Expression Levels Of Fatty Acid Synthase Research Articles

Fatty Acid Synthase Promotes Hepatocellular Carcinoma Growth via S-Phase Kinase-Associated Protein 2/p27KIP1 Regulation.

Background and Objectives: Aberrant upregulation of fatty acid synthase (FASN), catalyzing de novo synthesis of fatty acids, occurs in various tumor types, including human hepatocellular carcinoma (HCC). Although FASN oncogenic activity seems to reside in its pro-lipogenic function, cumulating evidence suggests that FASN's tumor-supporting role might also be metabolic-independent. Materials and Methods: In the present study, we show that FASN inactivation by specific small interfering RNA (siRNA) promoted the downregulation of the S-phase kinase associated-protein kinase 2 (SKP2) and the consequent induction of p27KIP1 in HCC cell lines. Results: Expression levels of FASN and SKP2 directly correlated in human HCC specimens and predicted a dismal outcome. In addition, forced overexpression of SKP2 rendered HCC cells resistant to the treatment with the FASN inhibitor C75. Furthermore, FASN deletion was paralleled by SKP2 downregulation and p27KIP1 induction in the AKT-driven HCC preclinical mouse model. Moreover, forced overexpression of an SKP2 dominant negative form or a p27KIP1 non-phosphorylatable (p27KIP1-T187A) construct completely abolished AKT-dependent hepatocarcinogenesis in vitro and in vivo. Conclusions: In conclusion, the present data indicate that SKP2 is a critical downstream effector of FASN and AKT-dependent hepatocarcinogenesis in liver cancer, envisaging the possibility of effectively targeting FASN-positive liver tumors with SKP2 inhibitors or p27KIP1 activators.

Intervention effect of Erchen Decoction on methionine and choline deficient diet-induced non-alcoholic steatohepatitis in mice

This study investigated the effect of Erchen Decoction(ECD) on the prevention of non-alcoholic steatohepatitis(NASH) in mice and explored its possible mechanism, so as to provide scientific data for the clinical application of ECD in the prevention of NASH. C57BL/6 male mice were randomly divided into normal group(methionine and choline supplement, MCS), model group(methionine and choline deficient, MCD), low-dose ECD group(ECD＿L, 6 g·kg~(-1)), medium-dose ECD group(ECD＿M, 12 g·kg~(-1)), and high-dose ECD group(ECD＿H, 24 g·kg~(-1)), with eight mice in each group. The MCS group was fed with an MCS diet, and the other groups were fed with an MCD diet. The mice in each group were given corresponding diets, but the drug intervention group was given low-, medium-, and high-dose ECD(10 mL·kg~(-1)·d~(-1)) by intragastric administration for six weeks on the basis of MCD diet feeding, and the mice could eat and drink freely during the whole experiment. At the end of the experiment, mice were fasted overnight(12 h) and were anesthetized with 20% urethane. Thereafter, the blood and liver tissue were collected. The serum was used to detect the levels of alanine aminotransferase(ALT), aspartate aminotransaminase(AST), interleukin-1β(IL-1β), interleukin-6(IL-6), interleukin-10(IL-10), and tumor necrosis factor-α(TNF-α). Liver tissue was processed by hematoxylin-eosin(HE) staining and used for hepatic histological analysis and detection of the expression levels of genes and proteins related to nuclear factor erythroid 2-related factor 2/glutathione peroxidase 4(Nrf2/GPX4) pathway by real-time quantitative reverse transcriptase-polymerase chain reaction(RT-qPCR) and Western blot analysis, respectively. The results showed that compared with the MCS group, the MCD group showed higher serum ALT and AST levels; the HE staining exhibited fat vacuoles and obvious inflammatory cell infiltration in liver tissue; serum IL-1β, IL-6, and TNF-α levels were significantly increased, and the serum IL-10 level was significantly decreased. The mRNA expressions of fatty acid synthase(FASN), monocyte chemoattractant protein-1(MCP-1), and IL-1β in liver tissue were significantly up-regulated, while those of GPX4, Nrf2, and NAD(P)H:quinine oxidoreductase(NQO1) were significantly down-regulated. Compared with the MCD group, the serum ALT and AST levels of ECD＿M and ECD＿H groups were significantly decreased, and the AST level in the ECD＿L group was significantly decreased. The number of fat vacuoles and the degree of inflammatory cell infiltration in liver tissue were improved; serum IL-1β, IL-6, and TNF-α levels were significantly decreased, but the serum IL-10 level was significantly increased only in the ECD＿H group. The mRNA expressions of FASN, MCP-1, and IL-1β in liver tissue were significantly down-regulated, and those of GPX4 and NQO1 were significantly up-regulated. The mRNA expressions of Nrf2 in ECD＿M and ECD＿H groups were significantly up-regulated. Western blot results showed that compared with the MCD group, the protein expression levels of Nrf2 and GPX4 in each group were significantly increased after ECD administration, and the protein expression level of FASN was significantly decreased; the protein expression of NQO1 was increased in ECD＿M and ECD＿H groups. In summary, ECD can reduce hepatic lipid accumulation, oxidative stress, liver inflammation, and liver injury in NASH mice, which may be related to the activation of the Nrf2/GPX4 pathway.

