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Query: EC:2.7.11.24 (
mitogen-activated protein kinase
)
95,810
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Activity and expression of
fatty acid synthase
(
FAS
), a critical enzyme in the de novo biosynthesis of fatty acids in mammals, is exquisitely sensitive to nutritional regulation of lipogenesis in liver or adipose tissue. Surprisingly, a number of studies have demonstrated hyperactivity and overexpression of
FAS
(oncogenic antigen-519) in a biologically aggressive subset of human breast carcinomas, suggesting that
FAS
-dependent neoplastic lipogenesis is unresponsive to nutritional regulation. We have assessed the role of omega-3 and omega-6 polyunsaturated fatty acids (PUFAs) on the enzymatic activity and protein expression of tumor-associated
FAS
in SK-Br3 human breast cancer cells, an experimental paradigm of
FAS
-overexpressing tumor cells in which
FAS
enzyme constitutes up to 28%, by weight, of the cytosolic proteins. Of the omega-3 PUFAs tested, alpha-linolenic acid (ALA) dramatically reduced
FAS
activity in a dose-dependent manner (up to 61%). omega-3 PUFA docosahexaenoic acid (DHA) demonstrated less marked but still significant inhibitory effects on
FAS
activity (up to 37%), whereas eicosapentaenoic acid (EPA) was not effective. Of the omega-6 fatty acids tested, gamma-linolenic acid (GLA) was the most effective dose-dependent inhibitor of
FAS
activity, with a greater than 75%
FAS
activity reduction. Remarkably, omega-6 PUFAs linoleic acid (LA) and arachidonic acid (ARA), suppressors of both hepatic and adipocytic
FAS
-dependent lipogenesis, had no significant inhibitory effects on the activity of tumor-associated
FAS
in SK-Br3 breast cancer cells. Western blotting studies showed that down-regulation of
FAS
protein expression tightly correlated with previously observed inhibition of
FAS
activity, suggesting that ALA-, DHA-, and GLA-induced changes in
FAS
activity resulted from effects at the protein level. We investigated whether the
FAS
inhibitory effect of GLA and omega-3 PUFAs correlated with a cytotoxic effect related to a peroxidative mechanism. Measurement of cell viability by MTT assay indicated a significant cellular toxicity after ALA and GLA exposures. Furthermore, we observed a significant correlation between the ability of PUFAs to repress
FAS
and cause cell toxicity. In the presence of anti-oxidants (vitamin E), ALA and GLA dramatically lost their ability to inhibit
FAS
activity. Interestingly, a combination of ALA and GLA was
FAS
inhibitory in an additive manner, and this
FAS
repression was only partially reversible by vitamin E. In examining the molecular mechanisms underlying resistance of breast cancer-associated
FAS
to normal dietary fatty acid-induced suppression, a dramatic decrease of
FAS
accumulation was found after exposure of SK-Br3 cells to
mitogen-activated protein kinase
(
MAPK
)
extracellular signal-regulated kinase
(
MAPK
ERK1
/2) inhibitor U0126, phosphatidylinositol-3'-kinase (PI-3'K) blocker LY294002, and/or anti-HER-2/neu antibody trastuzumab. Interestingly, a long-term exposure to pharmacological inhibitors of
FAS
activity cerulenin [(2S,3R) 2,3-epoxy-4-oxo-7E,10E-dodecadienamide] or C75 also resulted in a significant reduction of
FAS
accumulation. These data indicate that: a) GLA- and omega-3 PUFA-induced repression of tumor-associated
FAS
may result, at least in part, from a non-specific cytotoxic effect due to peroxidative mechanisms; b) alternatively, GLA and omega-3 PUFAs have a suppressive effect on
FAS
expression and activity that can result in the accumulation of toxic fluxes of the
FAS
substrate malonyl-CoA; c) GLA- and/or omega-3 PUFA-induced repression of tumor-associated
FAS
may represent a novel mechanism of PUFA-induced cytotoxicity clinically useful against breast carcinomas carrying overexpression of
FAS
enzyme; d) fundamental differences in the ability of
FAS
gene to respond to normal fatty acid's regulatory actions in lipogenic tissues may account for the observed extremely high levels of
FAS
in breast carcinoma; and e)
FAS
overexpression in SK-Br3 breast cancer cells is driven by increases in HER-2/neu signaling, acting in major part through a constitutive downstream art through a constitutive downstream activation of the
MAPK
ERK1
/2 and PI-3'K/AKT transduction cascades.
