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Brain region–specific neural activation by low-dose opioid promotes social behavior
Soichiro Ohnami, Megumi Naito, Haruki Kawase, Momoko Higuchi, Shigeru Hasebe, Keiko Takasu, Ryo Kanemaru, Yuki Azuma, Rei Yokoyama, Takahiro Kochi, Eiji Imado, Takeru Tahara, Yaichiro Kotake, Satoshi Asano, Naoya Oishi, Kazuhiro Takuma, Hitoshi Hashimoto, Koichi Ogawa, Atsushi Nakamura, Hidekuni Yamakawa, Yukio Ago
Soichiro Ohnami, Megumi Naito, Haruki Kawase, Momoko Higuchi, Shigeru Hasebe, Keiko Takasu, Ryo Kanemaru, Yuki Azuma, Rei Yokoyama, Takahiro Kochi, Eiji Imado, Takeru Tahara, Yaichiro Kotake, Satoshi Asano, Naoya Oishi, Kazuhiro Takuma, Hitoshi Hashimoto, Koichi Ogawa, Atsushi Nakamura, Hidekuni Yamakawa, Yukio Ago
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Research Article Neuroscience Therapeutics

Brain region–specific neural activation by low-dose opioid promotes social behavior

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Abstract

The opioid system plays crucial roles in modulating social behaviors in both humans and animals. However, the pharmacological profiles of opioids regarding social behavior and their therapeutic potential remain unclear. Multiple pharmacological, behavioral, and immunohistological c-Fos mapping approaches were used to characterize the effects of μ-opioid receptor agonists on social behavior and investigate the mechanisms in naive mice and autism spectrum disorder–like (ASD-like) mouse models, such as prenatally valproic acid–treated mice and Fmr1-KO mice. Here, we report that low-dose morphine, a μ-opioid receptor agonist, promoted social behavior by selectively activating neurons in prosocial brain regions, including the nucleus accumbens, but not those in the dorsomedial periaqueductal gray (dmPAG), which are only activated by analgesic high-dose morphine. Critically, intra-dmPAG morphine injection counteracted the prosocial effect of low-dose morphine, suggesting that dmPAG neural activation suppresses social behavior. Moreover, buprenorphine, a μ-opioid receptor partial agonist with less abuse liability and a well-established safety profile, ameliorated social behavior deficits in two mouse models recapitulating ASD symptoms by selectively activating prosocial brain regions without dmPAG neural activation. Our findings highlight the therapeutic potential of brain region–specific neural activation induced by low-dose opioids for social behavior deficits in ASD.

Authors

Soichiro Ohnami, Megumi Naito, Haruki Kawase, Momoko Higuchi, Shigeru Hasebe, Keiko Takasu, Ryo Kanemaru, Yuki Azuma, Rei Yokoyama, Takahiro Kochi, Eiji Imado, Takeru Tahara, Yaichiro Kotake, Satoshi Asano, Naoya Oishi, Kazuhiro Takuma, Hitoshi Hashimoto, Koichi Ogawa, Atsushi Nakamura, Hidekuni Yamakawa, Yukio Ago

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Figure 5

Brain area–specific activation by systemic buprenorphine administration in VPA-treated mice.

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Brain area–specific activation by systemic buprenorphine administration ...
Male offspring born to mothers injected with valproic acid (500 mg/kg, intraperitoneal) were subjected to immunohistochemical analysis at 8 weeks of age. Buprenorphine (3 or 30 μg/kg) or vehicle was s.c. administered 1.5 hours before sampling the brain. (A) Representative images of c-Fos–immunostained brain sections containing the NAc, mPFC, VTA, and dorsal PAG. Scale bar: 100 μm. (B–G) Quantification of c-Fos–positive cells in each brain region. The results in the NAc (B, 21–24 sections/group from 4 mice/group), mPFC (C, 8–22 sections/group from 3–7 mice/group), VTA (D, 12–13 sections/group from 2 mice/group), dmPAG (E, 29–40 sections/group from 6 mice/group), dlPAG (F, 29–40 sections/group from 6 mice/group), and lPAG (G, 29–40 sections/group from 6 mice/group) are shown. Data are shown as the mean ± SEM. *P < 0.05, ***P < 0.001, by parametric (B and D) or nonparametric (C and E–G) tests compared with vehicle-treated mice. Bup, buprenorphine; NAc, nucleus accumbens, mPFC, medial prefrontal cortex; VTA, ventral tegmental area; dmPAG, dorsomedial periaqueductal gray; dlPAG, dorsolateral periaqueductal gray; lPAG, lateral periaqueductal gray.

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