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Phosphatidylethanol stimulates calcium-dependent cytosolic phospholipase A2 activity of a macrophage cell line (RAW 264.7) (2000)

Chang, Chia-Yu ; Farrell, Kathryn R. ; Baker, Rodney C.

Springer

Journal of biomedical science 7 (2000), S. 311-316

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ISSN: 1423-0127

Keywords: Phosphatidylethanol ; Phosphatidic acid ; Ethanol ; Phospholipase A2, cytosolic ; Phospholipase D ; RAW 264.7 cells

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Abstract The synthesis of inflammation mediators produced from arachidonic acid is regulated primarily by the cellular concentration of free arachidonic acid. Since intracellular arachidonic acid is almost totally present as phospholipid esters, the concentration of intracellular arachidonic acid is primarily dependent on the balance between the release of arachidonic acid from membrane phospholipids and are uptake of arachidonic acid into membrane phospholipids. Cytosolic phospholipase A2 is a calcium-dependent enzyme that catalyzes the stimulus-coupled hydrolysis of arachidonic acid from membrane phospholipids. Following exposure of macrophages to various foreign or endogenous stimulants, cytosolic phospholipase A2 is activated. Treatment with these compounds may also stimulate phospholipase D activity, and, in the presence of ethanol, phospholipase D catalyzes the synthesis of phosphatidylethanol. A cell-free system was used to evaluate the effect of phosphatidylethanol on cytosolic phospholipase A2 activity. Phosphatidylethanol (0.5 µM) added to 1-stearoyl-2-[3H]-arachidonoyl-sn-glycero-3-phosphocholine vesicles stimulated cytosolic phospholipase A2 activity. However, high concentrations (20–100 µM) of phosphatidylethanol inhibited cytosolic phospholipase A2 activity. Phosphatidic acid, the normal phospholipase D product, also stimulated cytosolic phospholipase A2 activity at 0.5 µM, but had an inhibitory effect on cytosolic phospholipase A2 activity at concentrations of 50 and 100 µM. Ethanol (20–200 mM), the precursor of phosphatidylethanol, added directly to the assay did not alter cytosolic phospholipase A2 activity. These results suggest that phosphatidylethanol alters the physical properties of the substrate, and at lower concentrations of anionic phospholipids the substrate is more susceptible to hydrolysis. However, at high concentrations, phosphatidylethanol either reverses the alterations in physical properties of the substrate or phosphatidylethanol may be competing as the substrate. Both interactions may result in lower cytosolic phospholipase A2 activity.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02253250

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Three-dimensional model of human TIP30, a coactivator for HIV-1 Tat-activated transcription, and CC3, a protein associated with metastasis suppression (2000)

Baker*, M. E. ; Yan, L. ; Pear, M. R.

Springer

Cellular and molecular life sciences 57 (2000), S. 851-858

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ISSN: 1420-9071

Keywords: Key words. HIV-1; Tat; metastasis; TIP30; CC3.

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Abstract. Human TIP30 is a cofactor that specifically enhances human immunodeficiency virus-1 (HIV-1) Tat-activated transcription. The sequence of TIP30 is identical to that of CC3, a protein associated with metastasis suppression. TIP30/CC3 is a member of the short-chain dehydrogenases/reductases (SDR) family. Of the several experimentally determined SDR structures, Escherichia coli uridine diphosphate (UDP) galactose-4 epimerase is most similar to TIP30/CC3. Because the direct sequence similarity between TIP30/CC3 and E. coli UDP galactose-4 epimerase is low, we used the transitive nature of homology and employed two Aquifex aeolicus proteins as intermediaries in the homology modeling process. Comparison of our structural model with that of known SDRs reveals that TIP30/CC3 contains several well-conserved features, including a βαβ fold at the amino terminus, which we predict binds NADP(H). TIP30/CC3 contains characteristic motifs at the catalytic site of SDRs, including a serine, tyrosine, and lysine that are important in catalyzing hydride transfer between substrate and cofactor. We also predict that a unique 20-amino acid sequence found at the amino terminus is an α-helix. Because this region contains several positively and negatively charged amino acids, it may dock TIP30/CC3 to other proteins. Our structural model points to this α-helix and the SDR-like part of TIP30/CC3 for mutagenesis experiments to elucidate its role in HIV-1 Tat-activated transcription, metastasis suppression, and other cellular functions.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s000180050047

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