...
PMID:Overexpression and hyperactivity of breast cancer-associated fatty acid synthase (oncogenic antigen-519) is insensitive to normal arachidonic fatty acid-induced suppression in lipogenic tissues but it is selectively inhibited by tumoricidal alpha-linolenic and gamma-linolenic fatty acids: a novel mechanism by which dietary fat can alter mammary tumorigenesis. 1513 77
Cardiotrophin (CT-1) is a naturally occurring protein member of the interleukin (IL)-6 cytokine family and signals through the gp130/leukemia inhibitory factor receptor (LIFR) heterodimer. The formation of gp130/LIFR complex triggers the auto/trans-phosphorylation of associated Janus kinases, leading to the activation of Janus kinase/STAT and
MAPK
(
ERK1
and -2) signaling pathways. Since adipocytes express both gp130 and LIFR proteins and are responsive to other IL-6 family cytokines, we examined the effects of CT-1 on 3T3-L1 adipocytes. Our studies have shown that CT-1 administration results in a dose- and time-dependent activation and nuclear translocation of STAT1, -3, -5A, and -5B as well as
ERK1
and -2. We also confirmed the ability of CT-1 to induce signaling in fat cells in vivo. Our studies revealed that neither CT-1 nor ciliary neurotrophic factor treatment affected adipocyte differentiation. However, acute CT-1 treatment caused an increase in SOCS-3 mRNA in adipocytes and a transient decrease in peroxisome proliferator-activated receptor gamma (PPARgamma) mRNA that was regulated by the binding of STAT1 to the PPARgamma2 promoter. The effects of CT-1 on SOCS-3 and PPARgamma mRNA were independent of
MAPK
activation. Chronic administration of CT-1 to 3T3-L1 adipocytes resulted in a decrease of both
fatty acid synthase
and insulin receptor substrate-1 protein expression yet did not effect the expression of a variety of other adipocyte proteins. Moreover, chronic CT-1 treatment resulted in the development of insulin resistance as judged by a decrease in insulin-stimulated glucose uptake. In summary, CT-1 is a potent regulator of signaling in adipocytes in vitro and in vivo, and our current efforts are focused on determining the role of this cardioprotective cytokine on adipocyte physiology.
...
PMID:Effects of cardiotrophin on adipocytes. 1533 20
We designed our experiments to evaluate whether
fatty acid synthase
(
FAS
), a lipogenic enzyme linked to tumor virulence in population studies of human cancer, is necessary for the malignant transformation induced by Her-2/neu (erbB-2) oncogene, which is overexpressed not only in invasive breast cancer but also in premalignant atypical duct proliferations and in ductal carcinoma in situ of the breast. To avoid the genetic complexities associated with established breast cancer cell lines, we employed NIH-3T3 mouse fibroblasts engineered to overexpress human Her-2/neu coding sequence. NIH-3T3/Her-2 cells demonstrated a significant upregulation of
FAS
protein expression, which was dependent on the upstream activation of
mitogen-activated protein kinase
and phosphatidylinositol 3'-kinase/AKT pathways. Remarkably, pharmacological
FAS
blockade using the mycotoxin cerulenin or the novel small compound C75 completely suppressed the state of Her-2/neu-induced malignant transformation by inhibiting the ability of NIH-3T3/Her-2 cells to grow under either anchorage-independent (i.e., to form colonies in soft agar) or low-serum monolayer conditions. Moreover, NIH-3T3/Her-2 fibroblasts were up to three times more sensitive to chemical
FAS
inhibitors relative to untransformed controls as determined by MTT-based cell viability assays. In addition, pharmacological
FAS
blockade preferentially induced apoptotic cell death of NIH-3T3/Her-2 fibroblasts, as determined by an ELISA for histone-associated DNA fragments and by the terminal deoxynucleotidyltransferase (TdT)-mediated nick end labeling assay (TUNEL). Interestingly, the degree of Her-2/neu oncogene expression in a panel of breast cancer cell lines was predictive of sensitivity to chemical
FAS
inhibitors-induced cytotoxicity, while low-
FAS
expressing and chemical
FAS
inhibitors-resistant MDA-MB-231 breast cancer cells became hypersensitive to
FAS
blockade when they were engineered to overexpress Her-2/neu. Our observations strongly suggest that inhibition of
FAS
activity may provide a new molecular avenue for chemotherapeutic prevention and/or treatment of Her-2/neu-related breast carcinomas.
