2020
DOI: 10.1007/s00441-020-03279-6
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The diversity of neuronal phenotypes in rodent and human autonomic ganglia

Abstract: Selective sympathetic and parasympathetic pathways that act on target organs represent the terminal actors in the neurobiology of homeostasis and often become compromised during a range of neurodegenerative and traumatic disorders. Here, we delineate several neurotransmitter and neuromodulator phenotypes found in diverse parasympathetic and sympathetic ganglia in humans and rodent species. The comparative approach reveals evolutionarily conserved and non-conserved phenotypic marker constellations. A developmen… Show more

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Cited by 16 publications
(19 citation statements)
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References 226 publications
(474 reference statements)
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“…In the peripheral nervous system, the sensory arm is essential for transducing a wide variety of environmental stimuli from the outside world to the central nervous system, while the sympathetic division relays motor commands from the central nervous system to diverse peripheral organs/tissues to mobilize the “fight or flight” response and maintain body homeostasis in response to a continuously changing environment (Goldstein, 2013; Marmigere and Ernfors, 2007; Usoskin et al, 2015). Sympathetic and sensory neurons residing in their respective peripheral ganglia are remarkably diverse with respect to morphological, molecular, and electrophysiological properties, consistent with their distinct functions (Ernsberger et al, 2020; Liu and Ma, 2011). In addition to primary neurons, sympathetic and sensory ganglia contain two major glial cell types, satellite glia and Schwann cells, which are closely associated with their neuronal neighbors and influence a wide range of neuronal functions (Hanani and Spray, 2020; Jessen and Mirsky, 2005).…”
Section: Introductionmentioning
confidence: 84%
“…In the peripheral nervous system, the sensory arm is essential for transducing a wide variety of environmental stimuli from the outside world to the central nervous system, while the sympathetic division relays motor commands from the central nervous system to diverse peripheral organs/tissues to mobilize the “fight or flight” response and maintain body homeostasis in response to a continuously changing environment (Goldstein, 2013; Marmigere and Ernfors, 2007; Usoskin et al, 2015). Sympathetic and sensory neurons residing in their respective peripheral ganglia are remarkably diverse with respect to morphological, molecular, and electrophysiological properties, consistent with their distinct functions (Ernsberger et al, 2020; Liu and Ma, 2011). In addition to primary neurons, sympathetic and sensory ganglia contain two major glial cell types, satellite glia and Schwann cells, which are closely associated with their neuronal neighbors and influence a wide range of neuronal functions (Hanani and Spray, 2020; Jessen and Mirsky, 2005).…”
Section: Introductionmentioning
confidence: 84%
“…The molecules responsible for wiring this network are to a large extent unknown. With the characterization of mouse thoracic sympathetic neurons by RNA sequencing (Furlan et al 2016 ), the expression of transcripts for synaptic organizer molecules in sympathetic piloerector neurons is available (Ernsberger et al 2020 ) that may be part of a neuron class-specific wiring code.
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Section: Key Regulatory Domains Served By the Sympathetic Nervous Systemmentioning
confidence: 99%
“…For protocadherin transcripts, several important aspects could be derived from the single cell RNA sequencing data published by Furlan et al ( 2016 ). Compared to other cell adhesion and synaptic organizer molecules, the PCDH gene family members are expressed very selectively in the different classes of sympathetic neurons (Ernsberger et al 2020 ). For PCDH17, significant transcript levels are detected only in cholinergic neurons, not in noradrenergic neurons.…”
Section: Key Regulatory Domains Served By the Sympathetic Nervous Systemmentioning
confidence: 99%
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