Diurnal fluctuation in the number of hypocretin/orexin and histamine producing: Implication for understanding and treating neuronal loss

Diurnal fluctuation in the number of hypocretin/orexin and histamine producing: Implication for understanding and treating neuronal loss

The loss of specific neuronal phenotypes, as determined by immunohistochemistry, has become a powerful tool for identifying the nature and cause of neurological diseases. Here we show that the number of neurons identified and quantified using this method misses a substantial percentage of extant neu...

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Bibliographic Details
Published in:PloS one Vol. 12; no. 6; p. e0178573
Main Authors: McGregor, Ronald, Shan, Ling, Wu, Ming-Fung, Siegel, Jerome M
Format: Journal Article
Language:English
Published: United States Public Library of Science 01-06-2017
Public Library of Science (PLoS)
Subjects:
Acetylcholine
Acetyltransferase
Addition polymerization
Animals
Biology and Life Sciences
Brain
Brain research
Care and treatment
Cell size
Chemical properties
Choline
Choline O-acetyltransferase
Choline O-Acetyltransferase - metabolism
Circadian Rhythm
Colchicine
Colchicine - administration & dosage
Diseases
Diurnal
Diurnal variations
Health care policy
Histamine
Histamine - biosynthesis
Histidine
Histidine decarboxylase
Histidine Decarboxylase - metabolism
Hypothalamic Hormones - metabolism
Hypothalamus
Immunohistochemistry
Light
Male
Medicine and Health Sciences
Melanin
Melanin-concentrating hormone
Melanins - metabolism
Mice
Mice, Inbred C57BL
Mutation
Nervous system diseases
Neurobiology
Neurological diseases
Neurons
Neurons - cytology
Neurons - enzymology
Neurons - metabolism
Neurosciences
Night
Orexins
Orexins - biosynthesis
Physical Sciences
Physiological aspects
Pituitary Hormones - metabolism
Plastic properties
Plasticity
Polymerization
Psychiatry
Research and Analysis Methods
Sleep disorders
Transmitters
Los Angeles California
United States > US
California
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Description
Summary:The loss of specific neuronal phenotypes, as determined by immunohistochemistry, has become a powerful tool for identifying the nature and cause of neurological diseases. Here we show that the number of neurons identified and quantified using this method misses a substantial percentage of extant neurons in a phenotype specific manner. In mice, 24% more hypocretin/orexin (Hcrt) neurons are seen in the night compared to the day, and an additional 17% are seen after inhibiting microtubule polymerization with colchicine. We see no such difference between the number of MCH (melanin concentrating hormone) neurons in dark, light or colchicine conditions, despite MCH and Hcrt both being hypothalamic peptide transmitters. Although the size of Hcrt neurons did not differ between light and dark, the size of MCH neurons was increased by 15% in the light phase. The number of neurons containing histidine decarboxylase (HDC), the histamine synthesizing enzyme, was 34% greater in the dark than in the light, but, like Hcrt, cell size did not differ. We did not find a significant difference in the number or the size of neurons expressing choline acetyltransferase (ChAT), the acetylcholine synthesizing enzyme, in the horizontal diagonal band (HBD) during the dark and light conditions. As expected, colchicine treatment did not increase the number of these neurons. Understanding the function and dynamics of transmitter production within "non-visible" phenotypically defined cells has fundamental implications for our understanding of brain plasticity.
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Competing Interests: The authors have declared that no competing interests exist.
Conceptualization: RM M-FW JMS.Data curation: RM LS.Formal analysis: RM LS M-FW JMS.Funding acquisition: LS JMS.Investigation: RM LS.Methodology: RM LS JMS.Project administration: RM LS JMS.Resources: RM LS JMS.Software: RM LS JMS.Supervision: JMS.Validation: RM LS.Visualization: RM LS JMS.Writing – original draft: RM LS JMS.Writing – review & editing: RM LS JMS.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0178573