...
PMID:Pharmacological inhibition of fatty acid synthase (FAS): a novel therapeutic approach for breast cancer chemoprevention through its ability to suppress Her-2/neu (erbB-2) oncogene-induced malignant transformation. 1539 78
The hyperactivation of
fatty acid synthase
(
FAS
)-catalyzed de novo biosynthesis of fatty acids is a molecular marker linked to tumor virulence in population studies of human malignancies. This activation appears to be linked to neoplastic transformation, since high levels of
FAS
have also been identified in pre-malignant lesions. This dependence of cancer upon accelerated lipogenesis differs from normal human tissues, in which
FAS
is suppressed by the presence of small amounts of fatty acids in the diet. The molecular mechanisms by which cancer cells constitutively exhibit
FAS
overexpression and hyperactivity have begun to emerge. The active involvement of the
mitogen-activated protein kinase
(
MAPK
)
extracellular signal-regulated kinase
(
MAPK
ERK1
/2) and phosphatidylinositol-3'-kinase (PI-3'K)/protein kinase B (AKT) transduction cascades in the overexpression of
FAS
has been recently demonstrated in several cancer cell models. Strikingly, insulin-regulated stimulation of
FAS
expression in adipose cells is also mediated by the PI-3'K pathway with AKT being involved as a downstream effector. Moreover,
FAS
overexpression in tumor cells has been demonstrated to occur through a modification of the transcription factor sterol regulatory element-binding protein-1c (SREBP-1c), the major regulatory factor of
FAS
in liver and adipose tissues, which, in turn, is known to be regulated by
MAPK
ERK1
/2 and PI-3'K/AKT pathways. Therefore, the signal transduction pathways regulating
FAS
expression in normal and cancer cells seem to share several downstream elements. However, the upstream mechanisms controlling
FAS
expression in cancer cells must be different from those in normal tissues, since tumor-associated
FAS
expression seems to be insensitive to nutritional signals. In pre-neoplastic lesions, we hypothesize that the early activation of
FAS
in pre-malignant cells represents a survival strategy which occurs to compensate for an insufficiency of both oxygen and dietary fatty acids due to, e.g., lack of angiogenesis. Thus,
FAS
activation reflects an epigenetic dysregulation of the lipogenic pathway in response to the microenvironment of tumors containing regions of poor oxygenation. Upon this unusual metabolic situation,
FAS
up-regulation also represent a metabolic strategy to maintain high proliferation rates of surviving cells in the absence of exogenous dietary fatty acids. Concomitantly, a variety of oncogenic changes (H-ras, erb B-2, etc.) may result in the constitutive activation of
MAPK
and PI-3'K/AKT signaling cascades, which, in turn, can activate SREBP-1c and, subsequently, tumor-associated
FAS
-catalyzed endogenous lipogenesis. Thereafter, high levels of
FAS
are maintained in coordination with increased demand for fatty acid metabolism and/or membrane synthesis in response to cancer-related overexpression of growth factors (e.g., EGF, heregulin) and/or growth factor receptors (e.g., EGFR, Her-2/neu). The aberrant
MAPK
and PI-3'K/AKT cascades driven by these oncogenic changes subvert the downregulatory effects of physiological concentrations of dietary fatty acids, resulting in a cancer-associated
FAS
insensitivity to nutritional signals. This model does not exclude that fundamental differences in the ability of
FAS
gene to respond to normal fatty acid's downregulatory actions may also synergistically interact with oncogenic signals to constitutively maintain an elevated
FAS
-dependent de novo endogenous fatty acid biogenesis in cancer cells in spite of high levels of circulating dietary fatty acids.
...
