulate the growth rate of mammalian oocytes and hypothetically also the oocyte secretion of factors that may regulate the activation and early development of ovarian follicles.
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PMID:Activation of Akt (PKB) and suppression of FKHRL1 in mouse and rat oocytes by stem cell factor during follicular activation and development. 1589 70

Disruption of components in the transforming growth factor-beta (TGF-beta) signalling cascade is a common occurrence in human cancers. TGF-beta pathway activation is accomplished via serine/threonine kinase receptors and intracellular Smad transcription factors. A key regulatory step involves specific ubiquitination by Smurfs that mediate the proteasomal degradation of Smads and/or receptors. Here, we report a novel interaction between Smads and ubiquitin C-terminal hydrolase UCH37, a deubiquitinating enzyme that could potentially reverse Smurf-mediated ubiquitination. In GST pull down experiments, UCH37 bound weakly to Smad2 and Smad3, and bound very strongly to Smad7 in a region that is distinct from the -PY- motif in Smad7 that interacts with Smurf ubiquitin ligases. Endogenous Smad7 and UCH37 formed a stable complex in U4A/JAK1 cells, and FLAG-Smad7 co-immunoprecipitated with HA-UCH37 in transfected HEK-293 cells. In addition, we show that UCH37 can deubiquitinate and stabilize the type I TGF-beta receptor. Furthermore, overexpression of UCH37 upregulates TGF-beta-dependent transcription, and this effect is reversed in cells subject to RNAi-mediated knockdown of endogenous UCH37. These findings support a new role for deubiquitinating enzymes in the control of the TGF-beta signalling pathway, and provide a novel molecular target for the design of inhibitors with therapeutic potential in cancer.
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PMID:The deubiquitinating enzyme UCH37 interacts with Smads and regulates TGF-beta signalling. 1602 25

Akt/PKB is a serine/threonine kinase that plays an important role in survival when cells are exposed to different apoptotic stimuli. Aberrant activation of Akt/PKB in breast carcinoma is associated with poor prognosis and resistance to endocrine therapy and chemotherapy. The Akt signaling pathway currently attracts considerable attention as a new target for effective therapeutic strategies. We therefore investigated the relationship between activation of Akt and clinicopathologic variables including hormone receptor and HER2/neu status. Breast cancer tissues obtained from 252 patients were utilized for this study. We evaluated Akt activation by immunohistochemical assessment of the expression of phosphorylated Akt (pAkt) at Ser-473. Eighty-four cases (33.3%) were diagnosed as positive for pAkt expression. pAkt was significantly associated with HER2/neu overexpression (p < 0.0001). There was an inverse correlation between pAkt and PR expression (p = 0.0321); however, there was no association between pAkt and ER expression. Survival analysis showed that pAkt positivity was associated with poor disease-free survival in cases with postoperative hormone therapy; however, there was no association in cases without hormone therapy. Our results indicate that Akt activation induced poor prognosis in patients who received adjuvant hormone therapy. This finding suggests that inhibition of the Akt signaling pathway may increase the efficacy of hormone therapy and improve the prognosis of patients who receive adjuvant hormone therapy.
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PMID:Akt is frequently activated in HER2/neu-positive breast cancers and associated with poor prognosis among hormone-treated patients. 1604 61

The serine/threonine kinase Akt/PKB pathway presents an exciting new target for molecular therapeutics, as it functions as a cardinal nodal point for transducing extracellular (growth factor and insulin) and intracellular (receptor tyrosine kinases, Ras and Src) oncogenic signals. In addition, alterations of the Akt pathway have been detected in a number of human malignancies. Ectopic expression of Akt, especially constitutively activated Akt, is sufficient to induce oncogenic transformation of cells and tumor formation in transgenic mice as well as chemoresistance. Akt has a wide range of downstream targets that regulate tumor-associated cell processes such as cell growth, cell cycle progression, survival, migration, epithelial-mesenchymal transition and angiogenesis. Blockage of Akt signaling results in apoptosis and growth inhibition of tumor cells with elevated Akt. The observed dependence of certain tumors on Akt signaling for survival and growth has wide implications for cancer therapy, offering the potential for preferential tumor cell killing. In the last several years, through combinatorial chemistry, high-throughput and virtual screening, and traditional medicinal chemistry, a number of inhibitors of the Akt pathway have been identified. This review focuses on ongoing translational efforts to therapeutically target the Akt pathway.
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PMID:The Akt/PKB pathway: molecular target for cancer drug discovery. 1628 95