Ilex paraguariensis A.St.-Hil. improves lipid metabolism in high-fat diet-fed obese rats and suppresses intracellular lipid accumulation in 3T3-L1 adipocytes via the AMPK-dependent and insulin signaling pathways.

Obesity is closely associated with several chronic diseases, and adipose tissue plays a major role in modulating energy metabolism. This study aimed to determine whether Mate, derived from I. paraguariensis A.St.-Hil., ameliorates lipid metabolism in 3T3-L1 adipocytes and high-fat diet (HFD)-fed obese Sprague-Dawley (SD) rats. 3T3-L1 adipocytes were cultured for 7 days, following which intracellular lipid accumulation and expression levels of lipid metabolism-related factors were examined. Dorsomorphin was used to investigate the potential pathways involved, particularly the adenosine monophosphate-activated protein kinase (AMPK)- dependent pathway. Mate was administered to rat HFD-fed obese SD models for 8 consecutive weeks. The expression of lipid metabolism-related factors in the organs and tissues collected from dissected SD rats was evaluated. Mate suppressed intracellular lipid accumulation in 3T3-L1 adipocytes, increased the protein and gene expression levels of AMPK, hormone sensitive lipase (HSL), calmodulin kinase kinase (CaMKK), liver kinase B1 (LKB1), protein kinase A (PKA), CCAAT/enhancer binding protein β (C/EBPβ), insulin receptor b (IRβ), and insulin receptor substrate 1 (IRS1) (Tyr465), and decreased those of sterol regulatory element binding protein 1C (Srebp1c), fatty acid synthase (FAS), peroxisome-activated receptor γ (PPARγ), and IRS1 (Ser1101). Furthermore, an AMPK inhibitor abolished the effects exerted by Mate on intracellular lipid accumulation and HSL and FAS expression levels. Mate treatment suppressed body weight gain and improved serum cholesterol levels in HFD-fed obese SD rats. Treatment with Mate increased the protein and gene expression levels of AMPK, PKA, Erk1/Erk2 (p44/p42), and uncoupling protein 1 and reduced those of mammalian target of rapamycin, S6 kinase, Srebp1c, ap2, FAS, Il6, Adiponectin, Leptin, and Fabp4 in rat HFD-fed obese SD models. Mate suppressed intracellular lipid accumulation in 3T3-L1 adipocytes and improved lipid metabolism in the epididymal adipose tissue of HFD-fed obese SD rats via the activation of AMPK-dependent and insulin signaling pathways.

Pentacyclic Triterpenes from Olive Leaves Formulated in Microemulsion: Characterization and Role in De Novo Lipogenesis in HepG2 Cells.

Olea europaea L. leaves contain a wide variety of pentacyclic triterpenes (TTPs). TTPs exhibit many pharmacological activities, including antihyperlipidemic effects. Metabolic alterations, such as dyslipidemia, are an established risk factor for hepatocellular carcinoma (HCC). Therefore, the use of TTPs in the adjunctive treatment of HCC has been proposed as a possible method for the management of HCC. However, TTPs are characterized by poor water solubility, permeability, and bioavailability. In this work, a microemulsion (ME) loading a TTP-enriched extract (EXT) was developed, to overcome these limits and obtain a formulation for oral administration. The extract-loaded microemulsion (ME-EXT) was fully characterized, assessing its chemical and physical parameters and release characteristics, and the stability was evaluated for two months of storage at 4 °C and 25 °C. PAMPA (parallel artificial membrane permeability assay) was used to evaluate the influence of the formulation on the intestinal passive permeability of the TTPs across an artificial membrane. Furthermore, human hepatocarcinoma (HepG2) cells were used as a cellular model to evaluate the effect of EXT and ME-EXT on de novo lipogenesis induced by elevated glucose levels. The effect was evaluated by detecting fatty acid synthase expression levels and intracellular lipid accumulation. ME-EXT resulted as homogeneous dispersed-phase droplets, with significantly increased EXT aqueous solubility. Physical and chemical analyses showed the high stability of the formulation over 2 months. The formulation realized a prolonged release of TTPs, and permeation studies demonstrated that the formulation improved their passive permeability. Furthermore, the EXT reduced the lipid accumulation in HepG2 cells by inhibiting de novo lipogenesis, and the ME-EXT formulation enhanced the inhibitory activity of EXT on intracellular lipid accumulation.

Expression profile of FASN gene and association of its polymorphisms with intramuscular fat content in Hu sheep

The content of intramuscular fat (IMF) is one of the most important factors that has a large impact on meat quality, and it is an effective way to improve IMF according to marker-assisted selection (MAS). Fatty-acid synthase (FASN) is a key gene in meat lipid deposition and fatty acid composition. Thus, this study was conducted to investigate the expression profile of FASN in mRNA and protein levels using real-time quantitative PCR (RT-qPCR) and western-blot methods. In addition, single nucleotide polymorphisms (SNPs) within FASN in 921 Hu rams with IMF content records were investigated using DNA-pooling sequencing and improved multiple ligase detection reaction (iMLDR) methods. Consequently, the highest mRNA expression level of FASN was observed in the perinephric fat, and the lowest in the liver among the 11 tissues analyzed, while no significant difference was found in mRNA and protein expression levels in longissimus dorsi among individuals with different IMF contents. A total of 10 putative SNPs were identified within FASN, and 9 of them can be genotyped by iMLDR method. Notably, two SNPs were significantly associated with IMF content, including NC_040262.1: g.5157 A > G in intron 5 (p = 0.046) and NC_040262.1: g.9413 T > C in intron 16 (p = 0.041), which supply molecular markers for improving meat quality in sheep breeding.

