Stanley E. Smerin scite author profile

Leak channels regulate neuronal activity and excitability. Determining which leak channels exist in neurons and how they control electrophysiological behavior is fundamental. Here we investigated TASK channels, members of the two-pore domain K ϩ channel family, as a component of the K ϩ -dominated leak conductance that controls and modulates rhythm generation at cellular and network levels in the mammalian pre-Bötzinger complex (pre-BötC), an excitatory network of neurons in the medulla critically involved in respiratory rhythmogenesis. By voltage-clamp analyses of pre-BötC neuronal current-voltage (I-V) relations in neonatal rat medullary slices in vitro, we demonstrated that pre-BötC inspiratory neurons have a weakly outward-rectifying total leak conductance with reversal potential that was depolarized by ϳ4 mV from the K ϩ equilibrium potential, indicating that background K ϩ channels are dominant contributors to leak. This K ϩ channel component had I-V relations described by constant field theory, and the conductance was reduced by acid and was augmented by the volatile anesthetic halothane, which are all hallmarks of TASK. We established by single-cell RT-PCR that pre-BötC inspiratory neurons express TASK-1 and in some cases also TASK-3 mRNA. Furthermore, acid depolarized and augmented bursting frequency of pre-BötC inspiratory neurons with intrinsic bursting properties. Microinfusion of acidified solutions into the rhythmically active pre-BötC network increased network bursting frequency, halothane decreased bursting frequency, and acid reversed the depressant effects of halothane, consistent with modulation of network activity by TASK channels. We conclude that TASK-like channels play a major functional role in chemosensory modulation of respiratory rhythm generation in the pre-Bötzinger complex in vitro.

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The interaction between stressful life events and leukocyte telomere length is associated with PTSD

Zhang

et al. 2013

Mol Psychiatry

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hippocampus of schizophrenia patients in post-mortem studies. 5 Furthermore, DISC1 has previously been shown to directly regulate the GSK3ß signalling pathway with downstream effects on neurogenesis. 6 NRG1-ErbB signalling is also known to interact with the Wnt-GSK3ß signalling pathway, 4 and genetic variants altering NRG1 expression have been implicated in a range of neuropsychiatric disorders. 3 Recently Makinodan et al. 7 have shown that prolonged social isolation in mice during the juvenile period (PND 21-35) resulted in decreased Type III neuregulin expression in the prefrontal cortex and impaired oligodendroctye development and myelination. Here we show that even a relative brief exposure to non-social stressors during the juvenile period is sufficient to produce a selective decrease in NRG1 Type III expression. Taken together, these findings suggest that a wide range of pre-pubertal stressors can produce long-lasting effects on the expression of psychiatric risk genes, with significant implications for brain myelination and development and risk for later psychiatric disorder.

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Mitochondria-focused gene expression profile reveals common pathways and CPT1B dysregulation in both rodent stress model and human subjects with PTSD

Zhang

et al. 2015

Transl Psychiatry

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Posttraumatic stress disorder (PTSD), a trauma-related mental disorder, is associated with mitochondrial dysfunction in the brain. However, the biologic approach to identifying the mitochondria-focused genes underlying the pathogenesis of PTSD is still in its infancy. Previous research, using a human mitochondria-focused cDNA microarray (hMitChip3) found dysregulated mitochondria-focused genes present in postmortem brains of PTSD patients, indicating that those genes might be PTSD-related biomarkers. To further test this idea, this research examines profiles of mitochondria-focused gene expression in the stressed-rodent model (inescapable tail shock in rats), which shows characteristics of PTSD-like behaviors and also in the blood of subjects with PTSD. This study found that 34 mitochondria-focused genes being upregulated in stressed-rat amygdala. Ten common pathways, including fatty acid metabolism and peroxisome proliferator-activated receptors (PPAR) pathways were dysregulated in the amygdala of the stressed rats. Carnitine palmitoyltransferase 1B (CPT1B), an enzyme in the fatty acid metabolism and PPAR pathways, was significantly over-expressed in the amygdala (P<0.007) and in the blood (P<0.01) of stressed rats compared with non-stressed controls. In human subjects with (n=28) or without PTSD (n=31), significant over-expression of CPT1B in PTSD was also observed in the two common dysregulated pathways: fatty acid metabolism (P=0.0027, false discovery rate (FDR)=0.043) and PPAR (P=0.006, FDR=0.08). Quantitative real-time polymerase chain reaction validated the microarray findings and the CPT1B result. These findings indicate that blood can be used as a specimen in the search for PTSD biomarkers in fatty acid metabolism and PPAR pathways, and, in addition, that CPT1B may contribute to the pathology of PTSD.

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Stanley E. Smerin

Pudendal-to-bladder reflex in chronic spinal-cord-injured cats

TASK Channels Contribute to the K⁺-Dominated Leak Current Regulating Respiratory Rhythm GenerationIn Vitro

The interaction between stressful life events and leukocyte telomere length is associated with PTSD

Mitochondria-focused gene expression profile reveals common pathways and CPT1B dysregulation in both rodent stress model and human subjects with PTSD

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Stanley E. Smerin

Pudendal-to-bladder reflex in chronic spinal-cord-injured cats

TASK Channels Contribute to the K+-Dominated Leak Current Regulating Respiratory Rhythm GenerationIn Vitro

The interaction between stressful life events and leukocyte telomere length is associated with PTSD

Mitochondria-focused gene expression profile reveals common pathways and CPT1B dysregulation in both rodent stress model and human subjects with PTSD

Contact Info

Product

Resources

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TASK Channels Contribute to the K⁺-Dominated Leak Current Regulating Respiratory Rhythm GenerationIn Vitro