Expression of acyl-CoA hydrolase in the developing mouse brain

Neuroscience Letters

Volumn 355, Issue 1-2, 2004, Pages 89-92

  Yamada, Junji ^a   Kuramochi, Yu ^a   Takagi, Mitsuhiro ^a   Suga, Tetsuya ^a  

^a TOKYO UNIVERSITY OF PHARMACY AND LIFE SCIENCES   (Japan)

Author keywords

Acyl CoA thioesterase; Brain acyl CoA hydrolase; Differentiation; Lipid metabolism; Long chain fatty acid; Neuron

Indexed keywords

FATTY ACID; INTERMEDIATE FILAMENT PROTEIN; ISOENZYME; LIPID; MICROTUBULE ASSOCIATED PROTEIN; MICROTUBULE ASSOCIATED PROTEIN 2; NESTIN; NESTIN PROTEIN; PALMITOYL COENZYME A; PALMITOYL COENZYME A HYDROLASE; UNCLASSIFIED DRUG;

ANIMAL; ANIMAL CELL; ANIMAL TISSUE; ARTICLE; BIRTH; BRAIN; BRAIN DEVELOPMENT; CELL DIFFERENTIATION; CELL LINEAGE; CONTROLLED STUDY; CYTOSOL; DEVELOPMENTAL STAGE; EMBRYO; EMBRYO DEVELOPMENT; EMBRYOLOGY; ENZYME ACTIVITY; ENZYMOLOGY; FETUS; GROWTH, DEVELOPMENT AND AGING; HYDROLYSIS; IMMUNOBLOTTING; IMMUNOHISTOCHEMISTRY; METABOLISM; MOUSE; MOUSE STRAIN; NERVE CELL; NERVE CELL DIFFERENTIATION; NONHUMAN; PERINATAL PERIOD; PHYSIOLOGY; PRIORITY JOURNAL; PROTEIN ANALYSIS; PROTEIN EXPRESSION; PROTEIN FUNCTION; STEADY STATE; STEM CELL; TIME;

EID: 0346654131     PISSN: 03043940     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.neulet.2003.10.049     Document Type: Article

References (20)

1. Boylan J.G., Hamilton J.A. Interactions of acyl-coenzyme A with phosphatidylcholine bilayers and serum albumin. Biochemistry. 31:1992;557-567.
2. Broustas C.G., Hajra A.K. Purification, properties, and specificity of rat brain cytosolic fatty acyl coenzyme A hydrolase. J. Neurochem. 64:1995;2345-2353.
3. Edmond J., Robbins R.A., Bergstrom J.D., Cole R.A., de Vellis J. Capacity for substrate utilization in oxidative metabolism by neurons, astrocytes, and oligodendrocytes from developing brain in primary culture. J. Neurosci. Res. 18:1987;551-561.
4. Faergeman N.J., Knudsen J. Role of long-chain fatty acyl-CoA esters in the regulation of metabolism and in cell signaling. Biochem. J. 323:1997;1-12.
5. Goedert M., Crowther R.A., Garner C.C. Molecular characterization of microtubule-associated proteins tau and MAP2. Trends Neurosci. 14:1991;193-199.
6. Hunt M.C., Alexson S.E. The role acyl-CoA thioesterases play in mediating intracellular lipid metabolism. Prog. Lipid Res. 41:2002;99-130.
7. Kuramochi Y., Takagi M., Kitahara M., Emori R., Asaba Y., Sakaguchi R., Watanabe T., Kuroda J., Hiratsuka K., Nagae Y., Suga T., Yamada J. Characterization of mouse homolog of brain acyl-CoA hydrolase: molecular cloning and neuronal localization. Brain Res. Mol. Brain Res. 98:2002;81-92.
8. Lendahl U., Zimmerman L.B., McKay R.D. CNS stem cells express a new class of intermediate filament protein. Cell. 60:1990;585-595.
9. Meloni I., Muscettola M., Raynaud M., Longo I., Bruttini M., Moizard M.P., Gomot M., Chelly J., des Portes V., Fryns J.P., Ropers H.H., Magi B., Bellan C., Volpi N., Yntema H.G., Lewis S.E., Schaffer J.E., Renieri A. FACL4, encoding fatty acid-CoA ligase 4, is mutated in non-specific X-linked mental retardation. Nat. Genet. 30:2002;436-440.
10. Moser H.W., Smith K.D., Watkins P.A., Powers J.M., Moser A.B. X-linked adrenoleukodystrophy. Scriver C.R., Sly W.S., Childs B., Beaudet A.L., Valle D., Kinzler K.W., Vogelstein B. The Metabolic and Molecular Bases of Inherited Disease, 8th Edition. III:2000;3257-3301 McGraw Hill, New York.
11. Mumby S.M. Reversible palmitoylation of signaling proteins. Curr. Opin. Cell Biol. 9:1997;148-154.
12. Schmidt A., Wolde M., Thiele C., Fest W., Kratzin H., Podtelejnikov A.V., Witke W., Huttner W.B., Soling H.D. Endophilin I mediates synaptic vesicle formation by transfer of arachidonate to lysophosphatidic acid. Nature. 401:1999;133-141.
13. Thompson A.L., Cooney G.J. Acyl-CoA inhibition of hexokinase in rat and human skeletal muscle is a potential mechanism of lipid-induced insulin resistance. Diabetes. 49:2000;1761-1765.
14. Watkins P.A. Fatty acid activation. Prog. Lipid Res. 36:1997;55-83.
15. Yamada J., Furihata T., Iida N., Watanabe T., Hosokawa M., Satoh T., Someya A., Nagaoka I., Suga T. Molecular cloning and expression of cDNAs encoding rat brain and liver cytosolic long-chain acyl-CoA hydrolases. Biochem. Biophys. Res. Commun. 232:1997;198-203.
16. Yamada T., Kawaguchi N., Hosokawa M., Satoh T. Localization of an isoform of carboxylesterase in rat brain differs from that in human brain. Brain Res. 674:1995;175-179.
17. Yamada J., Kuramochi Y., Takagi M., Watanabe T., Suga T. Human brain acyl-CoA hydrolase isoforms encoded by a single gene. Biochem. Biophys. Res. Commun. 299:2002;49-56.
18. Yamada J., Kurata A., Hirata M., Taniguchi T., Takama H., Furihata T., Shiratori K., Iida N., Takagi M., Watanabe T., Kurosaki K., Endo T., Suga T. Purification, molecular cloning, and genomic organization of human brain long-chain acyl-CoA hydrolase. J. Biochem. 126:1999;1013-1019.
19. Yanase H., Shimizu H., Yamada K., Iwanaga T. Cellular localization of the diazepam binding inhibitor in glial cells with special reference to its coexistence with brain-type fatty acid binding protein. Arch. Histol. Cytol. 65:2002;27-36.
20. Zhang Q., Yoshida S., Sakai K., Liu J., Fukunaga K. Changes of free fatty acids and acyl-CoAs in rat brain hippocampal slice with tetraethylammonium-induced long-term potentiation. Biochem. Biophys. Res. Commun. 267:2000;208-212.