Retrograde optogenetic characterization of the pontospinal module of the locus coeruleus with a canine adenoviral vector

Li, Yong; Hickey, Louise; Perrins, R; Werlen, Emilie; Patel, Amisha A; Hirschberg, Stefan; Jones, Matthew W.; Salinas, Sara; Kremer, Eric J.; Pickering, Anthony E.

doi:10.1016/j.brainres.2016.02.023

Cited by 92 publications

(154 citation statements)

References 49 publications

(88 reference statements)

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“…We first examined if activation of the LC-NE neurons using electrical microstimulation would alter cortical arousal by shifting the power spectrum of cortical EEG, as had been previously shown using pharmacological compounds (Berridge and Foote, 1991; Steriade et al, 1993; Vazey and Aston-Jones, 2014) and photostimulation (Li et al, 2016). Consistent with previous work, brief electrical microstimulation (50 Hz, 6 biphasic current pulses, 200 µs per phase, 60 or 120 µA amplitude) of the LC induced the EEG power spectrum to shift towards higher frequencies (Figure 3A), quantifiable by an increase in the ratio of 10–100 Hz to 1–10 Hz power ( p < 0.02, Wilcoxon signed-rank test, Figure 3B).…”

Section: Resultsmentioning

confidence: 99%

Dynamic Lateralization of Pupil Dilation Evoked by Locus Coeruleus Activation Results from Sympathetic, Not Parasympathetic, Contributions

et al. 2017

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SUMMARY Pupil size is collectively controlled by the sympathetic dilator and parasympathetic sphincter muscles. Locus coeruleus (LC) activation has been shown to evoke pupil dilation, yet how the sympathetic and parasympathetic pathways contribute to this dilation remains unknown. We examined pupil dilation elicited by LC activation in lightly anesthetized rats. Unilateral LC activation evoked bilateral, yet lateralized pupil dilation, i.e, the ipsilateral dilation was significantly larger than the contralateral dilation. Surgically blocking the ipsilateral, but not contralateral, sympathetic pathway significantly reduced lateralization, suggesting lateralization is mainly due to sympathetic contribution. Moreover, we found that sympathetic, but not parasympathetic, contribution is correlated with LC activation frequency. Together, our results unveiled the frequency-dependent contributions of the sympathetic and parasympathetic pathways to LC-activation-evoked pupil dilation, and suggest that lateralization in task-evoked pupil dilations may be used as a biomarker for autonomic tone.

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Section: Resultsmentioning

confidence: 99%

Dynamic Lateralization of Pupil Dilation Evoked by Locus Coeruleus Activation Results from Sympathetic, Not Parasympathetic, Contributions

et al. 2017

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“…For example, pathway specific manipulation may be achieved using two vectors by infusing a retrograde canine adenovirus-2 into a target region (e.g., mPFC) to deliver Cre-recombinase and an adeno-associated virus carrying a designer receptor into a target region that projects to the first region (e.g., VH) (Boender et al, 2014). Likewise, optogenetics also allows for similar pathway specific manipulation (Li et al, 2016; Walsh et al, 2012). The temporal resolution provided by optogenetics may be particularly useful given the defined CS-US onset-offset parameters of trace conditioning.…”

Section: Future Studiesmentioning

confidence: 99%

The role of working memory and declarative memory in trace conditioning

Connor

Gould

2016

Neurobiology of Learning and Memory

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Translational assays of cognition that are similarly implemented in both lower and higher-order species, such as rodents and primates, provide a means to reconcile preclinical modeling of psychiatric neuropathology and clinical research. To this end, Pavlovian conditioning has provided a useful tool for investigating cognitive processes in both lab animal models and humans. This review focuses on trace conditioning, a form of Pavlovian conditioning typified by the insertion of a temporal gap (i.e., trace interval) between presentations of a conditioned stimulus (CS) and an unconditioned stimulus (US). This review aims to discuss pre-clinical and clinical work investigating the mnemonic processes recruited for trace conditioning. Much work suggests that trace conditioning involves unique neurocognitive mechanisms to facilitate formation of trace memories in contrast to standard Pavlovian conditioning. For example, the hippocampus and prefrontal cortex (PFC) appear to play critical roles in trace conditioning. Moreover, cognitive mechanistic accounts in human studies suggest that working memory and declarative memory processes are engaged to facilitate formation of trace memories. The aim of this review is to integrate cognitive and neurobiological accounts of trace conditioning from preclinical and clinical studies to examine involvement of working and declarative memory.

