As part of a series of experiments to ascertain the effects of prenatal malnutrition on brain development, we measured brain amino acids in an animal model of intrauterine growth retardation (IUGR) ...obtained by restriction of blood supply to the fetus in utero during the last 5 days of gestation. In the present study, amino acids were measured during development by HPLC as their O-phthaldialdehyde derivatives in cerebral cortex, cerebellum and hippocampus. In rats with IUGR, significant increase of alanine (by 20% to 50%) and taurine (by 20% to 80%) were observed prior to weaning in the cerebellum and the cerebral cortex respectively. Alanine levels were also increased in hippocampus. In control animals, at birth, activities of the GABA nerve terminal marker enzyme glutamic acid decarboxylase (GAD) were found to be 32%, 17%, and 11% of adult values in cerebellum, hippocampus and cerebral cortex respectively. Two-day-old rats with IUGR had significantly lower GAD activities in all brain regions. Thus, impairment of nutrient supply to fetal brain results in selective regional abnormalities of amino acids particularly in the cerebral cortex.
The magnetic susceptibility, conductivity, magnetoresistance (MR) and Hall effect of copper-doped carbon aerogels are measured and compared with corresponding results from the original carbon ...aerogels. The experimental results indicate that the temperature-dependent magnetic susceptibility of the copper-doped and of the original carbon aerogels is well fit by a Curie function at low temperatures. The copper-doped carbon aerogels show a higher susceptibility and spin concentration than the original carbon aerogel. After doping by copper, the materials exhibit a more linear current–voltage curve than the original carbon aerogel under the same measurement conditions. The electrical resistance of the copper-doped carbon aerogels is strikingly lower than that of the original carbon aerogels, and decreases with increasing copper content in the samples. The temperature-dependent resistivity
ρ(
T) of all of the copper-doped and original carbon aerogels can be fitted by an exp(
T
−1/2) dependence for
T<100 K. The copper-doped and pristine carbon aerogels follow a quadratic MR behavior Δ
ρ/
ρ=
AB
2 in the magnetic field range
B investigated (up to 5 T), except at very low temperatures (
T<4 K).
The Fatty Acid method was used to determine whether incorporation of plasma radiolabeled arachidonic acid into brain phospholipids is controlled by phospholipase A2. Awake rats received an i.v. ...injection of a phospholipase A2 inhibitor, manoalide (10 mg/kg), and then were infused i.v. with 1-(14)Carachidonate or 3Harachidonate. Animals were killed after infusion by microwave irradiation, and tracer distribution was analyzed in brain phospholipid, neutral lipid and acyl-CoA pools. Calcium-independent phospholipase A2 activity in brain homogenate was reduced by manoalide, whereas phospholipase C activity was unaffected. At 60 min but not at 20 or 40 min after its injection, manoalide had significantly decreased by 50% incorporation of unesterified arachidonate into and turnover within brain phospholipids, taking into account dilution of the brain arachidonoyl-CoA pool by recycled arachidonate. Manoalide also increased by 100% the net rate of unesterified arachidonate incorporation into brain triacylglycerol. This study indicates that manoalide can be used to inhibit brain phospholipase A2 in vivo, and that phospholipase A2 plays a critical role in arachidonate turnover in brain phospholipids and neutral lipids.
Nanowires of bismuth with diameters ranging from 10 to 200 nm and lengths of 50 microm have been synthesized by a pressure injection method. Nanostructural and chemical compositional studies using ...environmental and high resolution transmission electron microscopy with electron stimulated energy dispersive X-ray spectroscopy have revealed essentially single crystal nanowires. The high resolution studies have shown that the nanowires contain amorphous Bi-oxide layers of a few nanometers on the surface. In situ environmental high resolution transmission electron microscopy (environmental-HRTEM) studies at the atomic level, in controlled hydrogen and other reducing gas environments at high temperatures demonstrate that gas reduction can be successfully applied to remove th oxide nanolayers and to maintain the dimensional and structural uniformity of the nanowires, which is key to attaining low electrical contact resistance.
: Awake gerbils were subjected to 5 min of forebrain ischemia by clamping the carotid arteries for 5 min and then allowing recirculation. Radiolabeled arachidonic or palmitic acid was infused ...intravenously for 5 min at the start of recirculation, after which the brains were prepared for quantitative autoradiography or chemical analysis. Dilution of specific activity of the acyl‐CoA pool was independently determined for these fatty acids in control gerbils and following 5 min of ischemia and 5 min of reperfusion. Using a quantitative method for measuring regional in vivo fatty acid incorporation into and turnover within brain phospholipids and determining unlabeled concentrations of acyl‐CoAs following recirculation, it was shown that reperfusion after 5 min of ischemia was accompanied by a threefold increase compared with the control in the rate of reincorporation of unlabeled arachidonate that had been released during ischemia, whereas reincorporation of released palmitate was not different from the control. Selective and accelerated reincorporation of arachidonate into brain phospholipids shortly after ischemia may ameliorate specific deleterious effects of arachidonate and its metabolites on brain membranes.
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