There is a growing body of evidence indicating that chronic alcohol consumption induces morphological changes in the central nervous system (CNS) similar to those observed during brain senescence, including an increased formation of lipofuscin. In addition, it was also found that alcohol withdrawal does not reverse these changes. On the contrary, most of the alterations observed during alcohol consumption worsen as happens with the increased lipofuscin formation. Thus, using our model of alcohol feeding and withdrawal, we decided to examine the effects of different drugs said to offer neuronal protection during CNS degenerative processes. The action of piracetam, a cyclic derivate of GABA and commonly used as a nootropic agent, was tested by studying the lipofuscin accumulation on the cerebellar Purkinje and hippocampal CA3 pyramidal cells in alcohol-treated and withdrawn rats. Piracetam was found to markedly decrease the formation of neuronal lipofuscin. Whatever the functional implications of this pigment, its reduction in piracetam-treated animals might be related either to a protective effect on the intraneuronal membranous system or to an antioxidant property of this molecule.
Phenylketonuria (PKU) is a disease
of the catabolism of phenylalanine
(Phe), caused by an impaired function of the enzyme phenylalanine
hydroxylase. Therapeutics is based on the restriction of Phe intake,
which mostly requires a modification of the diet. Dietary restrictions
can lead to imbalances in specific nutrients, including lipids. In
the present study, the plasma phospholipidome of PKU and healthy children
(CT) was analyzed by hydrophilic interaction liquid chromatography–tandem
mass spectrometry and gas chromatography–mass spectrometry.
Using this approach, 187 lipid species belonging to nine different
phospholipid classes and three ceramides were identified. Principal
component analysis of the lipid species data set showed a distinction
between PKU and CT groups. Univariate analysis revealed that 146 species
of phospholipids were significantly different between both groups.
Lipid species showing significant variation included phosphatidylcholines,
containing polyunsaturated fatty acids (PUFA), which were more abundant
in PKU. The high level of PUFA-containing lipid species in children
with PKU may be related to a diet supplemented with PUFA. This study
was the first report comparing the plasma polar lipidome of PKU and
healthy children, highlighting that the phospholipidome of PKU children
is significantly altered compared to CT. However, further studies
with larger cohorts are needed to clarify whether these changes are
specific to phenylketonuric children.
The need for more sustainable aquafeeds has prompted the exploration of insects as potential ingredients. However, commonly reared insects are not satisfactory regarding their fatty acid composition, lacking omega-3 long chain polyunsaturated fatty acids (n-3 LC PUFA), important nutrients for marine organisms. In this study, we present in detail the fatty acid profile of the long-legged fly Machaerium maritimae Haliday (Diptera: Dolichopodidae), an amphibiotic insect native to European coastal habitats. Specimens of this fly were collected in Ria de Aveiro coastal lagoon (Portugal) and the fatty acid profile was analysed through gas chromatography coupled with mass spectrometry. Results revealed a remarkably high level of n-3 LC PUFA, (11 μg/mg dry weight, 20% of the fatty acid profile) namely eicosapentaenoic acid, and a low level of saturated fatty acids. This value is higher than what is found in Hermetia illucens (black soldier fly), while comparable to other aquatic insects. We also report the presence of 50 distinct fatty acids, including multiple branched-chain and PUFA, and discuss potential implications of their presence on the ecology of this species. Variation in the fatty acid profile along the landscape is also presented. Our results indicate that M. maritimae can potentially be a high-quality lipid source for marine aquafeeds. Current legislation in Europe allowing the use of insects in aquaculture is restricted to a few selected species, often non-native, however, further research should consider native insects as potential alternatives to current ingredients in aquafeed.
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