AUTHOR=Wood Ellen A. , Stopka Sylwia A. , Zhang Linwen , Mattson Sara , Maasz Gabor , Pirger Zsolt , Vertes Akos 

TITLE=Neuropeptide Localization in Lymnaea stagnalis: From the Central Nervous System to Subcellular Compartments

JOURNAL=Frontiers in Molecular Neuroscience

VOLUME=14

YEAR=2021

URL=https://www.frontiersin.org/journals/molecular-neuroscience/articles/10.3389/fnmol.2021.670303

DOI=10.3389/fnmol.2021.670303

ISSN=1662-5099

ABSTRACT=<p>Due to the relatively small number of neurons (few tens of thousands), the well-established multipurpose model organism <italic>Lymnaea stagnalis</italic>, great pond snail, has been extensively used to study the functioning of the nervous system. Unlike the more complex brains of higher organisms, <italic>L. stagnalis</italic> has a relatively simple central nervous system (CNS) with well-defined circuits (e.g., feeding, locomotion, learning, and memory) and identified individual neurons (e.g., cerebral giant cell, CGC), which generate behavioral patterns. Accumulating information from electrophysiological experiments maps the network of neuronal connections and the neuronal circuits responsible for basic life functions. Chemical signaling between synaptic-coupled neurons is underpinned by neurotransmitters and neuropeptides. This review looks at the rapidly expanding contributions of mass spectrometry (MS) to neuropeptide discovery and identification at different granularity of CNS organization. Abundances and distributions of neuropeptides in the whole CNS, eleven interconnected ganglia, neuronal clusters, single neurons, and subcellular compartments are captured by MS imaging and single cell analysis techniques. Combining neuropeptide expression and electrophysiological data, and aided by genomic and transcriptomic information, the molecular basis of CNS-controlled biological functions is increasingly revealed.</p>