After correction for the increased fertility problems of the parents, there is no increased incidence of ART related birth of AS, PWS or BWS children. ART does not seem to have a direct effect on the increase of imprinted diseases.
Objective: Increased dietary fat intake is a precipitating factor for the development of obesity and associated metabolic disturbances. Physically active individuals generally have a reduced risk of developing these unhealthy states, but the underlying mechanisms are poorly understood. In the present study, we investigated the effects of feeding a high-fat diet (HFD) on obesity development and fuel homeostasis in male and female mice with a trait for increased physical activity and in their controls. Methods: Male and female mice selectively bred for a high level of wheel running behavior over 30 generations and nonselected controls (background strain Hsd:ICR) were maintained on a standard lab chow high-carbohydrate diet (HCD) or on an HFD (60% fat). Food intake, body weight, indirect calorimetry parameters, spontaneous locomotor activity and several hormones relevant to metabolism and energy balance were measured. Results: On HFD, mice reduced food intake and increased body fat mass and plasma leptin levels, with the notable exception of the selected females, which increased their ingested calories without any effects on body mass or plasma leptin levels. In addition, they had an elevated daily energy expenditure (DEE), increased spontaneous cage activity (B700% relative to controls) and higher resting metabolic rate (RMR) on the HFD compared with feeding the HCD. The selected males also had a higher DEE compared with controls, but no interaction with diet was observed. On HCD, adiponectin levels were higher in selected male, but not female, mice relative to controls. A marked increase in the level of plasma adiponectin was observed on the HFD in selected females, an effect of diet that was not observed in selected males. Conclusion: Genetically based high locomotor activity renders female, but not male, mice resistant to HFD-induced obesity by alterations in behavioral, endocrine and metabolic traits that facilitate fat utilization rather than limiting HFD intake. International Journal of Obesity (2008) IntroductionObesity is becoming an increasingly prevalent health problem among individuals in affluent societies, because it is often associated with metabolic derangements such as impaired glucose tolerance, insulin resistance, high blood pressure, dyslipidemia and abdominal obesity. When these metabolic abnormalities are displayed in concert (often referred to as the 'metabolic syndrome'), they have a high risk of developing into life-threatening conditions such as cardiovascular disease and diabetes mellitus type 2 (for review, see Moller and Kaufman 1 ). Consensus exists that increased dietary fat intake in combination with a sedentary lifestyle are precipitating factors (World Health Organization), 2 but the underlying endocrine and metabolic mechanisms are poorly understood.A major part of the current knowledge on the etiology of obesity and the metabolic syndrome has come from studies on rodents subjected to a high-fat diet (HFD). [3][4][5][6][7] In particular, the use of selectively bred and geneticall...
Mutations in the ARX gene, at Xp22.3, cause several disorders, including infantile spasms, X-linked lissencephaly with abnormal genitalia (XLAG), callosal agenesis and isolated intellectual disability. Genotype/phenotype studies suggested that polyalanine tract expansion is associated with non-malformative phenotypes, while missense and nonsense mutations cause cerebral malformations, however, patients with structural normal brain and missense mutations have been reported. We report on a male patient born with cleft lip and palate who presented with infantile spasms and hemiplegia. MRI showed agenesis of corpus callosum (ACC), an interhemispheric cyst, periventricular nodular heterotopia (PVNH), and extensive left frontal polymicrogyria (PMG). Sequencing of the ARX gene in the patient identified a six basepair insertion (c.335ins6, exon 2). The insertion leads to a two-residue expansion of the first polyalanine tract and was described previously in a family with non-syndromic X-linked mental retardation. To our knowledge, ARX mutation causing PMG and PVNH is unique, but the spasms and ACC are common in ARX mutations. Clinicians should be aware of the broad clinical range of ARX mutations, and further studies are necessary to investigate the association with PMG and PVNH and to identify possible modifying factors.
Fluctuations in substrate preference and utilization across the circadian cycle may be influenced by the degree of physical activity and nutritional status. In the present study, we assessed these relationships in control mice and in mice from a line selectively bred for high voluntary wheel-running behavior, either when feeding a carbohydrate-rich/low-fat (LF) or a high-fat (HF) diet. Housed without wheels, selected mice, and in particular the females, exhibited higher cage activity than their non-selected controls during the dark phase and at the onset of the light phase, irrespective of diet. This was associated with increases in energy expenditure in both sexes of the selection line. In selected males, carbohydrate oxidation appeared to be increased compared to controls. In contrast, selected females had profound increases in fat oxidation above the levels in control females to cover the increased energy expenditure during the dark phase. This is remarkable in light of the finding that the selected mice, and in particular the females showed higher preference for the LF diet relative to controls. It is likely that hormonal and/or metabolic signals increase carbohydrate preference in the selected females, which may serve optimal maintenance of cellular metabolism in the presence of augmented fat oxidation.
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