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5. AKT as a key target for growth promoting functions of neutral ceramidase in colon cancer cells

Author

Mónica García-Barros, Yusuf A. Hannun, Qifeng Zhang, Lina M. Obeid, and Nicolas Coant

Subjects
0301 basic medicine, Male, Cancer Research, Ceramide, proliferation, Mice, Nude, Apoptosis, Biology, Article, 03 medical and health sciences, chemistry.chemical_compound, Mice, Sphingosine, Cell Line, Tumor, Neutral Ceramidase, Genetics, Animals, Humans, Molecular Biology, Protein kinase B, beta Catenin, Cell Proliferation, Sphingolipids, Glycogen Synthase Kinase 3 beta, Cell growth, Kinase, AKT, Wnt signaling pathway, β-catenin, HCT116 Cells, Sphingolipid, Colorectal cancer, 3. Good health, Phosphotransferases (Alcohol Group Acceptor), 030104 developmental biology, chemistry, Colonic Neoplasms, Cancer research, Phosphorylation, Lysophospholipids, HT29 Cells, Proto-Oncogene Proteins c-akt
Abstract

Despite advances in the field, colorectal cancer (CRC) remains a leading cause of cancer-related mortality worldwide. Research into bioactive sphingolipids over the past two decades has played an important role in increasing our understanding of the pathogenesis and therapeutics of CRC. In the complex metabolic network of sphingolipids, ceramidases (CDases) have a key function. These enzymes hydrolyze ceramides into sphingosine (SPH) which in turn is phosphorylated by sphingosine kinases (SK) 1 and 2 to generate sphingosine-1 phosphate (S1P). Importantly, we have recently shown that inhibition of neutral CDase (nCDase) induces an increase of ceramide in colon cancer cells which decreases cellular growth, increases apoptosis and modulates the WNT/β-catenin pathway. We have also shown that the deletion of nCDase protected mice from the onset and progression of colorectal cancer in the AOM carcinogen model. Here, we demonstrate that AKT is a key target for the growth suppressing functions of ceramide. The results show that inhibition of nCDase activates GSK3β through dephosphorylation, and thus is required for the subsequent phosphorylation and degradation of β-catenin. Our findings show that inhibition of nCDase also inhibits the basal activation status of AKT, and we further establish that a constitutively active AKT (AKT T308D, S473D; AKTDD) reverses the effect of nCDase on β-catenin degradation. Functionally, the AKTDD mutant is able to overcome the growth suppressive effects of nCDase inhibition in CRC cells. Moreover, nCDase inhibition induces a growth delay of xenograft tumors from control cells, whereas xenograft tumors from constitutively active AKT cells become resistant to nCDase inhibition. Taken together, these results provide important mechanistic insight into how nCDase regulates cell proliferation. These findings demonstrate a heretofore unappreciated, but critical, role for nCDase in enabling/maintaining basal activation of AKT and also suggest that nCDase is a suitable novel target for colon cancer therapy.

Published
2018

6. Alkaline ceramidase 2 is essential for the homeostasis of plasma sphingoid bases and their phosphates

Author

Chih-Li Lin, Cungui Mao, Ruijuan Xu, Mónica García-Barros, Ashley Snider, Catherine K. Luo, Yusuf A. Hannun, Izolda Mileva, Lina M. Obeid, Michael V. Wiles, Benjamin E. Low, Ming-Song Li, Jennifer Schrandt, Fang Li, and Xian-Cheng Jiang

Subjects
0301 basic medicine, Ceramidases, Alkaline Ceramidase, Biochemistry, Mice, 03 medical and health sciences, chemistry.chemical_compound, Alkaline ceramidase 1, Sphingosine, Genetics, Animals, Humans, Sphingosine-1-phosphate, Molecular Biology, Mice, Knockout, Hemostasis, Sphingolipids, Research, Hematopoietic Stem Cells, Sphingolipid, Cell biology, Acid Ceramidase, 030104 developmental biology, chemistry, Lysophospholipids, Homeostasis, Biotechnology
Abstract

