Nobuyuki Kagami

Publications (4)10.02 Total impact

• Article: Neuroprotective effect of endogenous pituitary adenylate cyclase-activating polypeptide on spinal cord injury.

  Daisuke Tsuchikawa, Tomoya Nakamachi, Masashi Tsuchida, Yoshihiro Wada, Motohide Hori, Jozsef Farkas, Akira Yoshikawa, Nobuyuki Kagami, Nori Imai, Norihito Shintani, Hitoshi Hashimoto, Takashi Atsumi, Seiji Shioda
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  ABSTRACT: Pituitary adenylate cyclase-activating polypeptide (PACAP) is a neuroprotective peptide expressed in the central nervous system. To date, changes in the expression and effect of endogenous PACAP have not been clarified with respect to spinal cord injury (SCI). The aim of this study was to elucidate the expression pattern and function of endogenous PACAP on the contusion model of SCI using heterozygous PACAP knockout (PACAP(+/-)) and wild-type mice. Real-time polymerase chain reaction methods revealed that the level of PACAP mRNA increased gradually for 14 days after SCI and that PAC1R mRNA levels also increased for 7 days compared with intact control mice. PACAP and PAC1R immunoreactivities colabeled with a neuronal marker in the intact spinal cord. Seven days after SCI, PAC1R immunoreactivity was additionally co-expressed with an astrocyte marker. Wild-type mice gradually recovered motor function after 14 days, but PACAP(+/-) mice showed significantly impaired recovery from 3 days compared with wild-type mice. The injury volume at day 7 in PACAP(+/-) mice, and the number of single-stranded DNA-immunopositive cells as a marker of neuronal cell death at day 3 were significantly higher than values measured in wild-type mice. These data suggest that endogenous PACAP is upregulated by SCI and has a neuroprotective effect on the damaged spinal cord.
  Journal of Molecular Neuroscience 06/2012; 48(3):508-17. · 2.50 Impact Factor
• Article: IL-6 and PACAP Receptor Expression and Localization after Global Brain Ischemia in Mice.

  Tomoya Nakamachi, Masashi Tsuchida, Nobuyuki Kagami, Sachiko Yofu, Yoshihiro Wada, Motohide Hori, Daisuke Tsuchikawa, Akira Yoshikawa, Nori Imai, Keisuke Nakamura, Satoru Arata, Seiji Shioda
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  ABSTRACT: Pituitary adenylate cyclase-activating polypeptide (PACAP) exerts a neuroprotective action against ischemic damage. This action is mediated by the interleukin-6 (IL-6) pathway. However, as the expression patterns of PACAP receptors and IL-6 following ischemia are not understood, we evaluated them in the mouse hippocampus in response to ischemia induced by bilateral common carotid artery occlusion. Real-time PCR determination of PAC1R mRNA expression in the hippocampus was significantly elevated on day 7 after ischemia. VPAC1R mRNA expression was significantly decreased 3 days after the ischemic episode, while VPAC2R mRNA expression showed a nonsignificant tendency to increase on day 7. IL-6 mRNA expression was significantly increased on day 3 and peaked on day 7 after ischemia. The mRNA expression of activity-dependent neuroprotective protein, which is a neuroprotective factor stimulated by PACAP, remained virtually unchanged in response to ischemia. IL-6 immunoreactivity was detected in the CA1 pyramidal cell layer and colocalized with the neuronal marker NeuN on day 1 after ischemia. On day 3, irregularly shaped IL-6-immunopositive cells colocalized with the astrocytic marker glial fibrillary acidic protein but not with the microglial marker Iba1. PAC1R immunoreactivity co-labeled with IL-6 immunoreactivity. These results suggest that PACAP could stimulate IL-6 secretion by neurons during the acute phase after an ischemic episode and thereafter by astrocytes during the subacute phase.
  Journal of Molecular Neuroscience 06/2012; 48(3):518-25. · 2.50 Impact Factor
• Article: Pituitary adenylate cyclase-activating polypeptide (PACAP) stimulates proliferation of reactive astrocytes in vitro.

