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[세미나] 7월 11일(화) 하나과학관 A동 207호 상세
제목	[세미나] 7월 11일(화) 하나과학관 A동 207호
내용	[대학원 생명과학과 세미나 안내] 연사 : 민경현 교수(Weill Cornell Medical College) 연제 : Myc-dependent oxidative metabolism regulates osteoclastogenesis via nuclear receptor ERRα 일시 : 2017년 7월 11일 (화) 오후 4시 장소 : 하나과학관 A동 207호 초청교수 : 안병윤 교수 Abstract Osteoporosis is a metabolic bone disorder associated with compromised bone strength and an increased risk of fracture. Inhibition of the differentiation of bone-resorbing osteoclasts is an effective strategy for the treatment of osteoporosis. Prior work by our laboratory and others has shown that MYC promotes osteoclastogenesis in vitro, but the underlying mechanisms are not well understood. In addition, the in vivo importance of osteoclast-expressed MYC in physiological and pathological bone loss is not known. Here, we have demonstrated that deletion of Myc in osteoclasts increases bone mass and protects mice from ovariectomy-induced (OVX-induced) osteoporosis. Transcriptomic analysis revealed that MYC drives metabolic reprogramming during osteoclast differentiation and functions as a metabolic switch to an oxidative state. We identified a role for MYC action in the transcriptional induction of estrogen receptor–related receptor α (ERRα), a nuclear receptor that cooperates with the transcription factor nuclear factor of activated T cells, c1 (NFATc1) to drive osteoclastogenesis. Accordingly, pharmacological inhibition of ERRα attenuated OVX-induced bone loss in mice. Our findings highlight a MYC/ERRα pathway that contributes to physiological and pathological bone loss by integrating the MYC/ERRα axis to drive metabolic reprogramming during osteoclast differentiation.
첨부

[세미나] 7월 11일(화) 하나과학관 A동 207호 상세

제목

[세미나] 7월 11일(화) 하나과학관 A동 207호

내용

[대학원 생명과학과 세미나 안내] 

연사 : 민경현 교수(Weill Cornell Medical College)

연제 : Myc-dependent oxidative metabolism regulates osteoclastogenesis via nuclear receptor ERRα

일시 : 2017년 7월 11일 (화) 오후 4시 

장소 : 하나과학관 A동 207호

초청교수 : 안병윤 교수

Abstract

Osteoporosis is a metabolic bone disorder associated with compromised bone strength and an increased risk of fracture. Inhibition of the differentiation of bone-resorbing osteoclasts is an effective strategy for the treatment of osteoporosis. Prior work by our laboratory and others has shown that MYC promotes osteoclastogenesis in vitro, but the underlying mechanisms are not well understood. In addition, the in vivo importance of osteoclast-expressed MYC in physiological and pathological bone loss is not known. Here, we have demonstrated that deletion of Myc in osteoclasts increases bone mass and protects mice from ovariectomy-induced (OVX-induced) osteoporosis. Transcriptomic analysis revealed that MYC drives metabolic reprogramming during osteoclast differentiation and functions as a metabolic switch to an oxidative state. We identified a role for MYC action in the transcriptional induction of estrogen receptor–related receptor α (ERRα), a nuclear receptor that cooperates with the transcription factor nuclear factor of activated T cells, c1 (NFATc1) to drive osteoclastogenesis. Accordingly, pharmacological inhibition of ERRα attenuated OVX-induced bone loss in mice. Our findings highlight a MYC/ERRα pathway that contributes to physiological and pathological bone loss by integrating the MYC/ERRα axis to drive metabolic reprogramming during osteoclast differentiation.

첨부

고려대학교 생명과학대학 생명과학부/ 대학원 분자생명과학과

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