PMID:Why does tumor-associated fatty acid synthase (oncogenic antigen-519) ignore dietary fatty acids? 1560 69
The relationship between breast cancer-associated
fatty acid synthase
(FAS; oncogenic antigen-519) and chemotherapy-induced cell damage has not been studied. We examined the ability of C75, a synthetic slow-binding inhibitor of FAS activity, to modulate the cytotoxic activity of the microtubule-interfering agent Taxol (paclitaxel) in SK-Br3, MDA-MB-231, MCF-7 and multidrug-resistant MDR-1 (P-Glycoprotein)-overexpressing MCF-7/AdrR breast cancer cells. When the combination of C75 with Taxol in either concurrent (C75 + Taxol 24 hr) or sequential (C75 24 hr --> Taxol 24 hr) schedules were tested for synergism, addition or antagonism using the isobologram and the median-effect plot analyses, co-exposure of C75 and Taxol mostly demonstrated synergistic effects, whereas sequential exposure to C75 followed by Taxol mainly showed additive or antagonistic interactions. Because the nature of the cytotoxic interactions was definitely schedule-dependent in MCF-7 cells, we next evaluated the effects of C75 on Taxol-induced apoptosis as well as Taxol-activated cell death and cell survival-signaling pathways in this breast cancer cell model. An ELISA for histone-associated DNA fragments demonstrated that C75 and Taxol co-exposure caused a synergistic enhancement of apoptotic cell death, whereas C75 pre-treatment did not enhance the apoptosis-inducing activity of Taxol. Co-exposure to C75 and Taxol induced a remarkable nuclear accumulation of activated p38 mitogen-activated protein kinase (p38
MAPK
), which was accompanied by a synergistic nuclear accumulation of the p53 tumor-suppressor protein that was phosphorylated at Ser46, a p38
MAPK
-regulated pro-apoptotic modification of p53. As single agents, FAS blocker C75 and Taxol induced a significant stimulation of the proliferation and cell survival
mitogen-activated protein kinase
extracellular signal-regulated kinase
(
ERK1
/
ERK2
MAPK
) activity, whereas, in combination, they interfered with
ERK1
/
ERK2
activation. Moreover, the combined treatment of C75 and Taxol inactivated the anti-apoptotic AKT (protein kinase B) kinase more than either agent alone, as evidenced by a synergistic down-regulation of AKT phosphorylation at its activating site Ser(473) without affecting AKT protein levels. To rule out a role for non-FAS C75-mediated effects, we finally used the potent and highly sequence-specific mechanism of RNA interference (RNAi) to block FAS-dependent signaling. Importantly, SK-Br3 and multi-drug resistant MCF-7/AdrR cells transiently transfected with sequence-specific double-stranded RNA oligonucleotides targeting FAS gene demonstrated hypersensitivity to Taxol-induced apoptotic cell death. Our findings establish for the first time that FAS blockade augments the cytotoxicity of anti-mitotic drug Taxol against breast cancer cells and that this chemosensitizing effect is schedule-dependent. We suggest that the alternate activation of both the pro-apoptotic p38
MAPK
-p53 signaling and the cytoprotective MEK1/2 -->
ERK1
/2 cascade, as well as the inactivation of the anti-apoptotic AKT activity may explain, at least in part, the sequence-dependent enhancement of Taxol-induced cytotoxicity and apoptosis that follows inhibition of FAS activity in breast cancer cells. If chemically stable FAS inhibitors demonstrate systemic anticancer effects of FAS inhibition in vivo, these findings may render FAS as a valuable molecular target to enhance the efficacy of taxanes-based chemotherapy in human breast cancer.
...
PMID:Pharmacological and small interference RNA-mediated inhibition of breast cancer-associated fatty acid synthase (oncogenic antigen-519) synergistically enhances Taxol (paclitaxel)-induced cytotoxicity. 1565
Intramuscular triglyceride (IMTG) deposition in skeletal muscle is associated with obesity and type 2 diabetes (T2DM) and is thought to be related to insulin resistance (IR). Curiously, despite enhanced skeletal muscle insulin sensitivity, highly trained athletes and calorie-restricted (CR) monkeys also have increased IMTG. Sterol regulatory element-binding proteins (SREBPs) are transcription factors that regulate the biosynthesis of cholesterol and fatty acids. SREBP-1 is increased by insulin in skeletal muscle in vitro and in skeletal muscle of IR subjects, but SREBP-1 expression has not been examined in exercise training or calorie restriction. We examined the relationship between IMTG and SREBP-1 expression in animal models of exercise and calorie restriction. Gastrocnemius and soleus muscle biopsies were obtained from 38 Sprague-Dawley rats (18 control and 20 exercise trained). Triglyceride content was higher in the gastrocnemius and soleus muscles of the trained rats. SREBP-1c mRNA, SREBP-1 precursor and mature proteins, and
fatty acid synthase
(
FAS
) protein were increased with exercise training. Monkeys (Macaca mulatta) were CR for a mean of 10.4 years, preventing weight gain and IR. Vastus lateralis muscle was obtained from 12 monkeys (6 CR and 6 controls). SREBP-1 precursor and mature proteins and
FAS
protein were higher in the CR monkeys. In addition, phosphorylation of
ERK1
/
ERK2
was increased in skeletal muscle of CR animals. In summary, SREBP-1 protein and SREBP-1c mRNA are increased in interventions that increase IMTG despite enhanced insulin sensitivity. CR and exercise-induced augmentation of SREBP-1 expression may be responsible for the increased IMTG seen in skeletal muscle of highly conditioned athletes.
