98 results found
    1. Chromosomes and Gene Expression

    Growth hormone-releasing hormone disruption extends lifespan and regulates response to caloric restriction in mice

    Liou Y Sun et al.
    Mice with a mutation that disrupts the release of growth hormone show greatly increased lifespan, which can be further increased by caloric restriction.
    1. Cell Biology
    2. Chromosomes and Gene Expression

    Reduced expression of C/EBPβ-LIP extends health and lifespan in mice

    Christine Müller et al.
    Reduced expression of a single transcription factor is sufficient to improve fitness and health at old age and increases the lifespan in female mice.
    1. Chromosomes and Gene Expression

    The starvation hormone, fibroblast growth factor-21, extends lifespan in mice

    Yuan Zhang et al.
    Transgenic mice with high levels of FGF21 live for longer than wild-type mice and do so without reducing food intake.
    1. Cell Biology

    Glucose intake hampers PKA-regulated HSP90 chaperone activity

    Yu-Chen Chen et al.
    Food overconsumption impairs cellular protein folding through a novel aging-related signaling pathway.
    1. Cell Biology

    Aging: A new answer to old questions

    Yves Barral
    Insight
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    1. Developmental Biology

    Longevity is impacted by growth hormone action during early postnatal period

    Liou Y Sun et al.
    Transient hormonal alterations during early critical developmental periods can have a crucial and long-lasting effect on lifespan in mice.
    1. Neuroscience

    Neurosecretory protein GL stimulates food intake, de novo lipogenesis, and onset of obesity

    Eiko Iwakoshi-Ukena et al.
    Neurosecretory protein GL, a previously unknown mammalian neuropeptide, is a novel hypothalamic factor which regulates feeding behavior and peripheral lipogenesis in animals.
    1. Neuroscience

    Energy imbalance alters Ca2+ handling and excitability of POMC neurons

    Lars Paeger et al.
    The development of diet-dependent obesity results in the deterioration of calcium homeostasis in pro-opiomelanocortin-expressing neurons and impaired function of the same neurons.
    1. Structural Biology and Molecular Biophysics
    2. Human Biology and Medicine

    Epithelial magnesium transport by TRPM6 is essential for prenatal development and adult survival

    Vladimir Chubanov et al.
    Mice deficient in the TRPM6 channel suffer from impaired prenatal development, shortened lifespan, growth deficit and disturbed energy balance due to a defect in epithelial Mg2+ uptake, thus highlighting a pivotal role of TRPM6 in organismal Mg2+ homeostasis.

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