Fatty acid synthase (FASN) inhibits the cervical squamous cell carcinoma (CESC) progression through the Akt/mTOR signaling pathway

BackgroundCervical cancer is a malignant tumor that affects females and remains the cause of the highest morbidity and mortality among women worldwide. Currently, gene-targeted therapy is a novel treatment option for clinicians. Furthermore, fatty acid synthase (FASN) plays a therapeutic role in various cancers. Nonetheless, the mechanism of action of this enzyme in cervical squamous cell carcinoma and cervical duct adenocarcinoma (CESC) has not yet been reported. MethodsRNA (ribonucleic acid) sequencing data and clinical information were obtained from The Cancer Genome Atlas (TCGA) and Genotype-Tissue Expression (GTEx). The expression levels of FASN were obtained from Gene Expression Profiling Interactive Analysis 2 (GEPIA2) and Human Protein Atlas (HPA). Univariate and multivariate Cox regression analyses were utilized to assess independent prognostic factors associated with survival. A nomogram and receiver operating characteristic curve (ROC) were employed to evaluate survival and predictive power. In vitro experiments and real-time quantitative reverse transcription polymerase chain reaction (RT-qPCR) were conducted to identify cell interference efficiency. MTS, monoclonal formation, and EDU assays were used to determine cell viability. Wound healing and invasion assays (transwell assay) were used to evaluate cell migration and invasion. Finally, Hoechst 33342, propidium iodide (PI) staining and Annexin V-FITC staining were used to assess apoptosis and the cell cycle, while western blotting was utilized to determine the protein expression levels. ResultsFASN was aberrantly expressed in various cancers, including CESC, where it was highly expressed. Kaplan-Meier, univariate, multivariate Cox regression analyses and ROC curve indicated that FASN is a potential key indicator of survival prognosis among CESC patients and demonstrated good predictive ability and efficacy. Complementary in vitro experiments confirmed that FASN is an important target for CESC therapy. ConclusionThe current study validated the biological and clinical significance of FASN in CESC prognosis, suggesting that FASN knockdown may exert antitumor activity against cervical cancer through the Akt/mTOR signaling pathway.

MicroRNA-424-5p Alleviates Isoflurane Anesthesia-Induced Neurotoxicity in Human Embryonic Stem Cell-Derived Neurons by Targeting FASN.

Isoflurane (ISO) is a type of anesthetic that might cause neurotoxicity in children. Although miR-424-5p is considerably downregulated in ISO-treated rat brain samples, its physiological role in ISO-induced neuronal injury in human embryonic stem cell-derived neurons remains unknown (hESC-derived neurons). miR-424-5p expression and fatty acid synthase (FASN) in ISO-treated hESC-derived neurons were tested via qRT-PCR. The amount of protein for Bax, Cleaved-caspase-8, Bcl-2, and FASN was investigated through western blot analysis. The viability and apoptosis of hESC-derived neurons were estimated through cell counting kit-8 assessment and TUNEL assay, accordingly. Superoxide dismutase, glutathione, and malondialdehyde levels were discovered via corresponding kits. The contents of inflammatory factors including interleukin-6 and tumor necrosis factor-α were examined by enzyme-linked immunosorbent assays. The combination between FASN and miR-424-5p was resolute via dual-luciferase reporter assessment. After exposure to ISO, induced neurotoxicity and a decreased miR-424-5p production were identified in hESC-derived neurons. Upregulation of miR-424-5p repressed ISO-induced apoptosis and mitigated ISO-induced inflammatory response and oxidative stress in vitro. FASN expression levels were reduced by elevation of miR-424-5p and upregulated after ISO treatment. Mechanically, FASN was directly targeted by miR-424-5p in hESC-derived neurons. Of note, the miR-424-5p elevation-suppressed neuronal apoptosis, inflammatory response, and oxidative stress were countered by upregulation of FASN.

Functional SCD1 Is Critical for Acute Lymphoblastic Leukaemia Maintenance in the Central Nervous System