Insulin-like growth factor-I (IGF-I) has gained broad recognition as an important survival factor for epithelial cells in numerous tissues. The IGF-I receptor signaling pathway is deregulated in the majority of carcinomas, and such deregulation has also been reported to be tightly associated with enhanced tumor progression and metastasis. One of the key proteins that transduces IGF-I signals and is phospho-activated downstream of the IGF-I receptor, is the non-receptor serine/threonine kinase proto-oncogene protein kinase B (PKB, also known as Akt). This kinase serves as a major molecular node to control the function of many cell survival and death proteins through phosphorylation-mediated protein modification. The end result of the activation of Akt is enhanced cell survival and proliferation, pre-requisites for malignant transformation. Recent studies show that IGF-I signals cross-talk at multiple levels with various components of the TGF-beta signaling pathway, which depending on context may function either as tumor suppressor or as tumor promoter. Thus, a better understanding of how the IGF-I and TGF-beta signaling pathways are mutually interconnected is likely to unveil novel targets for the therapeutic intervention of many cancers.
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PMID:Cross-talk between IGF-I and TGF-beta signaling pathways. 1629 54

Overexpression of the small GTPase, RhoC, in various human cancers has been correlated with high metastatic ability and poor prognosis. Rho-kinase (ROCK) is an important effector of Rho GTPases. The oncogenic serine/threonine kinase Akt (also known as PKB) is a downstream effector of phosphatidylinositol-3 kinase (PI3K). Akt activation contributes to the neoplastic phenotype by promoting cell cycle progression, increasing antiapoptotic functions, and enhancing tumor cell invasion. Rho signaling via ROCK has been previously shown either to activate or to downregulate PI3K/Akt. Using a human radial growth phase melanoma cell line, WM35, we have established stable transfectants that overexpress RhoC (called WM35RhoC). We found that overexpression of RhoC increased phosphorylated-Akt (Ser473/474/472, pAkt) expression and promoted cell invasion. Inhibition of RhoC with C3 transferase downregulated pAkt expression and decreased cell invasion in these cells. In addition, inhibition of PI3K, Akt, or ROCK partially decreased invasion. Further, inhibition of PI3K but not ROCK decreased the pAkt level. These results suggest that RhoC promotes invasion in part via activation of a PI3K/Akt pathway, in a manner independent of ROCK signaling. We propose that RhoC promotes melanoma progression via separate mechanisms that regulate the PI3K/Akt pathway and the ROCK signaling pathway.
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PMID:RhoC promotes human melanoma invasion in a PI3K/Akt-dependent pathway. 1647 Jan 69

Myelosuppression is the most common unwanted side effect associated with the administration of anticancer drugs, and infections remain a common cause of death in chemotherapy-treated patients. Several mechanisms of the cytotoxicity of these drugs have been proposed and may synergistically operate in a given cell. Survivin expression has been associated with cancer, but recent reports suggest that this molecule is also expressed in several immature and mature hematopoietic cells. Here, we provide evidence that treatment of immature neutrophils with anticancer drugs reduced endogenous survivin levels causing apoptosis. The anticancer drugs did not directly target survivin, instead they blocked the activity of phosphatidylinositol-3-OH kinase, which regulated survivin expression and apoptosis in these cells. Strikingly, and in contrast to other cells, this pathway did not involve the serine/threonine kinase c-akt/PKB. Moreover, in combination with anticancer drug therapy, rapamycin did not induce increased myelosuppression in an experimental lymphoma mouse model. These data suggest that drugs that block either c-akt/PKB or signaling molecules located distal to c-akt/PKB may preferentially induce apoptosis of cancer cells as they exhibit no cytotoxicity for immature neutrophils.
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PMID:Targeting survivin via PI3K but not c-akt/PKB by anticancer drugs in immature neutrophils. 1671 27


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