A linhaça (Linum usitatissimum) como fonte de ácido α-linolênico na formação da bainha de mielina Flaxseed (Linum usitatissimum) as a source of α-linolenic acid in the development of the myelin sheath

A linhaça (Linum usitatissimum) é uma semente oleaginosa que tem sido estudada por seus efeitos benéficos à saúde. É considerada um alimento funcional, pelo fato de ser uma fonte natural de fitoquímicos, e por conter o ácido graxo &#945;-linolênico (C18:3 n-3), que pode ser metabolicamente convertido nos ácidos docosaexahenóico (C22:6 n-3) e eicosapentaenóico (C20:5 n-3), sendo o primeiro essencial para o desenvolvimento do sistema nervoso central. Durante o crescimento do cérebro, há uma grande incorporação do ácido docosaexahenóico, que tem papel importante na formação de suas membranas celulares. Diante disto, esta comunicação visa a abordar os prováveis mecanismos pelos quais o ácido docosaexahenóico, proveniente do ácido &#945;-linolênico presente abundantemente na semente de linhaça, interfere na formação da bainha de mielina, assim como relatar a técnica mais adequada para visualização desta bainha.<br>Flaxseed is an oily seed that has been studied for its beneficial health effects. It is considered a functional food because it is a natural source of phytochemicals and contain the fatty acid &#945;-linolenic acid (C18:3 n-3) that can be metabolically converted into docosahexaenoic acid (C22:6 n-3) and eicosapentaenoic acid (C20:5 n-3). The former is essential for the development of the central nervous system. During brain growth, there is a great incorporation of docosahexaenoic acid which plays in important role in the formation of cell membranes. This communication intended to address the likely mechanisms by which docosahexaenoic acid originating from &#945;-linolenic acid, present in abundance in flaxseed, interferes in the formation of the myelin sheath and report the best method to see this structure

Caloric stress alters fat characteristics and Hsp70 expression in milk somatic cells of lactating beef cows

Selection for higher production rate in cattle inhabiting challenging habitats may be considered disadvantageous because of possible deleterious effects on immunity and reproduction and, consequently, on calf crop percentage. In Israel, free-grazing high productive beef cows experience reduction in nutritional quality of forage during up to 8 months of the year. As milk production by dams dictates calf performance, dam’s nutritional needs and rebreeding rates, the aim of the present study was to test how lactating beef cows deal with combined caloric and protein stress both at the productive and self protective levels. For this purpose, we studied the effect of long-term caloric stress on milk characteristics and gene expression of stress and milk components producing proteins. Lactating dams responded to caloric stress by decreased body weight, milk, and milk protein production. To compensate for total energy loses in milk, they produced milk of higher fat concentration and shifted the proportions of its fatty acids towards long and unsaturated ones. This was reflected by increased mRNA transcription of the fatty acid binding protein. Prolonged low-energy diet promoted cell-specific heat shock protein (Hsp) response; whereas significant increase of Hsp90 but unchanged levels of Hsp70 proteins were observed in white blood cells, the expression of Hsp70 in milk somatic cells was markedly attenuated, in parallel with a marked increase of αs1-casein expression. At the mammary gland level, these results may indicate a decrease in turnover of proteins and a shift to an exclusive expression of milk components producing factors. Similar responses to caloric stress were revealed also in ketotic dairy cows. Ketosis promoted a shift towards long and unsaturated fatty acids and an increased expression of αs1-casein in milk somatic cells. These findings may reflect an evolutionary-preserved mechanism in lactating cows for coping with caloric restriction. Overall, our results provide an index to test suitability of beef cattle breeds to inadequate caloric demands