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Phosphatidylserine synthesis in rat cerebral cortex: effects of hypoxia, hypocapnia and development (1993)

Mozzi, R. ; Andreoli, V. ; Horrocks, L. A.

Springer

Molecular and cellular biochemistry 126 (1993), S. 101-107

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ISSN: 1573-4919

Keywords: phosphatidylserine ; hypoxia ; hypocapnia ; development ; base exchange

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology , Medicine

Notes: Abstract Phosphatidylserine, which is necessary for protein kinase C activity, is synthesized in mammalian tissues by the Ca2+-dependent base exchange enzyme. The synthesis of phosphatidylserine is greater in slices or homogenates of rat cerebral cortex subjected to hypoxia by N2 treatment when compared with O2 plus 5% CO2. An intermediate effect was observed when the treatment was done with N2 plus 5% CO2. Incorporation rates were dependent on Ca2+ in Krebs-Henseleit Ringer bicarbonate medium, being greater with 2 mM Ca2+ than with the same medium prepared without Ca2+. The increase of phosphatidylserine synthesis, due to hypoxia, was, on the contrary, more evident in the medium lacking added Ca2+. Similar results were obtained with the homogenates. This suggests that elevation of intracellular Ca2+, caused by hypocapnia and hypoxia, may be responsible for the greater incorporation of serine into phosphatidylserine. In both cerebrocortical slices and homogenate, [14C]serine incorporation decreased with development both in O2 plus 5% CO2 and N2-treated preparations. However, in younger rats (14–18 days) hypoxia induced a lesser increase of phosphatidylserine than in 40 day old animals. We suggest that a regulatory mechanisms for phosphatidylserine synthesis is established during development and that N2-treatment can increase phosphatidylserine synthesis by interfering with this regulatory mechanism.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00925687

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Different mechanisms regulate phosphatidylserine synthesis in rat cerebral cortex (1997)

Mozzi, R. ; Andreoli, V. ; Buratta, S. ; [et al.]

Springer

Molecular and cellular biochemistry 168 (1997), S. 41-49

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ISSN: 1573-4919

Keywords: phosphatidylserine ; rat cerebral cortex ; G-protein ; base exchange ; hypoxia

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology , Medicine

Notes: Abstract Transduction of extracellular signals through the membrane involves both the lipid and protein moiety. Phosphatidylserine participates to these processes as a cofactor for protein kinase C activity and thus the existence of a regulatory mechanism for its synthesis ought to be expected. In plasma membranes from rat cerebral cortex, the activity of serine base exchange enzyme, that is mainly responsible for phosphatidylserine synthesis in mammalian tissues, was reduced by the addition to the incubation mixture of AlF4- or GTP-g-S, known activators of G proteins, whereas ATP was almost uneffective. GTP-g-S inhibited the enzyme activity only at relatively high concentration (〉 0.5 mM). When the synthesis of phosphatidylserine in the same cerebral area was investigated by measuring the incorporation of labelled serine into the phospholipid in the homogenate buffered at pH 7.6, ATP had an inhibitory effect as GTP-g-S and AlF4-. Heparin activated both serine base exchange enzyme in plasma membranes and phosphatidylserine synthesis. The preincubation of plasma membranes in the buffer without any other addition at 37øC for 15 min reduced by 30% serine base exchange enzyme activity. The remaining activity responded to the addition of GTP-g-S but was insensitive to 5 mM AlF4-, a concentration that inhibited by 60% the enzyme assayed without preincubation. These results indicate the existence of different regulatory mechanisms, involving ATP and G proteins, possibly acting on different enzymes responsible for the synthesis of phosphatidylserine. Since previous studies have shown that hypoxia increases the synthesis of this phospholipid in brain slices or homogenate (Mozzi et al. Mol Cell Biochem 126: 101-107, 1993), it is possible that hypoxia may interfere with at least one of these mechanisms. This hypothesis is supported by the observation that in hypoxic homogenate 20 mM AlF4- was not able to reduce the synthesis of phosphatidylserine as in normoxic samples. A similar difference between oxygenated and hypoxic samples, concerning their response to AlF4-, was observed when the incorporation of ethanolamine into phosphatidylethanolamine was studied. The incorporation of choline into phosphatidilcholine was, on the contrary, inhibited at a similar extent in both experimental conditions.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1006826224004

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