Silvia Enes-Marques scite author profile

Silvia Enes-Marques

4Publications

38Citation Statements Received

0Citation Statements Given

How they've been cited

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195

Affiliations

Federal University of Alfenas, Sociedade Brasileira de Cardiologia

Publications

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Litter size reduction accentuates maternal care and alters behavioral and physiological phenotypes in rat adult offspring

Enes-Marques

Giusti‐Paiva

2018

J Physiol Sci

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Maternal behavior has a substantial impact on the behavioral, endocrine, and neural development of the pups. This study investigated the effect of altering the neonatal nutritional environment by modifying the litter size on maternal care and anxiety- and fear-like behaviors in rats during adulthood. On postnatal day (PND) 2, litters were adjusted to a small litter (SL) size of three pups per dam or normal litter (NL) size of 12 pups per dam. Maternal behaviors were scored daily during lactation (PND2-21). The weight gain, food intake, adiposity, and biochemical landmarks of offspring rats were evaluated. On PND60, performances in the open field, elevated plus-maze (EPM), and fear conditioning test were measured. The reduction of the litter size enhanced maternal care in lactating rats, increasing the arched-back posture and licking pups. SL offspring exhibited accelerated weight gain, hyperphagia, increased visceral fat mass, dyslipidemia, and hyperleptinemia in adulthood. The SL offspring of both sexes showed an increase in the anti-thigmotactic effect in the open field, an intact anxious-phenotype in the EPM, and a decrease in the time spent freezing during the fear-conditioning test, compared to NL. The neonatal environment as determined by litter size plays a crucial role in programming the adult metabolic phenotype as well as behavioral responses to stressful stimuli, with an impact on anxiety-like and fear behaviors. These behavioral changes in offspring may be, at least in part, a result of increased maternal care.

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Sickness behavior is accentuated in rats with metabolic disorders induced by a fructose diet

Orlandi

Fonseca

Enes-Marques

et al. 2015

Journal of Neuroimmunology

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Metformin influences on respiratory system in obese mice induced by postnatal overnutrition

Dias

Goulart

Dalécio

et al. 2018

Respiratory Physiology & Neurobiology

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Many studies have confirmed the merits of metformin to treat type 2 diabetes, but few studies have addressed its effect on the respiratory system. Moreover, vascular endothelial growth factor (VEGF) is critical to many lung functions. In this way, we evaluated the metformin impact on the lung in treated obese Swiss mice, induced by postnatal overnutrition. Glucose and insulin were detected and the insulin resistance index (HOMA) was calculated; inflammatory cells and nitrite/nitrate concentration (NOx) was quantified from bronchoalveolar lavage, collagen and lung VEGF-a was analysed in the lung tissue and lung mechanics were evaluated by methacholine-induced bronchoconstriction. Values of glucose, insulin, HOMA; VEGF-a and collagen demonstrate the partial ability of metformin to improve the effects of obesity. However, metformin is ineffective in re-establishing the inflammation, shows no effects on NOx and does not restore bronchoconstriction in obese mice. In conclusion, metformińs beneficial effects on lung are questionable in the postnatal overnutrition model of obesity.

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Neonatal overnutrition programming impairs cholecystokinin effects in adultmale rats

Enes-Marques

Rojas

Batista

et al. 2020

The Journal of Nutritional Biochemistry

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