The novel selective PDE9 inhibitor BAY 73-6691 improves learning and memory in rodents.

The present study investigated the putative pro-cognitive effects of the novel selective PDE9 inhibitor BAY 73-6691. The effects on basal synaptic transmission and long-term potentiation (LTP) were investigated in rat hippocampal slices. Pro-cognitive effects were assessed in a series of learning and memory tasks using rodents as subjects. BAY 73-6691 had no effect on basal synaptic transmission in hippocampal slices prepared from young adult (7- to 8-week-old) Wistar rats. A dose of 10 mu M, but not 30 mu M BAY 73-6691 enhanced early LTP after weak tetanic stimulation. The dose effective in young adult Wistar rats did not affect LTP in hippocampal slices prepared from young (7- to 8-week-old) Fischer 344 X Brown Norway (FBNF1) rats, probably reflecting strain differences. However, it increased basal synaptic transmission and enhanced early LTP after weak tetanic stimulation in hippocampal slices prepared from very old (31 - to 35-month-old) FBNF1 rats. BAY 73-6691 enhanced acquisition, consolidation, and retention of long-term memory (LTM) in a social recognition task and tended to enhance LTM in an object recognition task. Bay 73-6691 attenuated the scoplamine-induced retention deficit in a passive avoidance task, and the MK-801-induced short-term memory deficits in a T-maze alternation task. The mechanism of action, possibly through modulation of the NO/cGMP-PKG/CREB pathway, is discussed. Our findings support the notion that PDE9 inhibition may be a novel target for treating memory deficits that are associated with aging and neurodegenerative disorders such as Alzheimer's disease

Automated Assessment of COVID-19 Reporting and Data System and Chest CT Severity Scores in Patients Suspected of Having COVID-19 Using Artificial Intelligence

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Fracionamento dos carboidratos pelas equações do Cornell Net Carbohydrate and Protein System de três cultivares de girassol na presença ou não de irrigação Carbohydrate fractionation of three sunflower cultivars in the presence or absence of irrigation using the Cornell Net Carbohydrate and Protein System equations

Objetivou-se quantificar as frações de carboidratos pelas equações do Cornell Net Carbohydrate and Protein System (CNCPS) de três cultivares de girassol (Helianthus annuus L.) cultivados na presença ou não de irrigação. A utilização de uma preparação fibrosa, denominada parede celular (PC), nas equações da CNCPS, em substituição à fibra em detergente neutro (FDN) não promoveu diferenças nas frações de carboidratos B1 e C, mas influenciou as frações A e B2. Como os valores da fração B1, obtidos pelo modelo CNCPS foram menores que os teores de amido e pectina determinados em laboratório, supõe-se que a pectina e outros oligossacarídeos da parede celular, solubilizados pela solução de detergente neutro (fibra solúvel), nunca fizeram parte da fração B1, e sim da fração A. Apesar de os carboidratos da fibra solúvel apresentarem elevadas taxas de degradação, não parece adequada a caracterização da fibra solúvel na fração A. Parece mais adequado que a fibra solúvel (que inclui a pectina) seja alocada a uma fração exclusivamente sua, que pode ser a fração B2, e que seja criada uma nova fração, a B3, para os carboidratos digeríveis da parede celular. Assim, a fração B1 seria composta apenas de amido. A equação da fração C, que estima os carboidratos indigeríveis da parede celular, pode ser simplificada, relacionando a fração indigerível ao teor de lignina na matéria seca, e não à FDN isenta de cinzas e proteína, como atualmente utilizado. Esta proposta tem implicações práticas, uma vez que a fração indigerível da parede celular tem sido expressa em relação à FDN, e não na MS, com base no fato de que os efeitos inibitórios da lignina ocorrem sobre os componentes fibrosos da parede celular vegetal, e não sobre o conteúdo celular.<br>This work aimed to estimate the carbohydrate fractions in three sunflower (Helianthus annuus L.) cultivars in the presence or absence of irrigation, using the Cornell Net Carbohydrate and Protein System (CNCPS) equations. The utilization of a fibrous preparation called cell wall (CW) in the CNCPS equations instead of neutral detergent fiber (NDF) showed no differences in the B1 and C fractions; however, there were differences in the A and B2 fractions. Because estimates of B1 fraction were lower than wet chemistry determinations of starch and pectin, it was assumed that pectin and other oligosaccharides, that are dissolved by the neutral detergent (soluble fiber), were part of fraction A, but not part of fraction B1. In spite the soluble fiber carbohydrates have high degradation rates, characterization of soluble fiber within fraction A seems inadequate. It seems coherent that soluble fiber (which includes pectin) be allocated exclusively to a fraction which could be fraction B2. In addition, a new fraction (B3) should be created for the digestible cell wall carbohydrates. Thus, the fraction B1 would be constituted only by starch. It was verified that the equation for the fraction C, which estimates the indigestible cell wall carbohydrates, could be simplified, expressing lignin on a dry matter basis, instead of ash + protein-free NDF as it is used currently. This finding has a practical implication, because it has been recommended that the indigestible cell wall be related to NDF, and not to DM, on the basis that the inhibitory effects of lignin occur on the plant cell wall fibrous carbohydrates and not on the cell content