Objective We surveyed the datasheets of 29 laboratories concerning prenatal diagnosis of de novo apparently balanced chromosome rearrangements to assess the involvement of specific chromosomes, the breakpoints distribution and the impact on the pregnancy outcome.Method By means of a questionnaire, data on 269.371 analyses performed from 1983 to 2006 on amniotic fluid, chorionic villus and fetal blood samples were collected.Results A total of 246 balanced anomalies were detected at frequencies of 72% for reciprocal translocations, 18% for Robertsonian translocations, 7% for inversions and 3% for complex chromosome rearrangements. The total frequencies of balanced rearrangements were 0.09%, 0.08% and 0.05% on amniotic fluid, chorionic villus and fetal blood samples.Conclusion A preferential involvement of chromosomes 22, 7, 21, 3, 9 and 11 and a less involvement of chromosomes X, 19, 12, 6 and 1 was observed. A nonrandom distribution of the breakpoints across chromosomes was noticed. Association in the location of recurrent breakpoints and fragile sites was observed for chromosomes 11, 7, 10 and 22, while it was not recorded for chromosome 3. The rate of pregnancy termination was about 20%, with frequencies decreasing from complex chromosomal rearrangements (33%), reciprocal translocations (24%) to inversions (11%) and Robertsonian translocations (3%).
Oxidation of polyunsaturated fatty acids containing phospholipids in tissue generates lipid hydroperoxides, which are further degraded to several products, among which unsaturated aldehydes such as 4-hydroxy-trans-2-nonenal (HNE) play an important role in mediating the pathological effects of oxidative stress. While the reaction of HNE with glutathione (GSH) is a well recognized pathway of detoxification in biological systems, no data are available on HNE interactions with carnosine, a dipeptide (beta-alanyl-L-histidine) present in high concentration in skeletal muscle. The aim of this work was to study the quenching ability of carnosine towards HNE and to characterize the reaction products by electrospray ionization tandem mass spectrometry (ESI-MS/MS), using GSH as a model peptide. GSH incubation with HNE in 1 mM phosphate buffer (pH 7.4) results in the complete disappearance of HNE within 1 h owing to the formation of a Michael adduct, S-(4-hydroxynonanal-3-yl)glutathione. The reaction of HNE with carnosine was studied in different molar ratios and monitored up to 24 h by high-performance liquid chromatography (HPLC) (HNE consumption), MS/MS (infusion) and liquid chromatography mass spectrometry (LC/MS) experiments. Carnosine, although less reactive than GSH, significantly quenched HNE (48.2 +/- 0.9% HNE consumption after 1 h; carnosine:HNE molar ratio 10 : 1). Two reaction products were identified: the Michael adduct, N-(4-hydroxynonanal-3-yl)carnosine involving the imidazolic nitrogen of histidine, and the imine adduct, involving the amino group of the beta-alanine residue. Definitive structure assignment was achieved by chemical reduction with NaBH(4) and multinuclear magnetic resonance experiments. To understand whether carnosine acts as a quencher of unsaturated aldehydes in biological matrices, rat skeletal muscle homogenate was incubated with HNE and the formation of conjugated adducts was determined by LC/MS analysis. Three main products were detected and identified as Michael adducts of HNE with GSH, carnosine and anserine (the N-methylated derivative of carnosine, present in high concentrations in rat muscle). The results indicate that beside GSH, histidine-containing dipeptides could be involved in the detoxification pathway of reactive aldehydes from lipid peroxidation generated in skeletal muscle during physical endurance.
The antioxidant activity of some esters of ferulic acid with the linear fatty alcohols C7, C8 (branched and linear), C9, C11, C12, C13, C15, C16, and C18 has been studied in homogeneous and heterogeneous phases. Whereas in homogeneous phase all of the alkyl ferulates possessed similar radical-scavenging abilities, in rat liver microsomes they showed striking differences, the more effective being C12 (7) (IC50 = 11.03 M), linear C8 (3) (IC50 = 12.40 microM), C13 (8) (IC50 = 18.60 microM), and C9 (5) (IC50 = 19.74 microM), followed by C7 (2), C15 (9), C11 (6), branched C8 (4), C16 (10), and C18 (11) (ferulic acid was the less active, IC50 = 243.84 microM). All of the molecules showed similar partition coefficients in an octanol-buffer system. Three-dimensional studies (NMR in solution, modeling in vacuo) indicate that this behavior might be due to a different anchorage of the molecules with the ester side chain to the microsomal phospholipid bilayer and to a consequent different orientation/positioning of the scavenging phenoxy group outside the membrane surface against the flux of oxy radicals.
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