...
PMID:Exercise training and calorie restriction increase SREBP-1 expression and intramuscular triglyceride in skeletal muscle. 1644 96
Essential fatty acids are not only energy-rich molecules; they are also an important component of the membrane bilayer and recently have been implicated in induction of
fatty acid synthase
and other genes. Using gene chip analysis, we have found that arachidonic acid, an omega-6 fatty acid, induced 11 genes that are regulated by nuclear factor-kappaB (NF-kappaB). We verified gene induction by omega-6 fatty acid, including COX-2, IkappaBalpha, NF-kappaB, GM-CSF, IL-1beta, CXCL-1, TNF-alpha, IL-6, LTA, IL-8, PPARgamma, and ICAM-1, using quantitative reverse transcription-PCR. Prostaglandin E(2) (PGE(2)) synthesis was increased within 5 minutes of addition of arachidonic acid. Analysis of upstream signal transduction showed that within 5 minutes of fatty acid addition, phosphatidylinositol 3-kinase (PI3K) was significantly activated followed by activation of Akt at 30 minutes. Extracellular signal-regulated kinase 1 and 2, p38 and
stress-activated protein kinase
/c-Jun-NH(2)-kinase were not phosphorylated after omega-6 fatty acid addition. Thirty minutes after fatty acid addition, we found a significant 3-fold increase in translocation of NF-kappaB transcription factor to the nucleus. Addition of a nonsteroidal anti-inflammatory drug (NSAID) caused a decrease in COX-2 protein synthesis, PGE(2) synthesis, as well as inhibition of PI3K activation. We have previously shown that NSAIDs cause an inhibition of arachidonic acid-induced proliferation; here, we have shown that arachidonic acid-induced proliferation is also blocked (P < 0.001) by PI3K inhibitor LY294002. LY294002 also significantly inhibited the arachidonic acid-induced gene expression of COX-2, IL-1beta, GM-CSF, and ICAM1. Taken together, the data suggest that arachidonic acid via conversion to PGE(2) plays an important role in stimulation of growth-related genes and proliferation via PI3K signaling and NF-kappaB translocation to the nucleus.
...
PMID:Arachidonic acid activates phosphatidylinositol 3-kinase signaling and induces gene expression in prostate cancer. 1645 98
Fatty acid synthase is overexpressed in cancer especially in tumors with a poor prognosis. The specific
fatty acid synthase
inhibitor cerulenin can induce apoptosis in cancer cells. Likewise, phosphatidylinositol 3-kinase (PI3K)/Akt kinase activities are elevated in primary tumors and cancer cell lines. Here, we tested whether inhibition of PI3K/Akt pathway would sensitize cancer cells to cerulenin-induced apoptosis. We show that LY294002, an inhibitor of PI3K, sensitized MDA-MB468 breast cancer cells to cerulenin-induced apoptosis. In MDA-MB468 cells, cerulenin- and LY294002-mediated apoptosis was associated with caspase-3 activation and the release of cytochrome c from mitochondria to cytosol. In addition, we observed additional species of Bak in mitochondria, suggesting a possible Bak activation. Treatment of cells with cerulenin and LY294002 down-regulated the protein levels of X chromosome-linked inhibitor of apoptosis (XIAP), cellular inhibitor of apoptosis 1 (cIAP-1), and Akt, whereas the levels of mitogen-activated protein/
extracellular signal-regulated kinase
kinase and other antiapoptotic Bcl-2 family proteins (Bcl-2 and Bcl-xl) did not change. Interestingly, the nonspecific caspase inhibitor, z-VAD-FMK, inhibited the down-regulation of Akt, XIAP, and cIAP-1 in cerulenin- and LY294002-treated cells. In conclusion, these studies show that inhibition of PI3K can sensitize cerulenin-induced apoptosis in MBA-MB468 breast cancer cells via activation of caspases, down-regulation of antiapoptotic proteins, such as XIAP, cIAP-1 and Akt, and possibly, activation of Bak in mitochondria.
