Direct induction of ramified microglia-like cells from human monocytes: Dynamic microglial dysfunction in Nasu-Hakola disease

Masahiro Ohgidani; Takahiro A. Kato; Daiki Setoyama; Noriaki Sagata; Ryota Hashimoto; Kazue Shigenobu; Tetsuhiko Yoshida; Kohei Hayakawa; Norihiro Shimokawa; Daisuke Miura; Hideo Utsumi; Shigenobu Kanba

doi:10.1038/srep04957

Direct induction of ramified microglia-like cells from human monocytes: Dynamic microglial dysfunction in Nasu-Hakola disease

Masahiro Ohgidani, Takahiro A. Kato, Daiki Setoyama, Noriaki Sagata, Ryota Hashimoto, Kazue Shigenobu, Tetsuhiko Yoshida, Kohei Hayakawa, Norihiro Shimokawa, Daisuke Miura, Hideo Utsumi, Shigenobu Kanba

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Abstract

Microglia have been implicated in various neurological and psychiatric disorders in rodent and human postmortem studies. However, the dynamic actions of microglia in the living human brain have not been clarified due to a lack of studies dealing with in situ microglia. Herein, we present a novel technique for developing induced microglia-like (iMG) cells from human peripheral blood cells. An optimized cocktail of cytokines, GM-CSF and IL-34, converted human monocytes into iMG cells within 14 days. The iMG cells have microglial characterizations; expressing markers, forming a ramified morphology, and phagocytic activity with various cytokine releases. To confirm clinical utilities, we developed iMG cells from a patient of Nasu-Hakola disease (NHD), which is suggested to be directly caused by microglial dysfunction, and observed that these cells from NHD express delayed but stronger inflammatory responses compared with those from the healthy control. Altogether, the iMG-technique promises to elucidate unresolved aspects of human microglia in various brain disorders.

Original language	English
Article number	4957
Journal	Scientific reports
Volume	4
DOIs	https://doi.org/10.1038/srep04957
Publication status	Published - May 14 2014

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@article{74d9020f68664cc48d1eecb233c92796,

title = "Direct induction of ramified microglia-like cells from human monocytes: Dynamic microglial dysfunction in Nasu-Hakola disease",

abstract = "Microglia have been implicated in various neurological and psychiatric disorders in rodent and human postmortem studies. However, the dynamic actions of microglia in the living human brain have not been clarified due to a lack of studies dealing with in situ microglia. Herein, we present a novel technique for developing induced microglia-like (iMG) cells from human peripheral blood cells. An optimized cocktail of cytokines, GM-CSF and IL-34, converted human monocytes into iMG cells within 14 days. The iMG cells have microglial characterizations; expressing markers, forming a ramified morphology, and phagocytic activity with various cytokine releases. To confirm clinical utilities, we developed iMG cells from a patient of Nasu-Hakola disease (NHD), which is suggested to be directly caused by microglial dysfunction, and observed that these cells from NHD express delayed but stronger inflammatory responses compared with those from the healthy control. Altogether, the iMG-technique promises to elucidate unresolved aspects of human microglia in various brain disorders.",

author = "Masahiro Ohgidani and Kato, {Takahiro A.} and Daiki Setoyama and Noriaki Sagata and Ryota Hashimoto and Kazue Shigenobu and Tetsuhiko Yoshida and Kohei Hayakawa and Norihiro Shimokawa and Daisuke Miura and Hideo Utsumi and Shigenobu Kanba",

note = "Funding Information: The authors would like to thank Ms. Mayumi Tanaka and Ms. Mayumi Inenaga for their technical assistances. We appreciate the technical support from Department of Dermatology (Prof. Masutaka Furue) and the Research Support Center, Graduate School of Medical Sciences, Kyushu University. This work was supported by Grant-in-Aid for Scientific Research on (1) the Japan Society for the Promotion of Science (to TAK, MO and SK), (2) Innovative Areas {\textquoteleft}{\textquoteleft}Glia Assembly{\textquoteright}{\textquoteright} of The Ministry of Education, Culture, Sports, Science, and Technology, Japan (No. 25117011 to SK), (3) the Health and Labour Sciences Research Grant (No. (H24-Seishin-Jitsuyouka (Seishin)-Ippan-001 to SK), (4) Young Principal Investigators{\textquoteright} Research Grant of Innovation Center for Medical Redox Navigation, Kyushu University (to TAK), (5) Takeda Science Foundation – Medical Research (to TAK), and (6) SENSHIN Medical Research Foundation (to TAK). The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.",

year = "2014",

month = may,

day = "14",

doi = "10.1038/srep04957",

language = "English",

volume = "4",

journal = "Scientific reports",

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T1 - Direct induction of ramified microglia-like cells from human monocytes