  Tomoya Nakamachi, Keisuke Nakamura, Kanako Oshida, Nobuyuki Kagami, Hiroyoshi Mori, Jun Watanabe, Satoru Arata, Sachiko Yofu, Kimi Endo, Yoshihiro Wada, Motohide Hori, Daisuke Tsuchikawa, Makoto Kato, Seiji Shioda
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  ABSTRACT: Pituitary adenylate cyclase-activating polypeptide (PACAP) is a neuropeptide originally isolated from ovine hypothalamus. Recently, we have shown that the PACAP receptor (PAC1-R) is expressed in reactive astrocytes following an in vivo stub wound brain injury. However, the functional role of PACAP has not yet been clarified. In order to investigate the effect of PACAP on the proliferation of reactive astrocytes, a scratch wound paradigm was applied to astrocytic monolayers. Following injury, there was an increase in PAC1-R and glial fibrillary acidic protein (GFAP) immunoreactivity in the astrocytes surrounding the scratch line. PACAP at concentrations of 10(-15) to 10(-7) M was applied immediately after scratching, and the proliferating astrocytes were visualized by multiple immunofluorescence labeling. The percentage of cells that colabeled for Ki67 (a marker of proliferating cells) and GFAP increased in the 10(-11)- and 10(-13)-M PACAP-treated groups. The proliferating astrocytes induced by PACAP treatment mainly occurred in the proximal wound area where many reactive astrocytes were observed. Pretreatment with the PACAP receptor antagonist PACAP6-38 significantly suppressed the PACAP-induced effects. These results strongly suggest that PACAP plays an important role in the proliferation of reactive astrocytes following nerve injury.
  Journal of Molecular Neuroscience 01/2011; 43(1):16-21. · 2.50 Impact Factor
• Article: Neuroprotective effect of PACAP against NMDA-induced retinal damage in the mouse.

  Kimi Endo, Tomoya Nakamachi, Tamotsu Seki, Nobuyuki Kagami, Yoshihiro Wada, Keisuke Nakamura, Koji Kishimoto, Motohide Hori, Daisuke Tsuchikawa, Norihito Shinntani, Hitoshi Hashimoto, Akemichi Baba, Ryohei Koide, Seiji Shioda
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  ABSTRACT: Retinal excitotoxicity is one of the major causes of retinal ganglion cell (RGC) death in glaucoma. Pituitary adenylate cyclase-activating polypeptide (PACAP) is a pleiotropic peptide with potent neuroprotective activity; however, whether it exerts such an effect in the retina and the mechanism by which RGCs are protected is still not well understood. In this study, we examined the effect of exogenous and endogenous PACAP on RGC death induced by N-methyl-D: -aspartate acid (NMDA). The vitreous body of anesthetized adult male mice (C57/BL6J) was injected with NMDA (40 nmol in a 2 μL saline solution). The number of RGCs decreased from days 1 to 7 after NMDA injection, and the number of dUTP end-labeling (TUNEL)-positive cells, an indicator of cell death, peaked at day 3. However, when PACAP38 (10(-8), 10(-10), 10(-12), 10(-14), or 10(-16)M) was co-administered with NMDA, the 10(-10)M dose resulted in significantly increased RGC survival at day 7, and a decrease in the number of TUNEL-positive RGCs at day 3. We next investigated the neuroprotective effect of endogenous PACAP using PACAP heterozygote(+/-) mice. Under normal circumstances, there was no significant difference in the number of RGCs in the PACAP(+/-) mice compared with their wild-type counterparts. However, the number of RGCs significantly decreased in the PACAP(+/-) mice 7 days after NMDA injection, relative to their wild-type counterparts. The number of TUNEL-positive RGCs peaked at day 1 in the PACAP(+/-) mice. These effects in the PACAP(+/-) mice were reversed by intravitreous injection of 10(-10)M PACAP38. This suggests that exogenous PACAP is able to counteract NMDA-induced toxicity, and that endogenous PACAP exerts a neuroprotective effect in the retina.
  Journal of Molecular Neuroscience 01/2011; 43(1):22-9. · 2.50 Impact Factor