Kelvin K. Tsai scite author profile

Akt kinase plays a central role in cell growth, metabolism and tumorigenesis. Although TRAF6 E3 ligase orchestrates IGF-1-mediated Akt ubiquitination and activation, it is unclear whether TRAF6 is involved in Akt activation by other growth factor receptors as well. Here we show that Akt ubiquitination is also induced by activation of ErbB receptors; unexpectedly, Skp2 SCF complex, but not TRAF6, is a critical E3 ligase for ErbB receptor-mediated Akt ubiquitination and membrane recruitment. Interestingly, Skp2 deficiency impairs Akt activation, Glut1 expression, glucose uptake and glycolysis, and breast cancer progression in various tumor models. Moreover, Skp2 overexpression correlates with Akt activation, breast cancer metastasis, and serves as a marker for poor prognosis in Her2-positive patients. Finally, we showed that Skp2 silencing sensitizes Her2-overexpressing tumors to Herceptin treatment. Our study suggests that distinct E3 ligases are utilized by diverse growth factors for Akt ubiquitination and activation.

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DNA Damage-induced MDMX Degradation Is Mediated by MDM2

Kawai

Wiederschain²,

Kitao

et al. 2003

Journal of Biological Chemistry

149

152

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Although genetic studies have demonstrated that MDMX is essential to maintain p53 activity at low levels in non-stressed cells, it is unknown whether MDMX regulates p53 activation by DNA damage. We show here that DNA damage-induced p53 induction is associated with rapid down-regulation of the MDMX protein. Significantly, interference with MDMX down-regulation results in the suppression of p53 activation by genotoxic stress. We also demonstrate that DNA damage-induced MDMX reduction is mediated by MDM2, which targets MDMX for proteasomal degradation by a distinct mechanism that permits preferential MDMX degradation and therefore ensures optimal p53 activation.

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Metronomic chemotherapy prevents therapy-induced stromal activation and induction of tumor-initiating cells

et al. 2016

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Oxidative DNA damage in human peripheral leukocytes induced by massive aerobic exercise

Tsai¹,

Hsu²,

Hsu³

et al. 2001

Free Radical Biology and Medicine

178

123

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The Skp2-SCF E3 Ligase Regulates Akt Ubiquitination, Glycolysis, Herceptin Sensitivity, and Tumorigenesis

Chan¹,

Li²,

Yang³

et al. 2012

Cell

113

133

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The above article reported an important role of Skp2 in Akt activation, glycolysis, and Herceptin sensitivity. During the course of preparing Figure 6F, we inadvertently redisplayed the image from the HE (4003) image for Metastatic (M), Neu/Skp2 À/À column (fourth image on the bottom row) as the HE ( 4003) image for Metastatic (M), Neu column (third image on the bottom row). The corrected figure, which does not affect the results and interpretation as discussed in the paper, appears below and with the article online. We sincerely regret our error and apologize for the inconvenience that it may have caused.

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Control of cyclooxygenase-2 expression and tumorigenesis by endogenous 5-methoxytryptophan

Cheng¹,

Kuo²,

Yan³

et al. 2012

Proc. Natl. Acad. Sci. U.S.A.

118

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Cyclooxygenase-2 (COX-2) expression is induced by mitogenic and proinflammatory factors. Its overexpression plays a causal role in inflammation and tumorigenesis. COX-2 expression is tightly regulated, but the mechanisms are largely unclear. Here we show the control of COX-2 expression by an endogenous tryptophan metabolite, 5-methoxytryptophan (5-MTP). By using comparative metabolomic analysis and enzyme-immunoassay, our results reveal that normal fibroblasts produce and release 5-MTP into the extracellular milieu whereas A549 and other cancer cells were defective in 5-MTP production. 5-MTP was synthesized from L-tryptophan via tryptophan hydroxylase-1 and hydroxyindole O-methyltransferase. 5-MTP blocked cancer cell COX-2 overexpression and suppressed A549 migration and invasion. Furthermore, i.p. infusion of 5-MTP reduced tumor growth and cancer metastasis in a murine xenograft tumor model. We conclude that 5-MTP synthesis represents a mechanism for endogenous control of COX-2 overexpression and is a valuable lead for new anti-cancer and anti-inflammatory drug development.tumor suppression | tryptophan metabolism | inflammation control C yclooxygenase-2 (COX-2) is a rate-limiting enzyme in the production of diverse prostanoids with potent biological activities. It is involved in multiple physiological functions and triggers key pathological processes, such as tumorigenesis and inflammation (1, 2). COX-2 is constitutively overexpressed in a wide variety of human cancers and is enhanced by proinflammatory stimuli (3, 4). There is convincing evidence for a causal role of COX-2 in tumorigenesis. Inhibition of COX-2 activities was reported to control human colorectal cancer (5-8). COX-2 induces tumorigenesis by promoting important cellular functions including cell proliferation, migration, and resistance to apoptosis (9-11). The induced COX-2 expression by proinflammatory and mitogenic factors in normal cells is tightly controlled (12) whereas its overexpression in cancer cells is attributed to dysregulated transcription (13). The endogenous control mechanisms for COX-2 expression in normal cells and the mechanisms underlying the dysregulation in cancer cells are poorly understood. We previously identified in the conditioned medium of human fibroblasts small molecules (named cytoguardins) that suppress COX-2 expression induced by proinflammatory mediators (14). NMR analysis of a semipurified fraction revealed compounds with indole moieties (14). However, the exact chemical structures remain elusive. In this study, we elucidated the structure of cytoguardins by comparing the metabolomic profiles between normal and cancer cells. ResultsCytoguardins Inhibit Cancer Cell COX-2. To determine that fibroblast factors are capable of suppressing cancer cell COX-2 expression, we cocultured human Hs68 foreskin fibroblasts (HsFb) with A549 lung cancer cells in a Boyden chamber for 24 h. A549 cells were removed and treated with phorbol 12-myristate 13-acetate (PMA) for 4 h, and COX-2 proteins were analyzed. HsFb suppressed A549 ...