T2 - Dynamic microglial dysfunction in Nasu-Hakola disease

AU - Ohgidani, Masahiro

AU - Kato, Takahiro A.

AU - Setoyama, Daiki

AU - Sagata, Noriaki

AU - Hashimoto, Ryota

AU - Shigenobu, Kazue

AU - Yoshida, Tetsuhiko

AU - Hayakawa, Kohei

AU - Shimokawa, Norihiro

AU - Miura, Daisuke

AU - Utsumi, Hideo

AU - Kanba, Shigenobu

N1 - Funding Information: The authors would like to thank Ms. Mayumi Tanaka and Ms. Mayumi Inenaga for their technical assistances. We appreciate the technical support from Department of Dermatology (Prof. Masutaka Furue) and the Research Support Center, Graduate School of Medical Sciences, Kyushu University. This work was supported by Grant-in-Aid for Scientific Research on (1) the Japan Society for the Promotion of Science (to TAK, MO and SK), (2) Innovative Areas ‘‘Glia Assembly’’ of The Ministry of Education, Culture, Sports, Science, and Technology, Japan (No. 25117011 to SK), (3) the Health and Labour Sciences Research Grant (No. (H24-Seishin-Jitsuyouka (Seishin)-Ippan-001 to SK), (4) Young Principal Investigators’ Research Grant of Innovation Center for Medical Redox Navigation, Kyushu University (to TAK), (5) Takeda Science Foundation – Medical Research (to TAK), and (6) SENSHIN Medical Research Foundation (to TAK). The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.

PY - 2014/5/14

Y1 - 2014/5/14

N2 - Microglia have been implicated in various neurological and psychiatric disorders in rodent and human postmortem studies. However, the dynamic actions of microglia in the living human brain have not been clarified due to a lack of studies dealing with in situ microglia. Herein, we present a novel technique for developing induced microglia-like (iMG) cells from human peripheral blood cells. An optimized cocktail of cytokines, GM-CSF and IL-34, converted human monocytes into iMG cells within 14 days. The iMG cells have microglial characterizations; expressing markers, forming a ramified morphology, and phagocytic activity with various cytokine releases. To confirm clinical utilities, we developed iMG cells from a patient of Nasu-Hakola disease (NHD), which is suggested to be directly caused by microglial dysfunction, and observed that these cells from NHD express delayed but stronger inflammatory responses compared with those from the healthy control. Altogether, the iMG-technique promises to elucidate unresolved aspects of human microglia in various brain disorders.

AB - Microglia have been implicated in various neurological and psychiatric disorders in rodent and human postmortem studies. However, the dynamic actions of microglia in the living human brain have not been clarified due to a lack of studies dealing with in situ microglia. Herein, we present a novel technique for developing induced microglia-like (iMG) cells from human peripheral blood cells. An optimized cocktail of cytokines, GM-CSF and IL-34, converted human monocytes into iMG cells within 14 days. The iMG cells have microglial characterizations; expressing markers, forming a ramified morphology, and phagocytic activity with various cytokine releases. To confirm clinical utilities, we developed iMG cells from a patient of Nasu-Hakola disease (NHD), which is suggested to be directly caused by microglial dysfunction, and observed that these cells from NHD express delayed but stronger inflammatory responses compared with those from the healthy control. Altogether, the iMG-technique promises to elucidate unresolved aspects of human microglia in various brain disorders.

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ER -

Direct induction of ramified microglia-like cells from human monocytes: Dynamic microglial dysfunction in Nasu-Hakola disease

Abstract

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