Graham H Diering

University of North Carolina at Chapel Hill | UNC · Department of Cell Biology and Physiology

Sleep is a conserved and essential process that supports learning and memory. Synapses are a major target of sleep function and a locus of sleep need. Evidence in the literature suggests that the need for sleep has a cellular or microcircuit level basis, and that sleep need can accumulate within localized brain regions as a function of waking activ...

Neurons express overlapping homeostatic mechanisms to regulate synaptic function and network properties in response to perturbations of neuronal activity. Endocannabinoids (eCBs) are bioactive lipids synthesized in the postsynaptic compartments to regulate synaptic transmission, plasticity, and neuronal excitability primarily through retrograde act...

Background Patients with autism spectrum disorder (ASD) experience high rates of sleep disruption beginning early in life; however, the developmental consequences of this disruption are not understood. We examined sleep behavior and the consequences of sleep disruption in developing mice bearing C-terminal truncation mutation in the high-confidence...

Sleep is an essential behavior that supports brain function and cognition throughout life, in part by acting on neuronal synapses. The synaptic signaling pathways that mediate the restorative benefits of sleep are not fully understood, particularly in the context of development. Endocannabinoids (eCBs) including 2-arachidonyl glycerol (2-AG) and an...

Opioid misuse has dramatically increased over the last few decades resulting in many people suffering from opioid use disorder (OUD). The prevalence of opioid overdose has been driven by the development of new synthetic opioids, increased availability of prescription opioids, and more recently, the COVID-19 pandemic. Coinciding with increases in ex...

TSNARE1, which encodes the protein tSNARE1, is a high-confidence gene candidate for schizophrenia risk, but nothing is known about its cellular or physiological function. We identified the major gene products of TSNARE1 and their cytoplasmic localization and function in endosomal trafficking in cortical neurons. We validated three primary isoforms...

Sleep disruption is a common comorbidity in patients with autism spectrum disorder (ASD), a condition diagnosed with a striking male bias of ~4:1. It is unclear how sleep disruption contributes to ASD susceptibility, and the sex biased vulnerability. We examined sleep behavior and the effects of early life sleep disruption (ELSD) in developing mice...

Neurons express overlapping homeostatic mechanisms to regulate synaptic function and network properties in response to perturbations of neuronal activity. Endocannabinoids (eCBs) are bioactive lipids synthesized in the post-synaptic compartments to regulate synaptic transmission, plasticity, and neuronal excitability primarily through retrograde ac...

Sleep is an essential behavior that supports brain function and cognition throughout life, in part by acting on neuronal synapses. The synaptic signaling pathways that mediate the restorative benefits of sleep are not fully understood, particularly in the context of development. Endocannabinoids (eCBs) including 2-arachidonyl glycerol (2-AG) and an...

Genome‐wide association studies linked diacylglycerol kinase eta (DGKH) and iota (DGKI) to mood disorders, including bipolar disorder and schizophrenia, and both genes are expressed throughout the brain. Here, we generated and behaviorally characterized female mice lacking Dgkh alone, Dgki alone, and double Dgkh/Dgki knockout (dKO) mice. We found t...

Sleep is an essential physiological behavior that promotes cognitive development and function. Although the switch between sleep/wake cycles is controlled by specific neural circuits, sleep need and the restorative benefits of sleep are likely controlled by cellular mechanisms localized in critical areas of the brain involved in learning and memory...

Changes in the properties and postsynaptic abundance of AMPA-type glutamate receptors (AMPARs) are major mechanisms underlying various forms of synaptic plasticity, including long-term potentiation (LTP), long-term depression (LTD), and homeostatic scaling. The function and the trafficking of AMPARs to and from synapses is modulated by specific AMP...

Significance The majority of cellular proteins undergo rapid degradation and synthesis to minimize the toxic effect to cells and tissues and to guarantee normal cellular functions. It has been appreciated that proteins with longer half-lives exist in certain cells and tissues. Here we identify synaptic long-lived proteins by high-resolution mass sp...