The largest advance in survival rates for childhood acute lymphoblastic leukaemia (ALL) came with the recognition that eradication of disease in the central nervous system (CNS) is needed to achieve long-term cure. All modern ALL protocols include large amounts of CNS-directed therapy, predominantly with methotrexate, which can result in significant acute and chronic neurotoxicity. In addition, CNS relapse remains a clinical challenge with a lack of effective drugs for recurrent disease. Despite this, little is known about the mechanisms by which leukaemic blasts enter the CNS and survive in this different microenvironment. Identifying specific mechanisms that support maintenance of ALL in the CNS should facilitate more effective targeted therapies.CNS ALL blasts reside in the leptomeninges, bathed in cerebrospinal fluid (CSF) which is low in glucose, protein, lipids and oxygen. Since blasts need building blocks and energy to survive and proliferate, and CSF nutrient supplies are scarce, we hypothesized that changes in their metabolism would occur. Such metabolic remodelling (flexible adaptation of metabolism according to tissue location and environmental conditions) is acknowledged as a hallmark of cancers. In a nutrient-deprived environment such as the CSF, metabolic adaptations are likely to be key to ALL survival.Thus, we investigated specific CNS-related metabolic signatures of ALL blasts. NOD.Cg-Prkdcscid Il2rgtm1Wjl/SzJ (NSG) mice were xenotransplanted with two human ALL cell lines: SEM (t(4;11), MLL-AF4) and REH (t(12;21), ETV6-RUNX1). After engraftment, cells were isolated from the CNS and spleen and RNA sequencing performed (Next Seq500). Transcript quantification was done against both human and mouse transcriptomes, in order to remove any possible mouse RNA contamination. Stearoyl-CoA Desaturase (SCD1) and Fatty Acid Synthase (FASN), key enzymes involved in fatty acid synthesis, were among the most upregulated genes in the CNS. Single sample gene set enrichment analysis confirmed that fatty acid and lipid synthesis showed a clear and significant upregulation in blasts from the CNS compared to the spleen for both cell lines, whereas the opposite result was observed for fatty acid and lipid oxidation. These results were replicated using a publicly available human dataset comparing bone marrow (BM) vs. CNS relapse samples from ALL patients (GEO dataset GSE60926).We went on to characterise the fatty acid profile of normal CSF and paired plasma from both non-leukaemic NSG mice and healthy human volunteers. Both murine and human CSF are about 1000-fold less rich in fatty acids than plasma. Immunostaining of SCD1 and FASN confirmed that both enzymes were strongly expressed on ALL blasts in the leptomeninges of post-mortem samples from patients with CNS-relapse and xenograft models. Murine BM showed equivalent levels of FASN expression but lower SCD1, and western blots confirmed that SCD1 was overexpressed at the protein level by about 2-fold in CNS compared to spleen or BM. We therefore chose to pursue SCD1 as a potential therapeutic target for CNS leukaemia.Two groups of NSG mice were xenografted with SEM cells and treated from day 15 post-transplant with either vehicle or 5mg/kg of the oral small-molecule SCD1 inhibitor MF-438 daily for 11 days. This dose strongly impaired SCD1 activity, since the ratios of oleate to stearate in plasma from vehicle- treated mice were 6 times higher than in plasma from MF-438 treated mice. We confirmed that the drug also reduced intra-cellular ratios of oleate:stearate by approximately 2-fold. Measurement of ALL burden in the leptomeninges showed an approximately 50% reduction in the area of leukaemic infiltrates in brain-skull sections. No difference in the burden of leukaemia in BM could be identified, supporting a specific vulnerability to SCD1 inhibition in the CNS microenvironment.In conclusion, we report a strong fatty acid and lipid signature in ALL blasts retrieved from the CNS environment, and identify the enzyme SCD1 as a critical target. We show a significant upregulation of the enzyme, from RNA levels to enzymatic activity, both in murine and human samples of CNS ALL. Using a small-molecule inhibitor in vivo, we show that inhibiting SCD1 activity reduces the amount of CNS leukaemia. Altogether, our data identify fatty acid metabolism as a novel therapeutic target for CNS leukaemia. DisclosuresHalsey:Jazz Pharmaceuticals: Consultancy, Other: Support to attend educational meetings.

Reducing FASN expression sensitizes acute myeloid leukemia cells to differentiation therapy

Fatty acid synthase (FASN) is the only human lipogenic enzyme available for de novo fatty acid synthesis and is often highly expressed in cancer cells. We found that FASN mRNA levels were significantly higher in acute myeloid leukemia (AML) patients than in healthy granulocytes or CD34+ hematopoietic progenitors. Accordingly, FASN levels decreased during all-trans retinoic acid (ATRA)-mediated granulocytic differentiation of acute promyelocytic leukemia (APL) cells, partially via autophagic degradation. Furthermore, our data suggest that inhibition of FASN expression levels using RNAi or (-)-epigallocatechin-3-gallate (EGCG) accelerated the differentiation of APL cell lines and significantly re-sensitized ATRA refractory non-APL AML cells. FASN reduction promoted translocation of transcription factor EB (TFEB) to the nucleus, paralleled by activation of CLEAR network genes and lysosomal biogenesis. Together, our data demonstrate that inhibition of FASN expression in combination with ATRA treatment facilitates granulocytic differentiation of APL cells and may extend differentiation therapy to non-APL AML cells.

Upregulation of fatty acid synthase in MYC and BCL-2 double-expressor lymphoma.

Diffuse large B-cell lymphoma (DLBCL) is the most common and heterogeneous lymphoid malignancy. The subtype with MYC and BCL-2 double-expressor lymphoma (DEL) was defined by its aggressive nature and poor survival outcome. Therefore, the development of effective therapies for the DEL subtype is imperative. Fatty acid synthase (FASN) activity is associated with altered lipid metabolism and aberrant protein translation in DLBCL. However, the inter-regulation of these key processes is not fully determined in DEL. In the present study, the clinical and biological impact of FASN was investigated in the DEL subtype. Initially, FASN expression levels were analyzed from a patient cohort and the data indicated that the highest FASN expression was noted in DEL tissues compared with that noted in the DLBCL and reactive lymphoid hyperplasia tissues. Patients with DEL with combined high-FASN expression indicated poorer EFS outcomes than the rest of the patients. In vitro data indicated that FASN was overexpressed in SU-DHL-2 and U2932 cells. Silencing FASN decreased cell growth and promoted cell apoptosis by modulating the pERK/BCL-2 signaling pathway. In conclusion, the present study indicated that FASN was overexpressed in DEL and that its expression was associated with poor survival outcomes. Furthermore, the data demonstrated that FASN regulated the biological function via the pERK/BCL-2 signaling pathway. FASN serves a critical role in the progression of DEL and its expression may be associated with the development to a more aggressive phenotype of DLBCL. Therefore, it may be considered a potential therapeutic target for DLBCL.

