Morphine and Naloxone Facilitate Neural Stem Cells Proliferation via a TET1-Dependent and Receptor-Independent Pathway

Normally, opioids function in a receptor-dependent manner. They bind to opioid receptors, activate or inhibit receptor activation, and subsequently modulate downstream signal transduction. However, the complex functions of opioids and the low expression of opioid receptors and their endogenous pepti...

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Published inCell reports (Cambridge) Vol. 30; no. 11; pp. 3625 - 3631.e6
Main Authors Liang, Lining, Chen, Jinlong, Li, Yuan, Lai, Xiaowei, Sun, Hao, Li, Changpeng, Zhang, Mengdan, Yang, Tingting, Meng, Fei, Law, Ping-Yee, Loh, Horace H., Zheng, Hui
Format Journal Article
LanguageEnglish
Published United States Elsevier Inc 17.03.2020
Elsevier
Subjects
Animals
Cell Proliferation - drug effects
DNA Demethylation - drug effects
DNA-Binding Proteins - metabolism
Mice, Inbred ICR
morphine
Morphine - pharmacology
naloxone
Naloxone - pharmacology
neural stem cells
Neural Stem Cells - cytology
Neural Stem Cells - drug effects
Neural Stem Cells - metabolism
proliferation
Proto-Oncogene Proteins - metabolism
receptor-independent
Receptors, Opioid - metabolism
Tet1
naloxone
Tet1
receptor-independent
proliferation
neural stem cells
morphine
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Abstract Normally, opioids function in a receptor-dependent manner. They bind to opioid receptors, activate or inhibit receptor activation, and subsequently modulate downstream signal transduction. However, the complex functions of opioids and the low expression of opioid receptors and their endogenous peptide agonists in neural stem cells (NSCs) suggest that some opioids may also modulate NSCs via a receptor-independent pathway. In the current study, two opioids, morphine and naloxone, are demonstrated to facilitate NSC proliferation via a receptor-independent and ten-eleven translocation methylcytosine dioxygenase 1 (TET1)-dependent pathway. Morphine and naloxone penetrate cell membrane, bind to TET1 protein via three key residues (1,880–1,882), and subsequently result in facilitated proliferation of NSCs. In addition, the two opioids also inhibit the DNA demethylation ability of TET1. In summary, the current results connect opioids and DNA demethylation directly at least in NSCs and extend our understanding on both opioids and NSCs. [Display omitted] •Naloxone and morphine facilitate NSC proliferation in a receptor-independent manner•Naloxone and morphine facilitate NSC proliferation in a Tet1-dependent manner•Naloxone and morphine bind TET1•Naloxone and morphine decrease the DNA demethylation activity of TET1 Liang et al. demonstrate a receptor-independent and Tet1-dependent pathway used by opioids naloxone and morphine to facilitate the proliferation of NSCs. The binding of naloxone and morphine to TET1 suggests that DNA methylation should be considered when studying the tolerance- and addiction-induced opioids.
AbstractList Normally, opioids function in a receptor-dependent manner. They bind to opioid receptors, activate or inhibit receptor activation, and subsequently modulate downstream signal transduction. However, the complex functions of opioids and the low expression of opioid receptors and their endogenous peptide agonists in neural stem cells (NSCs) suggest that some opioids may also modulate NSCs via a receptor-independent pathway. In the current study, two opioids, morphine and naloxone, are demonstrated to facilitate NSC proliferation via a receptor-independent and ten-eleven translocation methylcytosine dioxygenase 1 (TET1)-dependent pathway. Morphine and naloxone penetrate cell membrane, bind to TET1 protein via three key residues (1,880–1,882), and subsequently result in facilitated proliferation of NSCs. In addition, the two opioids also inhibit the DNA demethylation ability of TET1. In summary, the current results connect opioids and DNA demethylation directly at least in NSCs and extend our understanding on both opioids and NSCs. : Liang et al. demonstrate a receptor-independent and Tet1-dependent pathway used by opioids naloxone and morphine to facilitate the proliferation of NSCs. The binding of naloxone and morphine to TET1 suggests that DNA methylation should be considered when studying the tolerance- and addiction-induced opioids. Keywords: neural stem cells, naloxone, morphine, Tet1, receptor-independent, proliferation
Normally, opioids function in a receptor-dependent manner. They bind to opioid receptors, activate or inhibit receptor activation, and subsequently modulate downstream signal transduction. However, the complex functions of opioids and the low expression of opioid receptors and their endogenous peptide agonists in neural stem cells (NSCs) suggest that some opioids may also modulate NSCs via a receptor-independent pathway. In the current study, two opioids, morphine and naloxone, are demonstrated to facilitate NSC proliferation via a receptor-independent and ten-eleven translocation methylcytosine dioxygenase 1 (TET1)-dependent pathway. Morphine and naloxone penetrate cell membrane, bind to TET1 protein via three key residues (1,880-1,882), and subsequently result in facilitated proliferation of NSCs. In addition, the two opioids also inhibit the DNA demethylation ability of TET1. In summary, the current results connect opioids and DNA demethylation directly at least in NSCs and extend our understanding on both opioids and NSCs.Normally, opioids function in a receptor-dependent manner. They bind to opioid receptors, activate or inhibit receptor activation, and subsequently modulate downstream signal transduction. However, the complex functions of opioids and the low expression of opioid receptors and their endogenous peptide agonists in neural stem cells (NSCs) suggest that some opioids may also modulate NSCs via a receptor-independent pathway. In the current study, two opioids, morphine and naloxone, are demonstrated to facilitate NSC proliferation via a receptor-independent and ten-eleven translocation methylcytosine dioxygenase 1 (TET1)-dependent pathway. Morphine and naloxone penetrate cell membrane, bind to TET1 protein via three key residues (1,880-1,882), and subsequently result in facilitated proliferation of NSCs. In addition, the two opioids also inhibit the DNA demethylation ability of TET1. In summary, the current results connect opioids and DNA demethylation directly at least in NSCs and extend our understanding on both opioids and NSCs.