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“…Recent optogenetic studies have shown that focal activation of the LC, whose major inputs are from the PFC, amygdala, PAG and dorsal noradrenergic bundle, may be either pro- or anti-nociceptive, suggestive of different neuron subgroups within the LC (Hickey et al, 2014). Consistent with this, recently Li et al (2016), used a canine adenoviral vector expressing channelrhodopsin2 to target ponto-spinal NE neurons, and found a subset of ventral LC neurons with spinal projections that is likely involved in the regulation of nociception. Interestingly, this subgroup of LC neurons had lower average firing rate than other noradrenergic neurons of the LC.…”

Section: Discussionmentioning

confidence: 68%

“…Most evidence available supports the PAG as a useful stimulation target (Pereira and Aziz, 2014). In addition to ascending somatosensory projections, the PAG receives significant inputs from the prefrontal cortex (PFC) and amygdala and then projects to nucleus raphe magnus (NRM) and locus coeruleus (LC) in the midbrain and dorsal horn neurons in the spinal cord (Van Bockstaele et al, 1991; Li et al, 2016). Recent case series on DBS for chronic neuropathic pain, which have utilized superior targeting methods compared to earlier studies and multi-day trials with an externalized electrode prior to final implantation, suggest clinically-relevant improvements of pain symptoms in 67%–83% of patients with heterogeneous types of pain (Boccard et al, 2013).…”

Section: Discussionmentioning

confidence: 99%

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Deep Brain Stimulation Improves the Symptoms and Sensory Signs of Persistent Central Neuropathic Pain from Spinal Cord Injury: A Case Report

Jermakowicz

Hentall

Jagid

et al. 2017

Front. Hum. Neurosci.

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Central neuropathic pain (CNP) is a significant problem after spinal cord injury (SCI). Pharmacological and non-pharmacological approaches may reduce the severity, but relief is rarely substantial. While deep brain stimulation (DBS) has been used to treat various chronic pain types, the technique has rarely been used to attenuate CNP after SCI. Here we present the case of a 54-year-old female with incomplete paraplegia who had severe CNP in the lower limbs and buttock areas since her injury 30 years prior. She was treated with bilateral DBS of the midbrain periaqueductal gray (PAG). The effects of this stimulation on CNP characteristics, severity and pain-related sensory function were evaluated using the International SCI Pain Basic Data Set (ISCIPBDS), Neuropathic Pain Symptom Inventory (NPSI), Multidimensional Pain Inventory and Quantitative Sensory Testing before and periodically after initiation of DBS. After starting DBS treatment, weekly CNP severity ratings rapidly decreased from severe to minimal, paralleled by a substantial reduction in size of the painful area, reduced pain impact and reversal of pain-related neurological abnormalities, i.e., dynamic-mechanical and cold allodynia. She discontinued pain medication on study week 24. The improvement has been consistent. The present study expands on previous findings by providing in-depth assessments of symptoms and signs associated with CNP. The results of this study suggest that activation of endogenous pain inhibitory systems linked to the PAG can eliminate CNP in some people with SCI. More research is needed to better-select appropriate candidates for this type of therapy. We discuss the implications of these findings for understanding the brainstem’s control of chronic pain and for future progress in using analgesic DBS in the central gray.

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Retrograde optogenetic characterization of the pontospinal module of the locus coeruleus with a canine adenoviral vector

Cited by 92 publications

References 49 publications

Dynamic Lateralization of Pupil Dilation Evoked by Locus Coeruleus Activation Results from Sympathetic, Not Parasympathetic, Contributions

Dynamic Lateralization of Pupil Dilation Evoked by Locus Coeruleus Activation Results from Sympathetic, Not Parasympathetic, Contributions

The role of working memory and declarative memory in trace conditioning

Deep Brain Stimulation Improves the Symptoms and Sensory Signs of Persistent Central Neuropathic Pain from Spinal Cord Injury: A Case Report

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