828 results found
    1. Neuroscience
    2. Physics of Living Systems

    Arterial smooth muscle cell PKD2 (TRPP1) channels regulate systemic blood pressure

    Simon Bulley et al.
    Arterial myocyte PKD2 channels are activated by vasoconstrictor stimuli, which increases blood pressure, are upregulated during hypertension and cell-specific knockout in vivo reduces both physiological blood pressure and hypertension.
    1. Structural Biology and Molecular Biophysics

    Intravascular flow stimulates PKD2 (polycystin-2) channels in endothelial cells to reduce blood pressure

    Charles E MacKay et al.
    PKD2 (polycystin-2) channels are a major component of a flow-sensing signaling mechanism in endothelial cells that stimulates vasodilation and reduces blood pressure.
    1. Neuroscience

    PreBötzinger complex neurons drive respiratory modulation of blood pressure and heart rate

    Clément Menuet et al.
    The PreBötzinger complex, which contains neurons that are the kernel for inspiratory rhythm generation, also contains sympathoexcitatory and parasympathoinhibitory neurons that drive respiratory-phase oscillations in blood pressure and heart rate.
    1. Neuroscience

    More homogeneous capillary flow and oxygenation in deeper cortical layers correlate with increased oxygen extraction

    Baoqiang Li et al.
    Resting-state capillary blood flow and oxygenation are more homogeneous in the deeper cortical layers, underpinning an important mechanism by which the microvascular network adapts to an increased local oxidative metabolism.
    1. Genetics and Genomics

    Analysis of the genomic architecture of a complex trait locus in hypertensive rat models links Tmem63c to kidney damage

    Angela Schulz et al.
    Genetic and functional studies reveal a previously unrecognized role for a transmembrane protein in glomerular filtration barrier function.
    1. Neuroscience

    Tissue Engineering: Building a better blood-brain barrier

    Courtney Lane-Donovan, Joachim Herz
    A new three-dimensional model of the blood-brain barrier can be used to study processes that are involved in neurodegenerative diseases.
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