Mitochondrial oxidant stress in locus coeruleus is regulated by activity and nitric oxide synthase

Sánchez-Padilla, Javier; Guzmán, Josefina; Ilijić, Ema; Kondapalli, Jyothisri; Galtieri, Daniel; Yang, Ben; Schieber, Simon; Oertel, Wolfgang H.; Wokosin, David L.; Schumacker, Paul T.; Surmeier, D. James

doi:10.1038/nn.3717

Cited by 155 publications

(178 citation statements)

References 49 publications

(97 reference statements)

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“…Notably, mutations in the DJ-1 gene are responsible for a familial form of PD. Similar effects of calcium currents on mitochondrial oxidation were recently identified in other dopaminergic circuits (Goldberg et al, 2012;Sanchez-Padilla et al, 2014) affected in PD.…”

Section: Insights From Redox Imaging In Micesupporting

confidence: 78%

Redox imaging using genetically encoded redox indicators in zebrafish and mice

Breckwoldt¹,

Wittmann

Misgeld³

et al. 2015

Biological Chemistry

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Redox signals have emerged as important regulators of cellular physiology and pathology. The advent of redox imaging in vertebrate systems now provides the opportunity to dynamically visualize redox signaling during development and disease. In this review, we summarize recent advances in the generation of genetically encoded redox indicators (GERIs), introduce new redox imaging strategies, and highlight key publications in the field of vertebrate redox imaging. We also discuss the limitations and future potential of in vivo redox imaging in zebrafish and mice.

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Section: Insights From Redox Imaging In Micesupporting

confidence: 78%

Redox imaging using genetically encoded redox indicators in zebrafish and mice

Breckwoldt¹,

Wittmann

Misgeld³

et al. 2015

Biological Chemistry

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“…One factor is their high bioenergetic need. Perhaps as part of mechanisms that insure maintained operation during essential physiological functions, LC neurons maintain their spiking rate even when glutamate and GABA inputs are blocked [98]. L-type Ca 2+ channels enhance the reliability of this autonomous spiking, but at the cost of increased mitochondrial oxidant stress [98].…”

Section: Lc Neuropathology In Agingmentioning

confidence: 99%

The Locus Coeruleus: Essential for Maintaining Cognitive Function and the Aging Brain

Mather

Harley

2016

Trends in Cognitive Sciences

379

313

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Research on cognitive aging has focused on how decline in various cortical and hippocampal regions influence cognition. However, brainstem regions play essential modulatory roles, and new evidence suggests that among these, the integrity of the locus coeruleus-norepinephrine system plays a key role in determining late life cognitive abilities. The locus coeruleus is especially vulnerable to toxins and infection and is often the first place Alzheimer’s related pathology appears, with most people showing at least some tau pathology by their mid-twenties. On the other hand, norepinephrine released from the locus coeruleus during arousing, mentally challenging or novel situations helps protect neurons from damage, which may help explain how education and engaging careers prevent cognitive decline in later years.

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“…For example, VTA DA neurons, which are significantly less vulnerable than SNc DA neurons (see above), are autonomous pacemakers with broad spikes, but have smaller Cav1 channel currents and strong intrinsic Ca 2+ buffering (Guzman et al, 2009; Khaliq et al, 2010). Although there have been very few studies that have examined these features in other at-risk neurons, those that have (LC, DMV, PPN) show that this phenotype is largely shared (Goldberg et al, 2012; Kang and Kitai, 1990; Sánchez-Padilla et al, 2014). …”

Section: The Rationale For a Cav1 Ca2+ Channel Inhibitormentioning

confidence: 99%

“…Ca1.3 channels, because they activate at sub-threshold membrane potentials, are critical to this function (Guzman et al, 2009; Helton et al, 2005; Puopolo et al, 2007). Second, although less well established, they promote Ca 2+ entry into mitochondria, oxidative phosphorylation (OXPHOS) and the production of ATP (Guzman et al, 2010; Llorente-Folch et al, 2015; Sánchez-Padilla et al, 2014). In principle, this feed-forward control of OXPHOS helps to ensure that bioenergetic needs are met (Balaban, 2009; Nicholls, 1998) and that intracellular ATP levels do not fall into a range that would trigger protective activation of K-ATP channels and cessation of on-going activity (Dragicevic et al, 2015).…”

Section: The Rationale For a Cav1 Ca2+ Channel Inhibitormentioning

confidence: 99%

“…First, stimulating OXPHOS when mitochondria are hyperpolarized in the absence of strong ATP demand increases the production of reactive oxygen species (ROS) and reactive nitrogen species (RNS) (Goldberg et al, 2012; Guzman et al, 2010; Sánchez-Padilla et al, 2014; Votyakova and Reynolds, 2001). ROS and RNS damage proteins, lipids and DNA, particularly in mitochondria.…”

Section: The Rationale For a Cav1 Ca2+ Channel Inhibitormentioning

confidence: 99%

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Calcium, mitochondrial dysfunction and slowing the progression of Parkinson's disease

Surmeier

Halliday

Simuni

2017

Experimental Neurology

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Parkinson’s disease is characterized by progressively distributed Lewy pathology and neurodegeneration. The motor symptoms of cPD are unequivocally linked to the degeneration of dopaminergic neurons in the substantia nigra pars compacta (SNc). Several features of these neurons appear to make them selectively vulnerable to factors thought to cause cPD, like aging, genetic mutations and environmental toxins. Among these features, Ca2+ entry through Cav1 channels is particularly amenable to pharmacotherapy in early stage cPD patients. This review outlines the linkage between these channels, mitochondrial oxidant stress and cPD pathogenesis. It also summarizes considerations that went into the design and execution of the ongoing Phase 3 clinical trial with an inhibitor of these channels – isradipine.

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Mitochondrial oxidant stress in locus coeruleus is regulated by activity and nitric oxide synthase

Cited by 155 publications

References 49 publications

Redox imaging using genetically encoded redox indicators in zebrafish and mice

Redox imaging using genetically encoded redox indicators in zebrafish and mice

The Locus Coeruleus: Essential for Maintaining Cognitive Function and the Aging Brain

Calcium, mitochondrial dysfunction and slowing the progression of Parkinson's disease

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