Cardiac changes during sleep in sleep-deprived infants

SCOPUS: ar.jinfo:eu-repo/semantics/publishe

Influence of swaddling on sleep and arousal characteristics of healthy infants

SCOPUS: ar.jinfo:eu-repo/semantics/publishe

Decreased arousals among healthy infants after short-term sleep deprivation.

SCOPUS: ar.jinfo:eu-repo/semantics/publishe

Phosphorylation of APP695 at Thr668 decreases gamma-cleavage and extracellular Abeta.

Phosphorylation of human APP695 at Thr668 seems to be specific to neuronal tissue and could affect Abeta production. Metabolism of APP mutated at Thr668 residue was analyzed in CHO cell line and primary cultures of rat cortical neurons. By site-directed mutagenesis, T668A or T668D substitutions were introduced in wild-type APP695. In CHO cells, wild-type APP695 was very slightly phosphorylated at Thr668 and produced similar levels of extracellular Abeta40 as compared to APPT668A. On the contrary, APPT668D was more efficiently cleaved by beta-secretase. However, accumulated betaCTF were less cleaved by gamma-secretase and less extracellular Abeta40 was produced. Decreased susceptibility to cleavage by gamma-secretase was confirmed upon expression of C99T668D. In neurons, part of APP695 was phosphorylated at Thr668. Following neuronal expression of APPT668A, extracellular Abeta40 production was increased. In conclusion, phosphorylation of human APP695 at Thr668 increases APP beta-cleavage but decreases its gamma-cleavage and extracellular Abeta40 production

LACK OF PHOSPHORYLATION OF THE AMYLOID PRECURSOR PROTEIN ON THR668 RESIDUE INCREASES THE GAMMA-CLEAVAGE OF THE PROTEIN

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LACK OF PHOSPHORYLATION OF THE AMYLOID PRECURSOR PROTEIN ON THR668 RESIDUE INCREASES THE GAMMA-CLEAVAGE OF THE PROTEIN

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Adequate calcium intake during long periods improves bone mineral density in healthy children. Data from the Childhood Obesity Project

Background: Bone mineralization can be influenced by genetic factors, hormonal status, nutrition, physical activity and body composition. The association of higher calcium (Ca) intake or Ca supplementation with better bone mineral density (BMD) remains controversial. Furthermore, it has been speculated that maintaining long-term adequate Ca intake rather than having a brief supplementation period is more effective. The aim of the study was to prospectively analyse the influence of adequate Ca intake on BMD at 7 years of age in European children. Methods: Data from the Childhood Obesity Project were analysed in a prospective longitudinal cohort trial. Dietary intake was recorded using 3-day food records at 4, 5 and 6 years of age. The probability of adequate intake (PA) of Ca was calculated following the American Institute of Medicine guidelines for individual assessments, with FAO, WHO and United Nations University joint expert consultation dietary recommendations. Children were categorised as having high Ca PA (PA >95%) or not (PA 95% at 5 and 6 or from 4 to 6 years of age showed higher BMD z-scores at the LS and WB levels than children with Ca PA 95% maintained over 2 years explained 26.3% of the LS BMD z-score variation (p 95% maintained over 3 years explained 24.9% of the LS BMD z-score variation, increasing it by 0.773 (0.282, 1.264). The effects of Ca adequacy on WB BMD were similar. Children with PA >95% over 2 years had an Odds ratio of 13.84 and 12 for osteopenia at the LS and WB levels, respectively (p = 0.001). Conclusions: Long periods of adequate Ca intake in childhood increase BMD and reduce osteopenia risk. The Childhood Obesity Project clinical trial (CHOP) was registered at clinicaltrials.gov as NCT00338689.0SCOPUS: ar.jinfo:eu-repo/semantics/publishe

Micronutrient intake adequacy in children from birth to 8 years. Data from the Childhood Obesity Project

