Parâmetros clínicos, hematológicos e bioquímicos de novilhas com hipocalcemia subclínica pré-parto suplementadas com dieta aniônica / Anionic diet on clinical, haematological and biochemical parameters of heifers with subclinical hypocalcemia prepartum

A hipótese do presente estudo consiste em que uma dieta aniônica prolongada acarretaria uma mobilização mais rápida do cálcio sanguíneo. O objetivo proposto foi avaliar parâmetros clínicos, hematológicos e bioquímicos de novilhas, com hipocalcemia subclínica, submetidas a diferentes períodos de fornecimento de dieta aniônica no pré-parto. Foram utilizadas nove novilhas da raça Holandês induzidas à hipocalcemia subclínica no pré-parto, divididas em três grupos: G0 = sem dieta aniônica antes da indução; G11 = 11 dias de dieta aniônica pré-indução; e G15 = 15 dias de dieta aniônica pré-indução. Foi realizado exame clínico antes e depois da indução, e avaliaram-se cálcio total e ionizado, magnésio e albumina nos dias -2, 0, 1, 2 e 3 (dia 0 = momento da indução) e parâmetros hematológicos nos dias 0, 1, 2 e 3. O G11 apresentou maiores concentrações de cálcio total e ionizado que o G0 e maiores níveis de cálcio total que o G15 (P<0,01). O magnésio teve maiores valores no G15 quando comparado aos outros grupos (P<0,01). O G0 apresentou os maiores valores de monócitos e neutrófilos bastonetes (P<0,01). A dieta aniônica por 11 dias é suficiente para manter a homeostase do cálcio e a resposta leucocitária em novilhas desafiadas a uma diminuição do cálcio sanguíneo.(AU)

This study's hypothesis is that cows receiving anionic diet for a longer period respond more quickly to decreased blood calcium. The aim was to evaluate the heifers' clinical, hematological, and biochemical parameters, with subclinical hypocalcemia, subjected to different periods of anionic diet supply during antepartum. Nine heifers were induced to subclinical hypocalcemia during antepartum, sorted in 3 groups: G0 = no anionic diet before induction; G11= eleven days of anionic diet before induction; and G15 = fifteen days of anionic diet before induction. Examinations were held before and after induction and total and ionized calcium, magnesium and albumin were evaluated from days -2, 0, 1, 2 and 3, day 0 being the moment of induction; hematologic parameters were evaluated at days 0, 1, 2 and 3. G11 presented a higher total and ionized calcium concentration than G0 and higher total calcium concentration than G15 (P < 0.01). Magnesium had its highest values at G15 when compared to the other two groups (P < 0.01). G0 presented its highest values of monocytes and neutrophils rods (P<0.01). The eleven days of anionic diet supply were enough to maintain calcium homeostasis and leukocyte response in heifers challenged to reduction in blood calcium.(AU)

Plant defence responses in oilseed rape MINELESS plants after attack by the cabbage moth Mamestra brassicae.

The Brassicaceae family is characterized by a unique defence mechanism known as the 'glucosinolate-myrosinase' system. When insect herbivores attack plant tissues, glucosinolates are hydrolysed by the enzyme myrosinase (EC 3.2.1.147) into a variety of degradation products, which can deter further herbivory. This process has been described as 'the mustard oil bomb'. Additionally, insect damage induces the production of glucosinolates, myrosinase, and other defences. Brassica napus seeds have been genetically modified to remove myrosinase-containing myrosin cells. These plants are termed MINELESS because they lack myrosin cells, the so-called toxic mustard oil mines. Here, we examined the interaction between B. napus wild-type and MINELESS plants and the larvae of the cabbage moth Mamestra brassicae. No-choice feeding experiments showed that M. brassicae larvae gained less weight and showed stunted growth when feeding on MINELESS plants compared to feeding on wild-type plants. M. brassicae feeding didn't affect myrosinase activity in MINELESS plants, but did reduce it in wild-type seedlings. M. brassicae feeding increased the levels of indol-3-yl-methyl, 1-methoxy-indol-3-yl-methyl, and total glucosinolates in both wild-type and MINELESS seedlings. M. brassicae feeding affected the levels of glucosinolate hydrolysis products in both wild-type and MINELESS plants. Transcriptional analysis showed that 494 and 159 genes were differentially regulated after M. brassicae feeding on wild-type and MINELESS seedlings, respectively. Taken together, the outcomes are very interesting in terms of analysing the role of myrosin cells and the glucosinolate-myrosinase defence system in response to a generalist cabbage moth, suggesting that similar studies with other generalist or specialist insect herbivores, including above- and below-ground herbivores, would be useful.