Sphingosine-1-phosphate (S1P) plays important roles in cardiovascular development and immunity. S1P is abundant in plasma because erythrocytes-the major source of S1P-lack any S1P-degrading activity; however, much remains unclear about the source of the plasma S1P precursor, sphingosine (SPH), derived mainly from the hydrolysis of ceramides by the action of ceramidases that are encoded by 5 distinct genes, acid ceramidase 1 ( ASAH1)/ Asah1, ASAH2/ Asah2, alkaline ceramidase 1 ( ACER1)/ Acer1, ACER2/ Acer2, and ACER3/ Acer3, in humans/mice. Previous studies have reported that knocking out Asah1 or Asah2 failed to reduce plasma SPH and S1P levels in mice. In this study, we show that knocking out Acer1 or Acer3 also failed to reduce the blood levels of SPH or S1P in mice. In contrast, knocking out Acer2 from either whole-body or the hematopoietic lineage markedly decreased the blood levels of SPH and S1P in mice. Of interest, knocking out Acer2 from whole-body or the hematopoietic lineage also markedly decreased the levels of dihydrosphingosine (dhSPH) and dihydrosphingosine-1-phosphate (dhS1P) in blood. Taken together, these results suggest that ACER2 plays a key role in the maintenance of high plasma levels of sphingoid base-1-phosphates-S1P and dhS1P-by controlling the generation of sphingoid bases-SPH and dhSPH-in hematopoietic cells.-Li, F., Xu, R., Low, B. E., Lin, C.-L., Garcia-Barros, M., Schrandt, J., Mileva, I., Snider, A., Luo, C. K., Jiang, X.-C., Li, M.-S., Hannun, Y. A., Obeid, L. M., Wiles, M. V., Mao, C. Alkaline ceramidase 2 is essential for the homeostasis of plasma sphingoid bases and their phosphates.

Published
2018
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7. Evolving concepts in cancer therapy through targeting sphingolipid metabolism

Author

Mónica García-Barros, Jean-Philip Truman, Yusuf A. Hannun, and Lina M. Obeid

Subjects
Sphingolipids, Ceramide, Programmed cell death, Sphingosine, Sphingosine kinase, Cancer, Antineoplastic Agents, Apoptosis, Cell Biology, Pharmacology, Biology, medicine.disease, Sphingolipid, Article, chemistry.chemical_compound, chemistry, Drug Resistance, Neoplasm, Neoplasms, Cancer cell, MCF-7 Cells, medicine, Cancer research, Humans, Sphingosine-1-phosphate, Molecular Biology
Abstract

Traditional methods of cancer treatment are limited in their efficacy due to both inherent and acquired factors. Many different studies have shown that the generation of ceramide in response to cytotoxic therapy is generally an important step leading to cell death. Cancer cells employ different methods to both limit ceramide generation and to remove ceramide in order to become resistant to treatment. Furthermore, sphingosine kinase activity, which phosphorylates sphingosine the product of ceramide hydrolysis, has been linked to multidrug resistance, and can act as a strong survival factor. This review will examine several of the most frequently used cancer therapies and their effect on both ceramide generation and the mechanisms employed to remove it. The development and use of inhibitors of sphingosine kinase will be focused upon as an example of how targeting sphingolipid metabolism may provide an effective means to improve treatment response rates and reduce associated treatment toxicity. This article is part of a Special Issue entitled Tools to study lipid functions.

Published
2014
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8. Sphingolipids in colon cancer

Author

Nicolas Coant, Mónica García-Barros, Ashley J. Snider, Yusuf A. Hannun, and Jean-Philip Truman

Subjects
Sphingolipids, Ceramide, Sphingosine, Colorectal cancer, Wnt signaling pathway, Cell Biology, Biology, medicine.disease, Sphingolipid, Article, Cell Physiological Phenomena, Cell biology, chemistry.chemical_compound, chemistry, Colonic Neoplasms, medicine, Animals, Homeostasis, Humans, lipids (amino acids, peptides, and proteins), Sphingosine-1-phosphate, Signal transduction, Molecular Biology, Signal Transduction
Abstract

Colorectal cancer is one of the major causes of death in the western world. Despite increasing knowledge of the molecular signaling pathways implicated in colon cancer, therapeutic outcomes are still only moderately successful. Sphingolipids, a family of N-acyl linked lipids, have not only structural functions but are also implicated in important biological functions. Ceramide, sphingosine and sphingosine-1-phosphate are the most important bioactive lipids, and they regulate several key cellular functions. Accumulating evidence suggests that many cancers present alterations in sphingolipids and their metabolizing enzymes. The aim of this review is to discuss the emerging roles of sphingolipids, both endogenous and dietary, in colon cancer and the interaction of sphingolipids with WNT/β-catenin pathway, one of the most important signaling cascades that regulate development and homeostasis in intestine. This article is part of a Special Issue entitled New Frontiers in Sphingolipid Biology.