Preliminary study on effect of Gegen Qinlian Decoction on enzyme activity, gene expression and methylation level of FASN in adipose tissue of rats with insulin resistance

To investigate the effect of Gegen Qinlian Decoction(GQD) on enzyme activity, gene expression and methylation level of fatty acid synthase(FASN) in adipose tissue from rats with insulin resistance induced by high-fat diet. The 60% fat-powered high-fat diet was continuously given to male SD rats to induce the insulin resistance model. Then, they were divided into five groups randomly and administrated by gavage every day for 16 weeks with following drugs respectively: 10 mL·kg~(-1)water for control group(C) and insulin resistance model control group(IR), 1.65 g·kg~(-1)GQD per day for low-dose group(GQDL), 4.95 g·kg~(-1)GQD per day for medium-dose group(GQDM), 14.85 g·kg~(-1)GQD per day for high-dose group(GQDH), and 5 mg·kg~(-1) rosiglitazone per day for rosiglitazone group(RGN). Epididymal adipose tissue was taken to determine enzyme activity of FASN by colorimetric method, mRNA expression level of Fasn by quantitative Real-time PCR(Q-PCR) and CpGs methylation level between +313 and +582 by bisulfite sequencing PCR(BSP). These results showed that Fasn expression was significantly lowered in IR model rats compared with the control rats(P<0.01). Enzymatic activity and CpGs methylation level of Fasn in IR group showed downward trends. Low and medium-dose GQD can increase enzyme activity of FASN(P<0.05). Moreover, low-dose GQD increased the total CpGs methylation level of Fasn fragment between +313 and +582 in insulin resistance rats(P<0.05). For GQDM group, the methylation frequency of CpGs at positions +506 and +508(P<0.01) as well as the methylation frequency of CpGs on the binding sites of transcription factorzinc finger protein 161(P<0.05) were significantly increased. The methylation frequency of CpG at +442 position was positively correlated with Fasn expression(P<0.01, r=0.735), and methylation frequencies of CpGs at +345 and +366 positions were positively associated to enzyme activity of FASN respectively(P<0.05, r=0.479; P<0.01, r=0.640). In conclusion, GQD can reverse enzyme activity of FASN and methylation level of Fasn in adipose tissue of insulin resistant rats, and CpG sites at positions +506 and +508 may be the targets of GQD. The methylation level of CpGs at + 345 and + 366 sites were possibly related to FASN activity, while methylation of CpG at + 442 site may be closely correlated with mRNA level of Fasn. In addition, GQD did not significantly change mRNA expression level of Fasn, but effectively reversed enzymatic activity, suggesting that GQD may regulate the post transcriptional expression of Fasn.

Fatty acid synthase promotes breast cancer metastasis by mediating changes in fatty acid metabolism.

Fatty acid metabolism is closely associated with the occurrence and development of tumors. The aim of the present study was to investigate whether the key enzyme involved in fatty acid synthesis, fatty acid synthase (FASN), mediates fatty acid changes that affect the activity and migration of breast cancer cells, and whether specific fatty acids play a role in tumor metastasis. The difference in serum fatty acid profiles between patients with invasive ductal carcinoma (IDC) and healthy controls was evaluated by gas chromatography-mass spectrometry (GC-MS) fatty acid profile analysis, and it was revealed that five types of fatty acids may be potential tumor markers in IDC. Immunohistochemistry and GC-MS analysis revealed that FASN expression affected the serum fatty acid profiles of patients with IDC. Following FASN knockdown, the migration of SK-Br-3 breast cancer cells was inhibited, and the contents of various fatty acids both inside and outside the cell decreased, while the contents of various fatty acids inside and outside the cell increased following FASN overexpression. The results of the present study revealed that the expression level of FASN affected the content of fatty acids in IDC tissues and breast cancer cell lines, and that FASN-mediated changes in specific fatty acids promoted tumor cell migration.

Fatty acid synthase, a novel poor prognostic factor for acute lymphoblastic leukemia which can be targeted by ginger extract

Altered metabolism of fatty acid synthesis is considered a hallmark characteristic of several malignancies, including acute lymphoblastic leukemia (ALL). To evaluate the impact of fatty acid synthase (FASN) on drug resistant ALL, bone marrow samples were collected from 65 pediatric ALLs, including 40 de novo and 25 relapsed patients. 22 non-cancer individuals were chosen as controls. Quantitative RT-PCR showed increased expression levels of FASN in drug resistant patients compared with the therapy responders. Single and combined treatment of malignant cells were analyzed using Annexin-V/PI double staining and MTT assays. Incubation of resistant primary cells with ginger showed simultaneous increased apoptosis rates and reduced FASN expression levels. Furthermore, docking studies demonstrated high affinity bindings between ginger derivatives and FASN thioesterase and ketosynthase domains, compared with their known inhibitors, fenofibrate and morin, respectively. Finally, combined treatment of in-house multidrug resistant T-ALL subline with ginger and dexamethasone induced drug sensitivity and down regulation of FASN expression, accordingly. To the best of our knowledge, this is the first study that introduces FASN upregulation as a poor prognostic factor for drug resistant childhood ALL. Moreover, it was revealed that FASN inhibition may be applied by ginger phytochemicals and overcome dexamethasone resistance, subsequently.