Normally, opioids function in a receptor-dependent manner. They bind to opioid receptors, activate or inhibit receptor activation, and subsequently modulate downstream signal transduction. However, the complex functions of opioids and the low expression of opioid receptors and their endogenous peptide agonists in neural stem cells (NSCs) suggest that some opioids may also modulate NSCs via a receptor-independent pathway. In the current study, two opioids, morphine and naloxone, are demonstrated to facilitate NSC proliferation via a receptor-independent and ten-eleven translocation methylcytosine dioxygenase 1 (TET1)-dependent pathway. Morphine and naloxone penetrate cell membrane, bind to TET1 protein via three key residues (1,880–1,882), and subsequently result in facilitated proliferation of NSCs. In addition, the two opioids also inhibit the DNA demethylation ability of TET1. In summary, the current results connect opioids and DNA demethylation directly at least in NSCs and extend our understanding on both opioids and NSCs. [Display omitted] •Naloxone and morphine facilitate NSC proliferation in a receptor-independent manner•Naloxone and morphine facilitate NSC proliferation in a Tet1-dependent manner•Naloxone and morphine bind TET1•Naloxone and morphine decrease the DNA demethylation activity of TET1 Liang et al. demonstrate a receptor-independent and Tet1-dependent pathway used by opioids naloxone and morphine to facilitate the proliferation of NSCs. The binding of naloxone and morphine to TET1 suggests that DNA methylation should be considered when studying the tolerance- and addiction-induced opioids.
Normally, opioids function in a receptor-dependent manner. They bind to opioid receptors, activate or inhibit receptor activation, and subsequently modulate downstream signal transduction. However, the complex functions of opioids and the low expression of opioid receptors and their endogenous peptide agonists in neural stem cells (NSCs) suggest that some opioids may also modulate NSCs via a receptor-independent pathway. In the current study, two opioids, morphine and naloxone, are demonstrated to facilitate NSC proliferation via a receptor-independent and ten-eleven translocation methylcytosine dioxygenase 1 (TET1)-dependent pathway. Morphine and naloxone penetrate cell membrane, bind to TET1 protein via three key residues (1,880-1,882), and subsequently result in facilitated proliferation of NSCs. In addition, the two opioids also inhibit the DNA demethylation ability of TET1. In summary, the current results connect opioids and DNA demethylation directly at least in NSCs and extend our understanding on both opioids and NSCs.
Author Li, Yuan
Law, Ping-Yee
Zhang, Mengdan
Li, Changpeng
Zheng, Hui
Liang, Lining
Loh, Horace H.
Chen, Jinlong
Lai, Xiaowei
Sun, Hao
Meng, Fei
Yang, Tingting
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Issue 11
Keywords naloxone
Tet1
receptor-independent
proliferation
neural stem cells
morphine
Language English
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Snippet Normally, opioids function in a receptor-dependent manner. They bind to opioid receptors, activate or inhibit receptor activation, and subsequently modulate...
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SubjectTerms Animals
Cell Proliferation - drug effects
DNA Demethylation - drug effects
DNA-Binding Proteins - metabolism
Mice, Inbred ICR
morphine
Morphine - pharmacology
naloxone
Naloxone - pharmacology
neural stem cells
Neural Stem Cells - cytology
Neural Stem Cells - drug effects
Neural Stem Cells - metabolism
proliferation
Proto-Oncogene Proteins - metabolism
receptor-independent
Receptors, Opioid - metabolism
Tet1
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Title Morphine and Naloxone Facilitate Neural Stem Cells Proliferation via a TET1-Dependent and Receptor-Independent Pathway
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