Osteoimmunology [electronic resource] : Interactions of the Immune and skeletal systems II / edited by Yongwon Choi.
| Call Number | 616.079 |
| Title | Osteoimmunology Interactions of the Immune and skeletal systems II / edited by Yongwon Choi. |
| Physical Description | XII, 122 p. 34 illus., 7 illus. in color. online resource. |
| Series | Advances in Experimental Medicine and Biology, 0065-2598 ; 658 |
| Contents | The Role of Bone Marrow Edema and Lymphangiogenesis in Inflammatory-Erosive Arthritis -- Activation of ?? T Cells by Bisphosphonates -- Identification of Cell Cycle-Arrested Quiescent Osteoclast Precursors In Vivo -- Megakaryocyte-Bone Cell Interactions -- Regulation of Osteoblast Differentiation by Runx2 -- Communication Between EphrinB2 and EphB4 Within the Osteoblast Lineage -- The Unexpected Link Between Osteoclasts and the Immune System -- NFATc1 in Inflammatory and Musculoskeletal Conditions -- Novel Functions of RANK(L) Signaling in the Immune System -- Eph and Ephrin Interactions in Bone -- How Do Bone Cells Secrete Proteins? -- Regulation of Osteoclast Apoptosis by Bcl-2 Family Protein Bim and Caspase-3 -- Regulation of Bone Formation and Immune Cell Development by Schnurri Proteins. |
| Summary | It has only recently been appreciated that the immune and skeletal systems have major interactions. It is now well documented that osteoclasts, which are important cellular mediators of skeletal homeostasis, are derived from hematopoietic precursors that also give rise to immune cells. In addition, numerous cytokines that were first shown to regulate immune cell function have also been demonstrated to regulate bone cells and influence skeletal health. Conversely, products of bone cells appear critical for the engraftment of marrow in bone, the normal development of the hematopoietic and immune systems and provide niche for long-term memory B and T cells. In the past scientists involved in immune and bone cell investigations have rarely interacted in a significant way as these disciplines have developed independently and, for the most part, remain separate. The conference will bring together leading international scientists from both fields to interact so that new collaboration can develop and more rapid progress in understanding the relationships between these fields can be achieved. Short talks will be selected from abstracts from the international community. This conference will have a format to provide an environment of maximum interaction and interchange through lectures, posters, and open discussion. |
| Added Author | Choi, Yongwon. editor. SpringerLink (Online service) |
| Subject | MEDICINE. IMMUNOLOGY. PHARMACOLOGY. BIOTECHNOLOGY. INFECTIOUS DISEASES. PATHOLOGY. MICROBIOLOGY. Biomedicine. Immunology. Microbiology. Infectious Diseases. Biotechnology. Pathology. Pharmacology/Toxicology. |
| Multimedia |
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$a It has only recently been appreciated that the immune and skeletal systems have major interactions. It is now well documented that osteoclasts, which are important cellular mediators of skeletal homeostasis, are derived from hematopoietic precursors that also give rise to immune cells. In addition, numerous cytokines that were first shown to regulate immune cell function have also been demonstrated to regulate bone cells and influence skeletal health. Conversely, products of bone cells appear critical for the engraftment of marrow in bone, the normal development of the hematopoietic and immune systems and provide niche for long-term memory B and T cells. In the past scientists involved in immune and bone cell investigations have rarely interacted in a significant way as these disciplines have developed independently and, for the most part, remain separate. The conference will bring together leading international scientists from both fields to interact so that new collaboration can develop and more rapid progress in understanding the relationships between these fields can be achieved. Short talks will be selected from abstracts from the international community. This conference will have a format to provide an environment of maximum interaction and interchange through lectures, posters, and open discussion.
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| Summary | It has only recently been appreciated that the immune and skeletal systems have major interactions. It is now well documented that osteoclasts, which are important cellular mediators of skeletal homeostasis, are derived from hematopoietic precursors that also give rise to immune cells. In addition, numerous cytokines that were first shown to regulate immune cell function have also been demonstrated to regulate bone cells and influence skeletal health. Conversely, products of bone cells appear critical for the engraftment of marrow in bone, the normal development of the hematopoietic and immune systems and provide niche for long-term memory B and T cells. In the past scientists involved in immune and bone cell investigations have rarely interacted in a significant way as these disciplines have developed independently and, for the most part, remain separate. The conference will bring together leading international scientists from both fields to interact so that new collaboration can develop and more rapid progress in understanding the relationships between these fields can be achieved. Short talks will be selected from abstracts from the international community. This conference will have a format to provide an environment of maximum interaction and interchange through lectures, posters, and open discussion. |
| Contents | The Role of Bone Marrow Edema and Lymphangiogenesis in Inflammatory-Erosive Arthritis -- Activation of ?? T Cells by Bisphosphonates -- Identification of Cell Cycle-Arrested Quiescent Osteoclast Precursors In Vivo -- Megakaryocyte-Bone Cell Interactions -- Regulation of Osteoblast Differentiation by Runx2 -- Communication Between EphrinB2 and EphB4 Within the Osteoblast Lineage -- The Unexpected Link Between Osteoclasts and the Immune System -- NFATc1 in Inflammatory and Musculoskeletal Conditions -- Novel Functions of RANK(L) Signaling in the Immune System -- Eph and Ephrin Interactions in Bone -- How Do Bone Cells Secrete Proteins? -- Regulation of Osteoclast Apoptosis by Bcl-2 Family Protein Bim and Caspase-3 -- Regulation of Bone Formation and Immune Cell Development by Schnurri Proteins. |
| Subject | MEDICINE. IMMUNOLOGY. PHARMACOLOGY. BIOTECHNOLOGY. INFECTIOUS DISEASES. PATHOLOGY. MICROBIOLOGY. Biomedicine. Immunology. Microbiology. Infectious Diseases. Biotechnology. Pathology. Pharmacology/Toxicology. |
| Multimedia |