Bioactive ingredients obtained from Cortex Fraxini impair interactions between FAS and GPI

The high expression of fatty acid synthase (FAS) in tumor cells is consistent with their elevated requirement for fatty acids for cell membrane synthesis and energy supply to support their almost unlimited proliferation. The expression levels of FAS in tumor cells are related to their proliferation, invasion, and metastasis. This study investigated the possible bioactive ingredients (fraxin, esculetin, scopolin et al.) of Cortex Fraxini and their effects on the interaction between specific proteins. We used microscale thermophoresis (MST) to show that our target protein, FAS (screened by combining transcriptome and network pharmacology), bound to the active compounds in Cortex Fraxini. It was found that FAS bound strongly to Glucose-6-phosphate isomerase (GPI), and that scopolin could affect this interaction by proteomics and MST. The results of this study demonstrate that the active compounds in Cortex Fraxini could play an anti-tumor role by binding to FAS and inhibiting the interactions between FAS and GPI to affect glucose and lipid metabolism, and that the protein pathway is a potential novel target for tumor treatment.

Abstract 372: Obesity matters: Prostate cancers that overexpress fatty acid binding protein 5 are more common in men who are overweight or obese

Abstract BACKGROUND: One of the hallmarks of the malignant phenotype is an increase in the cell's demand for fatty acids (FA). Many cancers, including prostate cancer, show increased expression of fatty acid synthase (FASN), a multi-component enzyme that catalyzes the de novo synthesis of the fatty acid palmitate. However recent observations suggest that alternate mechanisms for FA acquisition are also important, including the utilization of exogenous palmitate when it's available. Recently, through a biopsy-based molecular analysis of high risk prostate cancer, we identified a tumor subtype with very high (>10 fold) "outlier" overexpression of fatty acid binding protein 5 (FABP5). FABP5 is involved in lipid transport and signaling, and it facilitates the utilization of palmitate and other FAs from outside of the cell. De novo palmitate synthesis by the FASN pathway is energetically expensive compared to utilization of exogenous fatty acids. STUDY DESIGN: We proposed that prostate cancers that can efficiently utilize exogenous palmitate are at a selective advantage when dietary FAs are abundant. In this study, to test that hypothesis, we compared FABP5 and FASN expression levels in prostate cancers obtained from diagnostic biopsies from normal weight, overweight and obese study subjects. A total of 201 consecutive eligible prostate biopsy patients were prospectively enrolled; 151 (75%) of these patients were cancer positive. Prostate cancer FABP5 and FASN mRNA expression were measured by qrtPCR and FABP5/FASN and FASN/FABP5 expression ratios were determined for each cancer positive core. BMI and self-identified race were obtained from hospital records. RESULTS: The expression of FABP5 and the FABP5/FASN expression ratio were significantly higher in overweight and obese individuals compared to normal weight individuals (mean FABP5/FASN overexpression ratio of 20.2 in overweight/obese subjects vs 4.0 in normal weight subjects; p < 0.05). The highest levels of prostate cancer FABP5 outlier overexpression (FABP5/FASN > 100) were observed in African American subjects with BMI > 30, and high levels of FABP5 outlier overexpression were more strongly associated with overall Gleason sum in African American than in European American subjects. CONCLUSIONS: In our study population, prostate cancer subtypes with high levels of FABP5 overexpression were more common in biopsy patients who were overweight or obese compared to normal weight patients. The highest levels of FABP5 overexpression in were observed in prostate cancers from obese African American subjects. Such FABP5 dominant prostate cancers may utilize exogenous fatty acids more efficiently and be more sensitive to dietary interventions than the more widely studied FASN dominant prostate cancers. Funding: DOD Prostate Cancer Research Program Awards W8XWH-10-1-0543 (Grizzle, PI) and W81XWH-10-1-0544 (Gaston, PI) Citation Format: Sandra M. Gaston, Soroush Rais-Bahrami, James Kearns, Dennis Otali, Denise Oelschlager, Mark S. DeGuenther, Jeffrey W. Nix, Peter N. Kolettis, James E. Bryant, Robert A. Oster, William E. Grizzle. Obesity matters: Prostate cancers that overexpress fatty acid binding protein 5 are more common in men who are overweight or obese [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2018; 2018 Apr 14-18; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2018;78(13 Suppl):Abstract nr 372.

Chrysanthemum indicum L. ethanol extract reduces high-fat diet-induced obesity in mice.

