Top-collaboration Support Project トップランナーとの協働教育機会拡大支援事業 Promote innovative therapy on Immune disease 免疫疾患に対する先進的治療を可能にするための米国国立衛生研究所とのコラボ活動 Date: Venue: Chair Co-chair Advisor 15:00-18:30 Wednesday February 4, 2015 Suzuki Hall Frontier Research in Applied Sciences Building, School of Engineering, Hokkaido University 鈴木章ホール 北海道大学工学部 フロンティア応用科学研究棟 Masayuki Noguchi (Cancer Biology, Hokkaido University) 北海道大学遺伝子病制御研究所癌生物学分野教授 教授 野口昌幸 Tatsuya Atsumi (Rheumatology, Hokkaido University) 北海道大学大学院医学研究科免疫・代謝内科学分野 教授 渥美達也 Yoshimasa Watanabe (School of Engineering, Hokkaido University) 北海道大学工学部 名誉教授 渡辺 義公 Secretariat Division of Rheumatology, Endocrinology and Nephrology Hokkaido University Graduate School of Medicine 事務局 北海道大学大学院医学研究科 内科学講座 免疫・代謝内科学分野 (内線 5913) Date: Venue: 15:00-18:30 Wednesday February 4, 2015 Suzuki Hall, Frontier Research in Applied Sciences Building, School of Engineering, Hokkaido University 北海道大学工学部 フロンティア応用科学研究棟 鈴木章ホール Session 1 Basic and Clinical research on Sjögren‘s syndrome and related diseases シェーグレン症候群と関連疾患の基礎的、臨床的研究 Chairperson: Tatsuya Atsumi (Rheumatology, Hokkaido University) 座長 北海道大学大学院医学研究科免疫・代謝内科学分野 教授 渥美達也先生 15:00-15:20 Genetic background of Sjögren’s syndrome シェーグレン症候群の遺伝的背景 Tetsuya Horita (Rheumatology, Hokkaido University) 北海道大学大学院医学研究科免疫・代謝内科学分野 講師 堀田哲也先生 15:20-15:40 Primary Immunodeficiency as a model of autoimmune diseases 自己免疫疾患のモデルとしての原発性免疫不全症 Ichiro Kobayashi (Pediatrics, Hokkaido University) 北海道大学大学院医学研究科小児科学分野 講師 小林一郎先生 15:40-16:00 Sjögren’s Syndrome & IgG4-related Dacryoadenitis and Sialadenitis, so called ‘Mikulicz’s Disease’ シェーグレン症候群と IgG4 関連涙腺・唾液腺炎、いわゆるミクリッツ病 Motohisa Yamamoto (Rheumatology, Sapporo Medical University) 札幌医科大学医学部 消化器・免疫・リウマチ内科 助教 山本元久先生 16:00-16:40 A crucial role of Th1, Th17 and Treg cells in mouse model for Sjögren's syndrome シェーグレン症候群のマウスモデルにおける Th1、Th17、Treg 細胞の役割 Mana Iizuka (Rheumatology, Tsukuba University) 筑波大学医学医療系内科膠原病・リウマチ・アレルギー 助教 飯塚麻菜先生 16:40-17:20 The activation of the inflammation amplification loop in non-immune cells during autoimmune disease development 自己免疫疾患発症過程における非免疫担当細胞での炎症増幅ループの活性化 Masaaki Murakami (Molecular Neuroimmunology, Hokkaido University) 北海道大学遺伝子病制御研究所分子神経免疫学分野 教授 村上正晃先生 Session 2 Special lecture 特別講演 Chairperson: Masayuki Noguchi (Cancer Biology, Hokkaido University) 座長 北海道大学遺伝子病制御研究所癌生物学分野 教授 野口昌幸先生 17:30-18:30 Microarray Based Transcriptome Analysis as a Tool for Investigating Sjögren’s Syndrome John A. Chiorini, Ph.D. Chief, Adeno-Associated Virus Biology Section National Institutes of Health, USA . Special lecture John A. Chiorini, Ph.D. Chief Adeno-Associated Virus Biology Section National Institutes of Health (NIH)/ National Institutes of Dental and Craniofacial Research (NIDCR) Microarray Based Transcriptome Analysis as a Tool for Investigating Sjögren’s Syndrome Major problem facing medicine today is defining the mechanism associated with the onset and symptoms of disease and developing treatment for them. Analysis of the transcriptome can provide a global perspective of the physiologic state of the cell and identify specific as well as broad changes within the cell. Our lab has utilized this approach to investigate central questions related to Sjögren’s syndrome such as the gene expression changes associated with the loss of gland activity and the role of viral gene expression in initiating a Sjögren’s syndrome phenotype. <Biography> Dr. Chiorini received his Bachelor’s in biochemistry and molecular biology from the University of California, Santa Cruz in 1986 and his Ph.D. in genetics from George Washington University in 1993. Afterwards he completed post-doctoral training fellowships at both the National Institutes of General Medical Science (Pharmacology Research and Training Program) and in the National Heart, Lung, and Blood Institute. He joined the NIDCR as a tenure track investigator in 1999 and was awarded tenure in 2006. He currently serves as Chief of the AAV Biology Section in the Molecular Physiology and Therapeutics Branch of the National Institute of Dental and Craniofacial Research (NIDCR). His research has focused on the underlying biology associated with viral gene transfer and the development of novel high activity gene transfer vectors. A major application of the vectors is the treatment of xerostomia as it relates to Sjögren’s syndrome and radiation induced damage to the gland. <MEMO>
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