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NTIS 바로가기생명과학회지 = Journal of life science, v.32 no.6, 2022년, pp.468 - 475
이원종 (부산대학교 의과대학 의학과) , 박성현 (부산대학교 의과대학 의학과) , 박준희 (부산대학교 의과대학 의학과) , 오성환 (부산대학교 의과대학 의학과) , 이동준 (부산대학교 의과대학 융합의학교실)
The functional distinction between stem and progenitor cells is well established in several tissues, particularly in the blood. There, hematopoietic stem cells preserve their self-renewal potential and reconstitution ability in the bone marrow niche. Bone marrow represents a unique setting in which ...
Arai, F., Hirao, A., Ohmura, M., Sato, H., Matsuoka, S., Takubo, K., Ito, K., Koh, G. Y. and Suda, T. 2004. Tie2/angiopoietin-1 signaling regulates hematopoietic stem cell quiescence in the bone marrow niche. Cell 118, 149-161.
Arai, F., Ohneda, O., Miyamoto, T., Zhang, X. Q. and Suda, T. 2002. Mesenchymal stem cells in perichondrium express activated leukocyte cell adhesion molecule and participate in bone marrow formation. J. Exp. Med. 195, 1549-1563.
Asahara, T., Murohara, T., Sullivan, A., Silver, M., van der Zee, R., Li, T., Witzenbichler, B., Schatteman, G. and Isner, J. M. 1997. Isolation of putative progenitor endothelial cells for angiogenesis. Science 275, 964-967.
Beerman, I., Maloney, W. J., Weissmann, I. L. and Rossi, D. J. 2010. Stem cells and the aging hematopoietic system. Curr. Opin. Immunol. 22, 500-506.
Bruns, I., Lucas, D., Pinho, S., Ahmed, J., Lambert, M. P., Kunisaki, Y., Scheiermann, C., Schiff, L., Poncz, M., Bergman, A. and Frenette, P. S. 2014. Megakaryocytes regulate hematopoietic stem cell quiescence through CXCL4 secretion. Nat. Med. 20, 1315-1320.
Calvi, L. M., Adams, G. B., Weibrecht, K. W., Weber, J. M., Olson, D. P., Knight, M. C., Martin, R. P., Schipani, E., Divieti, P., Bringhurst, F. R., Milner, L. A., Kronenberg, H. M. and Scadden, D. T. 2003. Osteoblastic cells regulate the haematopoietic stem cell niche. Nature 425, 841-846.
Cheshier, S. H., Prohaska, S. S. and Weissman, I. L. 2007. The effect of bleeding on hematopoietic stem cell cycling and self-renewal. Stem Cells Dev. 16, 707-717.
Chow, A., Lucas, D., Hidalgo, A., Mendez-Ferrer, S., Hashimoto, D., Scheiermann, C., Battista, M., Leboeuf, M., Prophete, C., van Rooijen, N., Tanaka, M., Merad, M. and Frenette, P. S. 2011. Bone marrow CD169+ macrophages promote the retention of hematopoietic stem and progenitor cells in the mesenchymal stem cell niche. J. Exp. Med. 208, 261-271.
de Haan, G. and Lazare, S. S. 2018. Aging of hematopoietic stem cells. Blood 131, 479-487.
Fox, R. G., Park, F. D., Koechlein, C. S., Kritzik, M. and Reya, T. 2015. Musashi signaling in stem cells and cancer. Ann. Rev. Cell Dev. Biol. 31, 249-267.
Gerber, H. P., Malik, A. K., Solar, G. P., Sherman, D., Liang, X. H., Meng, G., Hong, K., Marsters, J. C. and Ferrara, N. 2002. VEGF regulates haematopoietic stem cell survival by an internal autocrine loop mechanism. Nature 417, 954-958.
Gotohda, N., Iwagaki, H., Itano, S., Horiki, S., Fujiwara, T., Saito, S., Hizuta, A., Isozaki, H., Takakura, N., Terada, N. and Tanaka, N. 1998. Can POSSUM, a scoring system for perioperative surgical risk, predict postoperative clinical course? Acta. Med. Okayama 52, 325-329.
Gustafsson, K. and Scadden, D. T. 2019. Growing old in the age of heterogeneity: the perils of shifting clonality. Curr. Opin. Hematol. 26, 222-227.
Heissig, B., Hattori, K., Dias, S., Friedrich, M., Ferris, B., Hackett, N. R., Crystal, R. G., Besmer, P., Lyden, D., Moore, M. A., Werb, Z. and Rafii, S. 2002. Recruitment of stem and progenitor cells from the bone marrow niche requires MMP-9 mediated release of kit-ligand. Cell 109, 625-637.
Hoggatt, J., Kfoury, Y. and Scadden, D. T. 2016. Hematopoietic stem cell niche in health and disease. Annu. Rev. Pathol. 11, 555-581.