The present study was undertaken to investigate the mechanism behind the anti-obesity effect of the 50% ethanol extract of Chrysanthemum indicum L. flowers (CIEE) in a mouse model of high-fat diet (HFD)-induced obesity. Male C57BL/6J mice (six mice in each group) were administered CIEE (8, 40 and 200 mg/kg) for 6 weeks while being fed with a HFD. Garcinia cambogia (GC) was used as the positive control and was administered in the same manner as CIEE. Results demonstrated that oral administration of CIEE significantly reduced body weight, epididymal white adipose tissue (EWAT), liver weight and serum levels of total cholesterol and triglyceride (P<0.05). In addition, CIEE reduced serum leptin and increased adiponectin levels. CIEE significantly downregulated peroxisome proliferator-activated receptor γ (PPARγ), CCAAT/enhancer-binding protein-α and fatty acid synthase expression levels in EWAT, and upregulated the protein expression of PPARα in liver tissue of HFD-fed obese mice (P<0.05). These results suggested that Chrysanthemum indicum L. flowers may be a potentially effective therapeutic agent for obesity and its associated complications.

MP29-15 MAKE IT FROM SCRATCH OR HAVE IT DELIVERED? SATISFYING THE FATTY ACID DEMAND OF PROSTATE CANCER

You have accessJournal of UrologyProstate Cancer: Basic Research & Pathophysiology I1 Apr 2018MP29-15 MAKE IT FROM SCRATCH OR HAVE IT DELIVERED? SATISFYING THE FATTY ACID DEMAND OF PROSTATE CANCER Sandra Gaston, Soroush Rais-Bahrami, Jeffrey Nix, Peter Kolettis, James Bryant, James Kearns, Oelschlager Denise, Dennis Otali, and William Grizzle Sandra GastonSandra Gaston More articles by this author , Soroush Rais-BahramiSoroush Rais-Bahrami More articles by this author , Jeffrey NixJeffrey Nix More articles by this author , Peter KolettisPeter Kolettis More articles by this author , James BryantJames Bryant More articles by this author , James KearnsJames Kearns More articles by this author , Oelschlager DeniseOelschlager Denise More articles by this author , Dennis OtaliDennis Otali More articles by this author , and William GrizzleWilliam Grizzle More articles by this author View All Author Informationhttps://doi.org/10.1016/j.juro.2018.02.935AboutPDF ToolsAdd to favoritesDownload CitationsTrack CitationsPermissionsReprints ShareFacebookTwitterLinked InEmail INTRODUCTION AND OBJECTIVES One of the hallmarks of the malignant phenotype is an increase in the cell's demand for fatty acids (FA). Many cancers, including prostate cancer (PrCa), show increased expression of fatty acid synthase (FASN), a multi-component enzyme that catalyzes the de novo synthesis of the FA palmitate. However recent observations suggest that alternate mechanisms for FA acquisition are also important, including the utilization of exogenous palmitate when it's available. Recently, through a biopsy-based molecular analysis of high risk PrCa, we identified a tumor subtype with very high (>10 fold) "outlier" overexpression of fatty acid binding protein 5 (FABP5). FABP5 is involved in lipid transport and signaling, and it facilitates the utilization of palmitate and other FAs from outside of the cell. De novo palmitate synthesis by the FASN pathway is energetically expensive compared to utilization of exogenous FAs. We propose that PrCas that can efficiently utilizes exogenous palmitate are at a selective advantage when dietary FAs are abundant. In this study, to test that hypothesis, we compared FABP5 and FASN expression levels in PrCas obtained from diagnostic biopsies from normal weight, overweight and obese study subjects. METHODS A total of 201 consecutive eligible prostate biopsy patients were prospectively enrolled; 151 (75%) of these patients were cancer positive. PrCa FABP5 and FASN mRNA expression were measured by qrtPCR and FABP5/FASN and FASN/FABP5 expression ratios were determined for each cancer positive core. BMI and self-identified race were obtained from hospital records. RESULTS The expression of FABP5 and the FABP5/FASN expression ratio were significantly higher in overweight and obese individuals compared to normal weight individuals (mean FABP5/FASN overexpression ratio of 20.2 in overweight/obese subjects vs 4.0 in normal weight subjects; p < 0.05). The highest levels of PrCa FABP5 outlier overexpression (FABP5/FASN > 100) were observed in African American subjects with BMI > 30. CONCLUSIONS Our results are consistent with a growing body of evidence suggesting that the well-recognized "addiction" of PrCa for FA can be satisfied by more than one mechanism. In our study population, PrCa subtypes with high levels of FABP5 overexpression were more common in biopsy patients who were overweight or obese. Such FABP5 dominant PrCa subtypes may be more sensitive to dietary interventions than the more widely studied FASN dominant PrCas. © 2018FiguresReferencesRelatedDetails Volume 199Issue 4SApril 2018Page: e371 Advertisement Copyright & Permissions© 2018MetricsAuthor Information Sandra Gaston More articles by this author Soroush Rais-Bahrami More articles by this author Jeffrey Nix More articles by this author Peter Kolettis More articles by this author James Bryant More articles by this author James Kearns More articles by this author Oelschlager Denise More articles by this author Dennis Otali More articles by this author William Grizzle More articles by this author Expand All Advertisement Advertisement PDF downloadLoading ...

Inhibition of FASN expression enhances radiosensitivity in human non-small cell lung cancer.