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Oxidative stress: an important phenomenon with pathogenetic significance in the progression of acute pancreatitis

Tsai

Wang

Chen

et al. 1998

Gut

143

110

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Background-Reactive oxygen species and related oxidative damage have been implicated in the initiation of acute pancreatitis. Changes in these parameters during disease progression merit further investigation. Aims-To evaluate changes and the clinical relevance of superoxide radicals, endogenous antioxidants, and lipid peroxidation during the course of acute pancreatitis. Patients and methods-Superoxide radicals (measured as lucigenin amplified chemiluminescence), ascorbic acid, dehydroascorbic acid, tocopherol, and lipid peroxidation (measured as thiobarbiturate reactive substances) were analysed in blood samples from 56 healthy subjects, 30 patients with mild acute pancreatitis, and 23 patients with severe acute pancreatitis. The association with grades of disease severity was analysed. Measurements were repeated one and two weeks after onset of pancreatitis. Results-In the blood from patients with acute pancreatitis, there were increased levels of the superoxide radical as well as lipid peroxides. There was notable depletion of ascorbic acid and an increased fraction of dehydroascorbic acid. Changes in tocopherol were not great except in one case with poor prognosis. DiVerences between severe and mild acute pancreatitis were significant (p<0.01). Variable but significant correlations with disease severity scores were found for most of these markers. The normalisation of these indexes postdated clinical recovery one or two weeks after onset of disease. Conclusions-Heightened oxidative stress appears early in the course of acute pancreatitis and lasts longer than the clinical manifestations. The dependence of disease severity on the imbalance between oxidants and natural defences suggests that oxidative stress may have a pivotal role in the progression of pancreatitis and may provide a target for treatment. (Gut 1998;42:850-855)

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Cellular Mechanisms for Low-Dose Ionizing Radiation–Induced Perturbation of the Breast Tissue Microenvironment

et al. 2005

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Radiation exposure is an important form of environmental carcinogen and has been associated with increased risk of breast cancer. Epigenetic events, especially those involving alterations in the breast stromal microenvironment, may play an important role in radiation-induced carcinogenesis but remain not well understood. We here show that human mammary stromal fibroblasts respond to protracted low-dose ionizing radiation exposures by displaying a senescence-like phenotype. Using a three-dimensional coculture system to model the interactions of different mammary cell types with their neighbors and with their environment, we provide a direct experimental proof that ionizing radiation-induced senescence-like fibroblasts significantly perturb the mammary stromal microenvironment, which is highlighted by impaired formation of pseudopodia networks due to marked cytoskeletal alterations in senescence-like fibroblasts and increased extracellular matrix degradation because of the up-regulation of multiple secreted matrix metalloproteinases. Within such a perturbed environment, mammary ductal morphogenesis is completely disrupted and epithelial cells instead grow into enlarged cystic structures, which further develop and become disorganized cell masses on inactivation of cellular death pathways. Breast carcinoma cells growing in such an environment are enabled to fully express their malignant potential as evidenced by the A6B4 integrin/phosphatidylinositol 3-kinase/ Akt/mammalian target of rapamycin pathway-dependent invasive growth. Our results suggest that ionizing radiation, in addition to causing gene mutations in epithelial cells, can contribute to breast carcinogenesis by perturbing the tissue microenvironment that leads to dysregulated cell-cell and cellmatrix interactions. (Cancer Res 2005; 65(15): 6734-44)

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Kelvin K. Tsai

The Skp2-SCF E3 Ligase Regulates Akt Ubiquitination, Glycolysis, Herceptin Sensitivity, and Tumorigenesis

DNA Damage-induced MDMX Degradation Is Mediated by MDM2

Metronomic chemotherapy prevents therapy-induced stromal activation and induction of tumor-initiating cells

Oxidative DNA damage in human peripheral leukocytes induced by massive aerobic exercise

The Skp2-SCF E3 Ligase Regulates Akt Ubiquitination, Glycolysis, Herceptin Sensitivity, and Tumorigenesis

Control of cyclooxygenase-2 expression and tumorigenesis by endogenous 5-methoxytryptophan

Oxidative stress: an important phenomenon with pathogenetic significance in the progression of acute pancreatitis

Cellular Mechanisms for Low-Dose Ionizing Radiation–Induced Perturbation of the Breast Tissue Microenvironment

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