Published
2014
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9. ML264, A Novel Small-Molecule Compound That Potently Inhibits Growth of Colorectal Cancer

Author

Julie Kim, Mónica García-Barros, Kenneth R. Shroyer, Agnieszka B. Bialkowska, Vincent W. Yang, Chao Wang, Yuanjun He, Thomas D. Bannister, and Ainara Ruiz de Sabando

Subjects
0301 basic medicine, MAPK/ERK pathway, Cancer Research, Colorectal cancer, MAP Kinase Signaling System, EGR1, Antineoplastic Agents, Apoptosis, Mouse model of colorectal and intestinal cancer, Biology, Bioinformatics, Article, Causes of cancer, 03 medical and health sciences, Mice, Phosphatidylinositol 3-Kinases, Mediator, Cell Line, Tumor, Cyclins, medicine, Animals, Humans, Transcription factor, Wnt Signaling Pathway, Cell Proliferation, Acrylamides, Cell Cycle, Wnt signaling pathway, medicine.disease, Xenograft Model Antitumor Assays, Cyclic S-Oxides, 030104 developmental biology, Oncology, Cancer research, ras Proteins, Colorectal Neoplasms, Biomarkers, Signal Transduction
Abstract

Colorectal cancer is one of the leading causes of cancer mortality in Western civilization. Studies have shown that colorectal cancer arises as a consequence of the modification of genes that regulate important cellular functions. Deregulation of the WNT and RAS/MAPK/PI3K signaling pathways has been shown to be important in the early stages of colorectal cancer development and progression. Krüppel-like factor 5 (KLF5) is a transcription factor that is highly expressed in the proliferating intestinal crypt epithelial cells. Previously, we showed that KLF5 is a mediator of RAS/MAPK and WNT signaling pathways under homeostatic conditions and that it promotes their tumorigenic functions during the development and progression of intestinal adenomas. Recently, using an ultrahigh-throughput screening approach we identified a number of novel small molecules that have the potential to provide therapeutic benefits for colorectal cancer by targeting KLF5 expression. In the current study, we show that an improved analogue of one of these screening hits, ML264, potently inhibits proliferation of colorectal cancer cells in vitro through modifications of the cell-cycle profile. Moreover, in an established xenograft mouse model of colon cancer, we demonstrate that ML264 efficiently inhibits growth of the tumor within 5 days of treatment. We show that this effect is caused by a significant reduction in proliferation and that ML264 potently inhibits the expression of KLF5 and EGR1, a transcriptional activator of KLF5. These findings demonstrate that ML264, or an analogue, may hold a promise as a novel therapeutic agent to curb the development and progression of colorectal cancer. Mol Cancer Ther; 15(1); 72–83. ©2015 AACR.

Published
2015

10. Sphingolipids in Intestinal Inflammation and Tumorigenesis

Author

Ashley J. Snider, Nicolas Coant, and Mónica García-Barros

Subjects
Ceramide, Sphingosine, Sphingosine kinase, medicine.disease_cause, Sphingolipid, Cell biology, carbohydrates (lipids), chemistry.chemical_compound, chemistry, medicine, lipids (amino acids, peptides, and proteins), Sphingosine-1-phosphate, Sphingomyelin, Carcinogenesis, Function (biology)
Abstract

Sphingolipids, and their metabolizing enzymes, have emerged as significant players in cell signaling and biology. These bioactive lipids function not only as structural lipids in cell, but mediate significant biologic functions as well. Sphingolipid enzymes function in the intestinal lumen to degrade exogenous dietary sphingolipids and in the enterocytes themselves to generate endogenous sphingolipids. Among the most studied bioactive sphingolipids are ceramide, sphingosine, and sphingosine-1-phosphate. These sphingolipids and their synthetic enzymes have been extensively implicated in intestinal inflammation and tumorigenesis and will be the focus of this chapter.

Published
2015
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11. Regulation of hypothalamic somatostatin by glucocorticoids

Author

Mónica García Barros, Jesús A.F. Tresguerres, Víctor M. Arce, Jesús Devesa, and Miguel Gondar

Subjects
endocrine system, medicine.medical_specialty, Hypothalamo-Hypophyseal System, Endocrinology, Diabetes and Metabolism, Clinical Biochemistry, Hypothalamus, Neuropeptide, Alpha (ethology), Propranolol, Biology, Growth Hormone-Releasing Hormone, Biochemistry, Clonidine, Dexamethasone, Endocrinology, Internal medicine, medicine, Humans, Secretion, Molecular Biology, Glucocorticoids, Cell Biology, Growth hormone secretion, Somatostatin, Pyridostigmine, Growth Hormone, Molecular Medicine, hormones, hormone substitutes, and hormone antagonists, Glucocorticoid, medicine.drug, Pyridostigmine Bromide
Abstract