...
PMID:Inhibition of the phosphatidylinositol 3-kinase/Akt pathway sensitizes MDA-MB468 human breast cancer cells to cerulenin-induced apoptosis. 1654 63
Resveratrol mimics calorie restriction to extend lifespan of Caenorhabditis elegans, yeast and Drosophila, possibly through activation of Sir2 (silent information regulator 2), a NAD+-dependent histone deacetylase. In the present study, resveratrol is shown to inhibit the insulin signalling pathway in several cell lines and rat primary hepatocytes in addition to its broad-spectrum inhibition of several signalling pathways. Resveratrol effectively inhibits insulin-induced Akt and
MAPK
(
mitogen-activated protein kinase
) activation mainly through disruption of the interactions between insulin receptor substrates and its downstream binding proteins including p85 regulatory subunit of phosphoinositide 3-kinase and Grb2 (growth factor receptor-bound protein 2). The inhibitory effect of resveratrol on insulin signalling is also demonstrated at mRNA level, where resveratrol reverses insulin effects on phosphoenolpyruvate carboxykinase, glucose-6-phosphatase,
fatty acid synthase
and glucokinase. In addition, RNA interference experiment shows that the inhibitory effect of resveratrol on insulin signalling pathway is not weakened in cells with reduced expression of SirT1, the mammalian counterpart of Sir2. These observations raise the possibility that resveratrol may additionally modulate lifespan through inhibition of insulin signalling pathway, independently of its activation of SirT1 histone deacetylase. Furthermore, the present study may help to explain a wide range of biological effects of resveratrol, and provides further insight into the molecular basis of calorie restriction.
...
PMID:Resveratrol inhibits insulin responses in a SirT1-independent pathway. 1662 3
There is an urgent need to identify and develop a new generation of therapeutic agents and systemic therapies targeting the estradiol (E2)/estrogen receptor (ER) signaling in breast cancer. In this regard, new information on the mechanisms of E2/ER function and/or cross talk with other prosurvival cascades should provide the basis for the development of other ideal anti-E2 therapies with the intent to enhance clinical efficacy, reduce side effects or both. Our very recent assessment of the mechanisms by which cancer-associated increased lipogenesis and its inhibition alters the E2/ER signaling discovered that
fatty acid synthase
(
FASN
), the enzyme catalyzing the terminal steps in the de novo biosynthesis of long-chain fatty acids, differentially modulates the state of sensitivity of breast and endometrial cancer cells to E2-stimulated ER transcriptional activation and E2-dependent cell growth and survival: 1) pharmacological inhibition of
FASN
activity induced a dramatic augmentation of E2-stimulated ER-driven gene transcription, whereas interference (RNAi)-mediated silencing of FAS gene expression drastically lowered E2 requirements for optimal activation of ER transcriptional activation in breast cancer cells; conversely, pharmacological and RNAi-induced inhibition of
FASN
worked as an antagonist of E2- and tamoxifen-dependent ER transcriptional activity in endometrial adenocarcinoma cells; 2) pharmacological and RNAi-induced inhibition of
FASN
synergistically enhanced E2-mediated down-regulation of ER protein and mRNA expression in breast cancer cells, whereas specific
FASN
blockade resulted in a marked down-regulation of E2-stimulated ER expression in endometrial cancer cells; and 3)
FASN
inhibition decreased cell proliferation and cell viability by promoting apoptosis in hormone-dependent breast and endometrial cancer cells. In this review we propose that, through a complex mechanism involving the regulation of
MAPK
/ER cross talk as well as critical E2-related proteins including the Her-2/neu (erbB-2) oncogene and the cyclin-dependent kinase inhibitors p21(WAF1/CIP1) and p27(Kip1), a previously unrevealed connection exists between
FASN
and the genomic and nongenomic ER activities in breast and endometrial cancer cells. From a clinical perspective, we suggest that if chemically stable
FASN
inhibitors or cell-selective systems able to deliver RNAi targeting
FASN
gene demonstrate systemic anticancer effects of
FASN
inhibition in vivo, additional preclinical studies to characterize their anti-breast cancer actions should be of great interest as the specific blockade of
FASN
activity may also provide a protective means against endometrial carcinoma associated with tamoxifen-based breast cancer therapy.
...
PMID:Targeting fatty acid synthase in breast and endometrial cancer: An alternative to selective estrogen receptor modulators? 1680 39
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