Disrupted in Schizophrenia 1 Modulates Medial Prefrontal Cortex Pyramidal Neuron Activity Through cAMP Regulation of Transient Receptor Potential C and Small-Conductance K+ Channels

El-Hassar, Lynda; Simen, Arthur A.; Duque, Alvaro; Patel, Kiran D.; Kaczmarek, Leonard K.; Arnsten, Amy F.T.; Yeckel, Mark F.

doi:10.1016/j.biopsych.2013.12.019

Cited by 26 publications

(14 citation statements)

References 70 publications

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“…Knockdown of DISC1 in rodent PFC increases cAMP signaling in PFC neurons 129 and increases sensitivity to stress-induced PFC cognitive deficits 130 . DISC1 also regulates the integrity of PFC spines by anchoring kalirin-7 (Kal7, the rodent homolog of Duo) and preventing its stimulation of Rac1 signaling 131 .…”

Section: Potential Relevance To Spine Loss In Mental Disordersmentioning

confidence: 99%

Stress weakens prefrontal networks: molecular insults to higher cognition

2015

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A variety of cognitive disorders are worsened by stress exposure and involve dysfunction of the newly evolved prefrontal cortex (PFC). Exposure to acute, uncontrollable stress increases catecholamine release in PFC, reducing neuronal firing and impairing cognitive abilities. High levels of noradrenergic α1-adrenoceptor and dopaminergic D1 receptor stimulation activate feedforward calcium–protein kinase C and cyclic AMP–protein kinase A signaling, which open potassium channels to weaken synaptic efficacy in spines. In contrast, high levels of catecholamines strengthen the primary sensory cortices, amygdala and striatum, rapidly flipping the brain from reflective to reflexive control of behavior. These mechanisms are exaggerated by chronic stress exposure, where architectural changes lead to persistent loss of PFC function. Understanding these mechanisms has led to the successful translation of prazosin and guanfacine for treating stress-related disorders. Dysregulation of stress signaling pathways by genetic insults likely contributes to PFC deficits in schizophrenia, while age-related insults initiate interacting vicious cycles that increase vulnerability to Alzheimer’s degeneration.

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Section: Potential Relevance To Spine Loss In Mental Disordersmentioning

confidence: 99%

Stress weakens prefrontal networks: molecular insults to higher cognition

2015

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“…cAMP control mechanisms enable flexible modulation of network strength, but when dysregulated, may result in mental disorders, including schizophrenia, bipolar disorder, autism, and age-or stress-dependent cognitive impairment (105,132), and even neurodegeneration such as in AD (59). Lactate gliotransmitter signaling via HCAR1, with its widespread distribution in brain regions and in neurons as well as glia (213), is positioned to contribute to optimizing the local cAMP concentration.…”

Section: L-lactate: Transmitter and Fuelmentioning

confidence: 99%

Neuroglial Transmission

Gundersen

Storm‐Mathisen

Bergersen

2015

Physiological Reviews

150

113

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Neuroglia, the "glue" that fills the space between neurons in the central nervous system, takes active part in nerve cell signaling. Neuroglial cells, astroglia, oligodendroglia, and microglia, are together about as numerous as neurons in the brain as a whole, and in the cerebral cortex grey matter, but the proportion varies widely among brain regions. Glial volume, however, is less than one-fifth of the tissue volume in grey matter. When stimulated by neurons or other cells, neuroglial cells release gliotransmitters by exocytosis, similar to neurotransmitter release from nerve endings, or by carrier-mediated transport or channel flux through the plasma membrane. Gliotransmitters include the common neurotransmitters glutamate and GABA, the nonstandard amino acid d-serine, the high-energy phosphate ATP, and l-lactate. The latter molecule is a "buffer" between glycolytic and oxidative metabolism as well as a signaling substance recently shown to act on specific lactate receptors in the brain. Complementing neurotransmission at a synapse, neuroglial transmission often implies diffusion of the transmitter over a longer distance and concurs with the concept of volume transmission. Transmission from glia modulates synaptic neurotransmission based on energetic and other local conditions in a volume of tissue surrounding the individual synapse. Neuroglial transmission appears to contribute significantly to brain functions such as memory, as well as to prevalent neuropathologies.

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“…42 Schizophrenia is associated with insults to glutamate NMDAR actions 43,44 and with disinhibited cAMP signaling, for example, disrupted in schizophrenia 1 would anchor phosphodiesterase 4A in dlPFC spines, positioned to regulate the positive feedback cycle of cAMP-PKAcalcium signaling. 45,46 Insults to disrupted in schizophrenia 1 and phosphodiesterase 4A are linked to increased risk of illness. 47,48 Importantly, genetic alterations in mGluR3 are increasingly linked to schizophrenia, [8][9][10][11][12][13][14][15][16][17][18][19][20][21] including altered dlPFC activation and poorer cognitive performance.…”

Section: Introductionmentioning

confidence: 99%