Background: In European countries, suboptimal intake has been reported for several micronutrients (as calcium, iron, zinc, vitamin B12, D and folate) in both adulthood and childhood. No studies to date have prospectively compiled nutrient intake from healthy children in different European countries using the same methodology. Aim: To describe the adequacy of micronutrient intake during the first eight years of life in children from 5 European countries. Methods: Prospective observational trial analyzing data from the EU Childhood Obesity Project. Infants were enrolled within the first two months of life and were followed regularly to age 8 years. Dietary intake was collected periodically with 3-day food records. Nutrient intake adequacy was estimated for calcium, phosphorus, iron, zinc, magnesium, iodine, folate and vitamins B12, A and D, following the American Institute of Medicine (IOM) guidelines at group (prevalence of adequacy >80%) and individual (high probability of adequate intake >80% of the children) level; the assessment was based on the Estimated Average Requirements of nutrients of the FAO, WHO and United Nations University (FAO/WHO/UNU) or the IOM if FAO/WHO/UNU data were not available. Results: Intake data were available for a decreasing number of children, from 904 at 3 months to 396 at 8 years. Iron, iodine, folate and vitamin D were inadequately consumed when assessing adequacy at group level; at individual-level less than 80% of the children showed high probability of adequate intake for iron, iodine, folate and zinc at all ages, and calcium from 12 months onwards. Conclusions: Accurate dietary intake and adequacy assessment methodology in this prospective cohort of European children found iron, calcium, vitamin D, folate, iodine and zinc to be inadequately consumed in childhood, as described previously by epidemiologic studies. Further studies are needed to elucidate health consequences of these deficiencies. CHOP trial was registered at clinicaltrials.gov as NCT00338689.0SCOPUS: ar.jinfo:eu-repo/semantics/publishe

Influence of Feeding Types during the First Months of Life on Calciuria Levels in Healthy Infants: A Secondary Analysis from a Randomized Clinical Trial

Background/Aims: Dietary factors can modify calciuria. We aim to investigate urinary calcium excretion in healthy infants according to their protein. Methods: Secondary data analysis from a randomized clinical trial where healthy term infants were randomized after birth to a higher (HP) or lower (LP) protein content formula that was consumed until age 1 year. A non-randomized group of breastfed (BF) infants was used for reference. Anthropometry, dietary intakes and calciuria (calcium/creatinine ratios) from spot urine samples were assessed at ages 3 and 6 months. At 6 months, the kidney volumes were assessed using ultrasonography, and the serum urea and creatinine levels were determined. Results: BF infants showed the highest calciuria levels, followed by the HP and the LP groups (p < 0.001 for all comparisons). Either protein intakes or formula types modulated the calciuria in linear regression models adjusted for other influencing dietary factors. The usual cut-off values classified 37.8% (BF), 16.8% (HP) and 4.9% (LP) of the infants as hypercalciuric. Conclusions: Feeding types during the first months of life affect calciuria, with BF infants presenting the highest levels. We propose new cut-off values, based on feeding types, to prevent the overestimation in hypercalciuria diagnoses among BF infants.0SCOPUS: ar.jinfo:eu-repo/semantics/publishe

What is the role of amyloid precursor protein dimerization?

Extensive research efforts have been conducted over the past decades to understand the processing of the Amyloid Precursor Protein (APP). APP cleavage leads to the production of the β-amyloid peptide (Aβ), which is the major constituent of the amyloid core of senile plaques found in the brains of patients with Alzheimer disease (AD). Aβ is produced by the sequential cleavage of APP by β- and γ-secretases. Cleavage of APP by γ-secretase also generates the APP Intracellular C-terminal Domain (AICD) peptide, which might be involved in regulation of gene transcription. Up to now, our understanding of the mechanisms controlling APP processing has been elusive. Recently, APP was found to form homo- or hetero-complexes with the APP-like proteins (APLPs), which belong to the same family and share some important structural properties with receptors having a single membrane spanning domain. Homodimerization of APP is driven by motifs present in the extracellular domain and possibly in the juxtamembrane and transmembrane (JM/TM) domains of the protein. These striking observations raise important questions about APP processing and function: How and where is APP dimerizing? What is the role of dimerization in APP processing and function? Can dimerization be targeted by small molecule therapeutics