Jordan N Norwood scite author profile

Background:The molecular mechanisms regulating brain development are unclear. Results: HDAC3 deletion disrupts the organization of certain neuronal cell types and the proportions of some glial cell types in the cortex and cerebellum. Conclusion: HDAC3 regulates brain development, and other HDACs cannot compensate for its function. Significance: Our study identifies a key player in the regulation of brain development.

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Anatomical basis and physiological role of cerebrospinal fluid transport through the murine cribriform plate

Norwood

Zhang

Card

et al. 2019

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Cerebrospinal fluid (CSF) flows through the brain, transporting chemical signals and removing waste. CSF production in the brain is balanced by a constant outflow of CSF, the anatomical basis of which is poorly understood. Here, we characterized the anatomy and physiological function of the CSF outflow pathway along the olfactory sensory nerves through the cribriform plate, and into the nasal epithelia. Chemical ablation of olfactory sensory nerves greatly reduced outflow of CSF through the cribriform plate. The reduction in CSF outflow did not cause an increase in intracranial pressure (ICP), consistent with an alteration in the pattern of CSF drainage or production. Our results suggest that damage to olfactory sensory neurons (such as from air pollution) could contribute to altered CSF turnover and flow, providing a potential mechanism for neurological diseases.

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nNOS-expressing interneurons control basal and behaviorally evoked arterial dilation in somatosensory cortex of mice

Echagarruga

Gheres

Norwood

et al. 2020

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Cortical neural activity is coupled to local arterial diameter and blood flow. However, which neurons control the dynamics of cerebral arteries is not well understood. We dissected the cellular mechanisms controlling the basal diameter and evoked dilation in cortical arteries in awake, head-fixed mice. Locomotion drove robust arterial dilation, increases in gamma band power in the local field potential (LFP), and increases calcium signals in pyramidal and neuronal nitric oxide synthase (nNOS)-expressing neurons. Chemogenetic or pharmocological modulation of overall neural activity up or down caused corresponding increases or decreases in basal arterial diameter. Modulation of pyramidal neuron activity alone had little effect on basal or evoked arterial dilation, despite pronounced changes in the LFP. Modulation of the activity of nNOS-expressing neurons drove changes in the basal and evoked arterial diameter without corresponding changes in population neural activity.

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Anatomical basis and physiological role of cerebrospinal fluid transport through the murine cribriform plate

Norwood

Zhang

Card

et al. 2018

Preprint

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Cerebrospinal fluid (CSF) flows through the brain, transporting chemical signals and removing waste. CSF production in the brain is balanced by a constant outflow of CSF, the anatomical basis of which is poorly understood. Here we characterized the anatomy and physiological function of the CSF outflow pathway along the olfactory sensory nerves through the cribriform plate, and into the nasal epithelia. Chemical ablation of olfactory sensory nerves greatly reduced outflow of CSF through the cribriform plate. The reduction in CSF outflow did not cause an increase in intracranial pressure (ICP), consistent with an alteration in the pattern of CSF drainage or production. Our results suggest that damage to olfactory sensory neurons (such as from air pollution) could contribute to altered CSF turnover and flow, providing a potential mechanism for neurological diseases.

show abstract

Author response: Anatomical basis and physiological role of cerebrospinal fluid transport through the murine cribriform plate

Norwood

Zhang

Card

et al. 2019

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Jordan N Norwood

Histone Deacetylase 3 Is Necessary for Proper Brain Development

Anatomical basis and physiological role of cerebrospinal fluid transport through the murine cribriform plate

nNOS-expressing interneurons control basal and behaviorally evoked arterial dilation in somatosensory cortex of mice

Anatomical basis and physiological role of cerebrospinal fluid transport through the murine cribriform plate

Author response: Anatomical basis and physiological role of cerebrospinal fluid transport through the murine cribriform plate

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