Fatty acid synthase (FASN) is the key enzyme required for the de novo synthesis of long-chain fatty acids. FASN has been observed to be overexpressed in the majority of cancer tissues, and its expression is associated with a poor prognosis, potentially mediated by resistance to drug or radiation. The present study investigated whether the downregulation of FASN in non-small cell lung cancer (NSCLC) may increase radiosensitivity. A lentiviral vector containing short hairpin RNA targeted to FASN (pSIH-H1-Puro-shFASN) was successfully constructed and transfected into A549 cells to knockdown the gene by RNA interference. pSIH-H1-Puro-shFASN was used as the experimental group, while pSIH-H1-Puro-shGFP was used as a control group. The mRNA expression levels of FASN were determined using quantitative polymerase chain reaction. In addition, cell proliferation was measured using cell counting kit-8 assay, and colony formation assay was performed to determine the radiosensitizing effect of FASN knockdown. The cell cycle distribution and apoptotic rates were analyzed using flow cytometry, while western blot analysis was used to assess the expression of DNA-dependent protein kinase catalytic subunit protein, which is associated with DNA double-strand break (DSB) repair. The results of the present study revealed that NSCLC cells are more sensitive to radiation following the knockdown of FASN. Furthermore, the increased radiosensitivity may be associated with increased proliferation, promotion of apoptosis and cell cycle arrest in the G2/M phase. Furthermore, downregulated FASN expression reduced the levels of DNA DSB repair-associated proteins following treatment with radiation. These results indicate that silencing FASN may sensitize NSCLC cells to radiation treatment. Therefore, FASN may be a potential novel therapeutic target to improve the response of NSCLCs to radiation therapy.

Fatty acid synthase affects expression of ErbB receptors in epithelial to mesenchymal transition of breast cancer cells and invasive ductal carcinoma.

The aim of the present study was to investigate changes in the expression of ErbBs during epithelial-mesenchymal transition (EMT) of breast cancer cells and its association with the expression of fatty acid synthase (FASN). MCF-7-MEK5 cells were used as the experimental model, while MCF-7 cells were used as a control. Tumor cells were implanted into nude mice for in vivo analysis. Cerulenin was used as a FASN inhibitor. Reverse transcription-polymerase chain reaction and western blot analysis were used to detect expression levels of FASN and ErbB1-4. Immunohistochemistry was used to detect the expression of FASN and ErbB1-4 in 58 invasive ductal carcinomas (IDC), as well as their association with clinicopathological characteristics. The expression of FASN and ErbB1-4 in MCF-7-MEK5 cells and tumor tissues increased significantly compared with controls (P<0.001). Inhibition of FASN by cerulenin resulted in a significant decrease in expression of ErbB1, 2 and 4 (P<0.001), whereas there was no evident change in ErbB3. In IDC samples, the expression of FASN and ErbB1-4 increased considerably in lymph node metastases compared with non-lymph node metastases (P<0.05). ErbB2 expression increased in advanced clinical stages (II, III and IV) of IDC and in tumors with larger diameters (P<0.05). The expression of ErbB3 increased in ER-positive tumors (P<0.05). Additionally, a positive association between the expression of FASN and ErbB1, 2 and 4 was observed (P<0.05). FASN activates ErbB1, 2 and 4, and their dimers, which are polymerized via the microstructural domain of the cell membrane. This may initiate EMT and consequentlyincrease the invasion and migration of cancer cells. However, ErbB3 may also affect tumor progression via a FASN-independent pathway.

Epigallocatechin-3-gallate inhibits adipogenesis through down-regulation of PPARγ and FAS expression mediated by PI3K-AKT signaling in 3T3-L1 cells

Epigallocatechin-3-gallate (EGCG), a major component in green tea, functions as extensive bioactivities including anti-inflammation, anti-oxidation, and anti-cancer. However, little is known about its anti-adipogenesis and underlying mechanisms. The purport of this study sought to investigate effects of EGCG on 3T3-L1 preadipocyte differentiation and to explore its possible mechanisms. The 3T3-L1 cells were induced to differentiate under the condition of pro-adipogenic cocktail with or without indicated EGCG concentrations (10, 50, 100, 200µM) for 2, 4, 6 and 8 days, respectively. Also, another batch of 3T3-L1 cells was induced under the optimal EGCG concentration (100µM) with or without SC3036 (PI3K activator, 10µM) or SC79 (AKT activator, 0.5µM) for 8 days. Subsequently, the cell viability was examined by MTT assay and the cell morphology was visualized by Oil red O staining. Finally, the mRNA levels including peroxisome proliferator activated receptor γ (PPARγ) and fatty acid synthase (FAS) were detected by quantitative real time PCR, while the protein levels of PPARγ, FAS, phosphatidylinositol 3 kinase (PI3K), insulin receptor substrate1(IRS1), AKT, and p-AKT were measured by immunoblotting analysis. Our results showed that EGCG inhibited adipogenesis of 3T3-L1 preadipocyte in a concentration-dependent manner. Moreover, the inhibitory effects were reversed by SC3036 or SC79, suggesting that the inhibitory effects of EGCG are mediated by PI3K-AKT signaling to down-regulate PPARγ and FAS expression levels. The findings shed light on EGCG anti-adipogenic effects and its underlying mechanism and provide a novel preventive-therapeutic potential for obesity subjects as a compound from Chinese green tea.