Acetylcholine negatively regulates development of the neuromuscular junction through distinct cellular mechanisms

Mahru C. An; Weichun Lin; Jiefei Yang; Bertha Dominguez; Daniel Padgett; Yoshie Sugiura; Prafulla Aryal; Thomas W. Gould; Ronald W. Oppenheim; Mark E. Hester; Brian K. Kaspar; Chien Ping Ko; Kuo Fen Lee

doi:10.1073/pnas.1004956107

Acetylcholine negatively regulates development of the neuromuscular junction through distinct cellular mechanisms

Mahru C. An, Weichun Lin, Jiefei Yang, Bertha Dominguez, Daniel Padgett, Yoshie Sugiura, Prafulla Aryal, Thomas W. Gould, Ronald W. Oppenheim, Mark E. Hester, Brian K. Kaspar, Chien Ping Ko, Kuo Fen Lee

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36 Scopus citations

Abstract

Emerging evidence suggests that the neurotransmitter acetylcholine (ACh) negatively regulates the development of the neuromuscular junction, but it is not clear if ACh exerts its effects exclusively through muscle ACh receptors (AChRs). Here, we used genetic methods to remove AChRs selectively from muscle. Similar to the effects of blocking ACh biosynthesis, eliminating postsynaptic AChRs increased motor axon branching and expanded innervation territory, suggesting that ACh negatively regulates synaptic growth through postsynaptic AChRs. However, in contrast to the effects of blocking ACh biosynthesis, eliminating postsynaptic AChRs in agrin-deficient mice failed to restore deficits in pre- and postsynaptic differentiation, suggesting that ACh negatively regulates synaptic differentiation through nonpostsynaptic receptors. Consistent with this idea, the ACh agonist carbachol inhibited presynaptic specialization of motorneurons in vitro. Together, these data suggest that ACh negatively regulates axon growth and presynaptic specialization at the neuromuscular junction through distinct cellular mechanisms.

Original language	English (US)
Pages (from-to)	10702-10707
Number of pages	6
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	107
Issue number	23
DOIs	https://doi.org/10.1073/pnas.1004956107
State	Published - Jun 8 2010

Keywords

Negative regulation
Neurotransmitter
Postsynaptic
Presynaptic
Retrograde signal

ASJC Scopus subject areas

General

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10.1073/pnas.1004956107

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An, M. C., Lin, W., Yang, J., Dominguez, B., Padgett, D., Sugiura, Y., Aryal, P., Gould, T. W., Oppenheim, R. W., Hester, M. E., Kaspar, B. K., Ko, C. P., & Lee, K. F. (2010). Acetylcholine negatively regulates development of the neuromuscular junction through distinct cellular mechanisms. Proceedings of the National Academy of Sciences of the United States of America, 107(23), 10702-10707. https://doi.org/10.1073/pnas.1004956107

An, MC, Lin, W, Yang, J, Dominguez, B, Padgett, D, Sugiura, Y, Aryal, P, Gould, TW, Oppenheim, RW, Hester, ME, Kaspar, BK, Ko, CP & Lee, KF 2010, 'Acetylcholine negatively regulates development of the neuromuscular junction through distinct cellular mechanisms', Proceedings of the National Academy of Sciences of the United States of America, vol. 107, no. 23, pp. 10702-10707. https://doi.org/10.1073/pnas.1004956107

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abstract = "Emerging evidence suggests that the neurotransmitter acetylcholine (ACh) negatively regulates the development of the neuromuscular junction, but it is not clear if ACh exerts its effects exclusively through muscle ACh receptors (AChRs). Here, we used genetic methods to remove AChRs selectively from muscle. Similar to the effects of blocking ACh biosynthesis, eliminating postsynaptic AChRs increased motor axon branching and expanded innervation territory, suggesting that ACh negatively regulates synaptic growth through postsynaptic AChRs. However, in contrast to the effects of blocking ACh biosynthesis, eliminating postsynaptic AChRs in agrin-deficient mice failed to restore deficits in pre- and postsynaptic differentiation, suggesting that ACh negatively regulates synaptic differentiation through nonpostsynaptic receptors. Consistent with this idea, the ACh agonist carbachol inhibited presynaptic specialization of motorneurons in vitro. Together, these data suggest that ACh negatively regulates axon growth and presynaptic specialization at the neuromuscular junction through distinct cellular mechanisms.",

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AU - Sugiura, Yoshie

AU - Aryal, Prafulla

AU - Gould, Thomas W.

AU - Oppenheim, Ronald W.

AU - Hester, Mark E.

AU - Kaspar, Brian K.

AU - Ko, Chien Ping

AU - Lee, Kuo Fen

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N2 - Emerging evidence suggests that the neurotransmitter acetylcholine (ACh) negatively regulates the development of the neuromuscular junction, but it is not clear if ACh exerts its effects exclusively through muscle ACh receptors (AChRs). Here, we used genetic methods to remove AChRs selectively from muscle. Similar to the effects of blocking ACh biosynthesis, eliminating postsynaptic AChRs increased motor axon branching and expanded innervation territory, suggesting that ACh negatively regulates synaptic growth through postsynaptic AChRs. However, in contrast to the effects of blocking ACh biosynthesis, eliminating postsynaptic AChRs in agrin-deficient mice failed to restore deficits in pre- and postsynaptic differentiation, suggesting that ACh negatively regulates synaptic differentiation through nonpostsynaptic receptors. Consistent with this idea, the ACh agonist carbachol inhibited presynaptic specialization of motorneurons in vitro. Together, these data suggest that ACh negatively regulates axon growth and presynaptic specialization at the neuromuscular junction through distinct cellular mechanisms.

AB - Emerging evidence suggests that the neurotransmitter acetylcholine (ACh) negatively regulates the development of the neuromuscular junction, but it is not clear if ACh exerts its effects exclusively through muscle ACh receptors (AChRs). Here, we used genetic methods to remove AChRs selectively from muscle. Similar to the effects of blocking ACh biosynthesis, eliminating postsynaptic AChRs increased motor axon branching and expanded innervation territory, suggesting that ACh negatively regulates synaptic growth through postsynaptic AChRs. However, in contrast to the effects of blocking ACh biosynthesis, eliminating postsynaptic AChRs in agrin-deficient mice failed to restore deficits in pre- and postsynaptic differentiation, suggesting that ACh negatively regulates synaptic differentiation through nonpostsynaptic receptors. Consistent with this idea, the ACh agonist carbachol inhibited presynaptic specialization of motorneurons in vitro. Together, these data suggest that ACh negatively regulates axon growth and presynaptic specialization at the neuromuscular junction through distinct cellular mechanisms.

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Acetylcholine negatively regulates development of the neuromuscular junction through distinct cellular mechanisms

Abstract

Keywords

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