Krause, D. S. and Scadden, D. T. 2015. A hostel for the hostile: the bone marrow niche in hematologic neoplasms. Haematologica 100, 1376-1387.
Lammert, E., Cleaver, O. and Melton, D. 2001. Induction of pancreatic differentiation by signals from blood vessels. Science 294, 564-567.
Matsumoto, K., Yoshitomi, H., Rossant, J. and Zaret, K. S. 2001. Liver organogenesis promoted by endothelial cells prior to vascular function. Science 294, 559-563.
Morrison, S. J. and Scadden, D. T. 2014. The bone marrow niche for haematopoietic stem cells. Nature 505, 327-334.
Morrison, S. J. and Scadden, D. T. 2014. The bone marrow niche for haematopoietic stem cells. Nature 505, 327-334.
Nagasawa, T., Hirota, S., Tachibana, K., Takakura, N., Nishikawa, S., Kitamura, Y., Yoshida, N., Kikutani, H. and Kishimoto, T. 1996. Defects of B-cell lymphopoiesis and bone-marrow myelopoiesis in mice lacking the CXC chemokine PBSF/SDF-1. Nature 382, 635-638.
Nepstad, I., Hatfield, K. J., Gronningsaeter, I. S. and Reikvam, H. 2020. The PI3K-Akt-mTOR signaling pathway in human Acute Myeloid Leukemia (AML) cells. Int. J. Mol. Sci. 21, 2907.
Ottersbach, K. and Dzierzak, E. 2005. The murine placenta contains hematopoietic stem cells within the vascular labyrinth region. Dev. Cell. 8, 377-387.
Peled, A., Petit, I., Kollet, O., Magid, M., Ponomaryov, T., Byk, T., Nagler, A., Ben-Hur, H., Many, A., Shultz, L., Lider, O., Alon, R., Zipori, D. and Lapidot, T. 1999. Dependence of human stem cell engraftment and repopulation of NOD/SCID mice on CXCR4. Science 283, 845-848.
Rafii, S., Lyden, D., Benezra, R., Hattori, K. and Heissig, B. 2002. Vascular and haematopoietic stem cells: novel targets for anti-angiogenesis therapy? Nat. Rev. Cancer 2, 826-835.
Scadden, D. T. 2006. The stem-cell niche as an entity of action. Nature 441, 1075-1079.
Sugiyama, T., Kohara, H., Noda, M. and Nagasawa, T. 2006. Maintenance of the hematopoietic stem cell pool by CXCL12-CXCR4 chemokine signaling in bone marrow stromal cell niches. Immunity 25, 977-988.
Takakura, N., Huang, X. L., Naruse, T., Hamaguchi, I., Dumont, D. J., Yancopoulos, G. D. and Suda, T. 1998. Critical role of the TIE2 endothelial cell receptor in the development of definitive hematopoiesis. Immunity 9, 677-686.
Tokoyoda, K., Egawa, T., Sugiyama, T., Choi, B. I. and Nagasawa, T. 2004. Cellular niches controlling B lymphocyte behavior within bone marrow during development. Immunity 20, 707-718.
Tolomeo, M., Meli, M. and Grimaudo, S. 2019. STAT5 and STAT5 Inhibitors in Hematological Malignancies. Anticancer Agents Med. Chem. 19, 2036-2046.
Visnjic, D., Kalajzic, Z., Rowe, D. W., Katavic, V., Lorenzo, J. and Aguila, H. L. 2004. Hematopoiesis is severely altered in mice with an induced osteoblast deficiency. Blood 103, 3258-3264.
Will, B., Vogler, T. O., Bartholdy, B., Garrett-Bakelman, F., Mayer, J., Barreyro, L., Pandolfi, A., Todorova, T. I., Okoye-Okafor, U. C. and Stanley, R. F. 2013. Satb1 regulates the self-renewal of hematopoietic stem cells by promoting quiescence and repressing differentiation commitment. Nat. Immunol. 14, 437-445.
Zhang, J., Niu, C., Ye, L., Huang, H., He, X., Tong, W. G., Ross, J., Haug, J., Johnson, T., Feng, J. Q., Harris, S., Wiedemann, L. M., Mishina, Y. and Li, L. 2003. Identification of the haematopoietic stem cell niche and control of the niche size. Nature 425, 836-841.
Zhao, M., Perry, J. M., Marshall, H., Venkatraman, A., Qian, P., He, X. C., Ahamed, J. and Li, L. 2014. Megakaryocytes maintain homeostatic quiescence and promote post-injury regeneration of hematopoietic stem cells. Nat. Med. 20, 1321-1326.
Zhu, J., and Emerson, S. G. 2002. Hematopoietic cytokines, transcription factors and lineage commitment. Oncogene 21, 3295-3313.
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