Glucocorticoids (GCs) play a key role in the physiology of the hypothalamic-somatotroph axis, since these steroids enhance growth hormone (GH) gene transcription and increase GHRH receptor synthesis. However, GC excess inhibits normal growth in all species studied. This is mainly due to the impaired GH secretion observed during hypercortisolism, a situation in which GH responses to a number of stimuli, including GHRH, are blunted. The inhibitory effect of GCs on GH secretion seems to be dependent on enhanced hypothalamic SS secretion. Since SS release is stimulated by beta-adrenergic agonism we tested the possibility that GC inhibition of GH secretion would depend on increased beta-adrenoceptor activity in SS-producing neurons. The experimental design consisted in evaluating the GH response to GHRH in normal subjects after having induced hypercortisolism, with DEX, and blocking beta-adrenoceptors with propranolol (PRO). Moreover, to investigate the specificity of this mechanism, GHRH-induced GH release was tested after inducing hypercortisolism and enhancing alpha 2-adrenergic or muscarinic cholinergic tone, by giving clonidine (CLO) or pyridostigmine (PD), respectively. As expected, nocturnal DEX administration inhibited the GH response to GHRH. In this situation of hypercortisolism, both PRO and CLO, but not PD, were able to reverse the inhibitory effect of DEX on GHRH-elicited release. However, the potentiating effect of these drugs on the GHRH-induced GH secretion was only observed for PRO. These data confirm that GC excess inhibits GH release by increasing hypothalamic SS secretion, and that the mechanism is mediated by GC-induced enhanced beta-adrenergic responsiveness. Therefore, the defective GHRH secretion observed in chronic hypercortisolism must be a consequence of the continuous blockade that SS excess exerts on GHRH-producing neurons. Our postulate agrees with other data in the literature showing that GCs modulate the secretion of some hypothalamic peptides by changing the responsiveness of the producing neurons from alpha 2-adrenoceptors to that of beta-adrenoceptors.

Published
1995

12. Clonidine potentiates the growth hormone response to a growth hormone releasing hormone challenge in hypothalamic growth hormone releasing hormone deficient rats

Author

Luís Lima, Víctor M. Arce, Jesús A.F. Tresguerres, Mónica García Barros, Jesús Devesa, and Elena Vara

Subjects
Male, medicine.medical_specialty, Endocrinology, Diabetes and Metabolism, Hypothalamus, Growth Hormone-Releasing Hormone, Gonadotropic cell, Inhibitory postsynaptic potential, Growth hormone, Clonidine, Rats, Sprague-Dawley, Cellular and Molecular Neuroscience, Endocrinology, Thyrotropin-releasing hormone receptor, Internal medicine, Sodium Glutamate, medicine, Animals, Endocrine and Autonomic Systems, Chemistry, Organ Size, Growth hormone–releasing hormone, Rats, Somatostatin, Hormone receptor, Growth Hormone, Pituitary Gland, medicine.drug
Abstract

This study was designed to further investigate our postulate regarding the inhibitory role played by central alpha 2-adrenergic pathways on hypothalamic somatostatin (SS) release in rats. The growth hormone (GH) responses to exogenous GH-releasing factor (GRF; 3 micrograms/kg i.v.) or clonidine (CLO; 100 micrograms/kg i.v.), either given alone or in combination, were tested in 3-month-old male rats made GH-releasing hormone (GH-RH) deficient neonatally by administration of monosodium glutamate (MSG; 4 mg/g body weight s.c.). To prevent the presumable decrease in the pituitary GH content in these animals from leading to an erroneous interpretation of the results obtained, half of these rats were given GRF (MSG-GRF rats; 30 micrograms/kg s.c.) for 3 days immediately prior to GH testing. The other half of MSG-treated and non MSG-treated rats received saline during these days (MSG-S and controls, respectively). To establish the efficiency of GRF priming, the pituitary GH content was measured in other MSG-GRF, MSG-S, and control animals. The mean (+/- SEM) GH peaks in response to GRF challenge were significantly higher in controls than in MSG-GRF rats (125.2 +/- 28.5 vs. 67.5 +/- 19.4 micrograms/l; p0.05), while no significant GRF-induced GH release was observed in the MSG-S group. Most likely these results are related to the different pituitary GH content, significantly (p0.01) higher in controls than in MSG-GRF rats, and in the latter higher than in MSG-S animals (p0.05). CLO administration did not evoke a significant GH release in MSG rats, whether primed with GRF or not.(ABSTRACT TRUNCATED AT 250 WORDS)

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