Evidence of sleep-induced weakening of synapses lends support for a controversial hypothesis

Learning depends on experience-dependent modification of synaptic efficacy and neuronal connectivity in the brain. We provide direct evidence for physiological roles of the recycling endosome protein GRASP1 in glutamatergic synapse function and animal behavior. Mice lacking GRASP1 showed abnormal excitatory synapse number, synaptic plasticity, and...

Synapse remodeling during sleep General activity and information processing while an animal is awake drive synapse strengthening. This is counterbalanced by weakening of synapses during sleep (see the Perspective by Acsády). De Vivo et al. used serial scanning electron microscopy to reconstruct axon-spine interface and spine head volume in the mous...

Significance Decades of research from many laboratories has established a model in which phosphorylation of the GluA1 AMPA-type glutamate receptor subunit plays a significant role modulating long-term potentiation and depression, homeostatic and neuromodulator-regulated plasticity, spatial memory, fear/extinction, and appetitive incentive learning....

Bidirectional synaptic plasticity occurs locally at individual synapses during long-term potentiation (LTP) or long-term depression (LTD), or globally during homeostatic scaling. LTP, LTD, and homeostatic scaling alter synaptic strength through changes in postsynaptic AMPA-type glutamate receptors (AMPARs), suggesting the existence of overlapping m...

Significance AMPA-type glutamate receptors (AMPARs) are principal regulators of synaptic signaling in the brain. Modulation of AMPA receptor activity, whether through changes in surface expression or conductance, contributes significantly to the dynamic nature of neuronal networks. AMPA receptor mediated-synaptic plasticity is thought to underlie l...

Neuronal precursor cells extend multiple neurites during development, one of which extends to form an axon whereas others develop into dendrites. Chemical stimulation of N-methyl D-aspartate (NMDA) receptor in fully-differentiated neurons induces projection of dendritic spines, small spikes protruding from dendrites, thereby establishing another la...

To facilitate polarized vesicular trafficking and signal transduction, neuronal endosomes have evolved sophisticated mechanisms for pH homeostasis. NHE5 is a member of the Na(+)/H(+) exchanger family that is abundantly expressed in neurons and associates with recycling endosomes. Here we show that NHE5 potently acidifies recycling endosomes in PC12...

Mammalian target of rapamycin complex 1 (mTORC1) signaling is frequently dysregulated in cancer. Inhibition of mTORC1 is thus regarded as a promising strategy in the treatment of tumors with elevated mTORC1 activity. We have recently identified niclosamide (a Food and Drug Administration-approved antihelminthic drug) as an inhibitor of mTORC1 signa...

Summary diagram of the major pathways controlling mTORC1 via the TSC1–TSC2 complex and of the kinase phosphorylation sites examined in this study. Binding of growth factors to receptor tyrosine kinases (RTK) activates the AKT and Ras/Raf/MEK/ERK pathways that phosphorylate TSC2 at multiple sites and inhibit the formation of TSC1–TSC2 complexes, thu...

Acidification of the cytoplasm and the extracellular environment is associated with many physiological and pathological conditions, such as intense exercise, hypoxia and tumourigenesis. Acidification affects important cellular functions including protein synthesis, growth, and proliferation. Many of these vital functions are controlled by mTORC1, a...

Subtle changes in cellular and extracellular pH within the physiological range have profound impacts on synaptic activities. However, the molecular mechanisms underlying local pH regulation at synapses and their influence on synaptic structures have not been elucidated. Dendritic spines undergo dynamic structural changes in response to neuronal act...

NHE5 is a brain-enriched Na+/H+ exchanger that dynamically shuttles between the plasma membrane and recycling endosomes, serving as a mechanism that acutely controls the local pH environment. In the current study we show that secretory carrier membrane proteins (SCAMPs), a group of tetraspanning integral membrane proteins that reside in multiple se...

Na+/H+ exchanger isoform 5 (NHE5) is a brain-enriched NHE that may play important roles in ion homeostasis and cell-volume regulation. However, the regulation mechanism of NHE5 has not been fully elucidated. Here, we show that Receptor for Activated C-kinase 1 (RACK1) directly binds to NHE5 and positively regulates the transporter function. NHE5 co...