Sumi Kim scite author profile

Osteoblasts, which are bone-forming cells, play pivotal roles in bone modeling and remodeling. Osteoblast differentiation, also known as osteoblastogenesis, is orchestrated by transcription factors, such as runt-related transcription factor 1/2, osterix, activating transcription factor 4, special AT-rich sequence-binding protein 2 and activator protein-1. Osteoblastogenesis is regulated by a network of cytokines under physiological and pathophysiological conditions. Osteoblastogenic cytokines, such as interleukin-10 (IL-10), IL-11, IL-18, interferon-γ (IFN-γ), cardiotrophin-1 and oncostatin M, promote osteoblastogenesis, whereas anti-osteoblastogenic cytokines, such as tumor necrosis factor-α (TNF-α), TNF-β, IL-1α, IL-4, IL-7, IL-12, IL-13, IL-23, IFN-α, IFN-β, leukemia inhibitory factor, cardiotrophin-like cytokine, and ciliary neurotrophic factor, downregulate osteoblastogenesis. Although there are gaps in the body of knowledge regarding the interplay of cytokine networks in osteoblastogenesis, cytokines appear to be potential therapeutic targets in bone-related diseases. Thus, in this study, we review and discuss our osteoblast, osteoblast differentiation, osteoblastogenesis, cytokines, signaling pathway of cytokine networks in osteoblastogenesis.

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Zinc sensors with lower binding affinities for cellular imaging

Kim¹,

Hwang²,

Jang³

et al. 2013

Dalton Trans.

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Zinc sensors based on 2,3-dipicolylamine (DPA) and quinoline have been synthesized. They fluoresced in the presence of Zn(2+) and remained fluorescent when other metal ions were present. Fluorescence enhancement of the sensors was not seen for most other metal ions. In vitro studies with fibroblasts showed fluorescence when sensor and Zn(2+) were present. As seen by single crystal X-ray analysis, four nitrogens from the sensor bind to Zn(2+). These new sensors have lower binding constants than the pentadentate sensors based on 2,2-DPA.

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Effects of recombinant human bone morphogenic protein‐2 and human bone marrow‐derived stromal cells on in vivo bone regeneration of chitosan–poly(ethylene oxide) hydrogel

Kim

Cho

et al. 2012

J Biomedical Materials Res

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In vivo bone regeneration of chitosan-poly(ethylene oxide) (PEO) hydrogel in rat carlvarial defects was evaluated by using both human bone marrow-derived stromal cells (hMSCs) and recombinant human bone marrow protein-2 (rhBMP-2) for 4 and 8 weeks. In situ chitosan-PEO hydrogel was fabricated by mixing the precursor solutions of both chitosan-acrylate and PEO-thiol. Fabrication of the injectable hydrogels was modulated from within a minute to hours by controlling the temperature and pHs of the precursor solution. Gel swellings were dependent on the conditions of pHs and temperatures of the precursor solutions, showing higher gel swelling in basic water than in either acidic or neutral water. The compression strengths and in vitro degradation of hydrogels were also evaluated by controlling the concentrations of both precursor solutions and lysozyme, respectively, by referencing to the morphology of the control hydrogel with no enzyme added. Hydrogels showed sustained release of rhodamine-B over time. After implantation of the injectable hydrogels in rat calvarial defects for 4 and 8 weeks, in vivo bone regenerations were compared with by evaluating the degrees of new bone formations with Soft X-ray, microcomputed tomography, and histological stainings of hematoxylin and eosine Y and Masson's trichrome. Degrees of in vivo bone regeneration were controlled by encapsulating in advance either hMSCs, rhBMP-2, or both in the precursor solutions of the hydrogel. The defect implanted with hydrogel only showed higher amount of bone tissue regeneration than that of the control defect site. The defect sites with hydrogel containing both hMSCs and rhBMP-2 demonstrated highest amount of bone tissue regeneration among the samples.

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Generation of an osteoblast-based artificial niche that supports in vitro B lymphopoiesis

Choi

Kim

et al. 2017

Exp Mol Med

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B lymphocytes are produced from hematopoietic stem cells (HSCs) through the highly ordered process of B lymphopoiesis, which is regulated by a complex network of cytokines, chemokines and cell adhesion molecules derived from the hematopoietic niche. Primary osteoblasts function as an osteoblastic niche (OBN) that supports in vitro B lymphopoiesis. However, there are significant limitations to the use of primary osteoblasts, including their relative scarcity and the consistency and efficiency of the limited purification and proliferation of these cells. Thus, development of a stable osteoblast cell line that can function as a biomimetic or artificial OBN is necessary. In this study, we developed a stable osteoblastic cell line, designated OBN4, which functions as an osteoblast-based artificial niche that supports in vitro B lymphopoiesis. We demonstrated that the production of a B220+ cell population from Lineage− (Lin−) Sca-1+ c-Kit+ hematopoietic stem and progenitor cells (HSPCs) was increased ~1.7-fold by OBN4 cells relative to production by primary osteoblasts and OP9 cells in coculture experiments. Consistently, OBN4 cells exhibited the highest production of B220+ IgM+ cell populations (6.7±0.6–13.6±0.6%) in an IL-7- and stromal cell-derived factor 1-dependent manner, with higher production than primary osteoblasts (3.7±0.5–6.4±0.6%) and OP9 cells (1.8±0.6–3.9±0.5%). In addition, the production of B220+ IgM+ IgD+ cell populations was significantly enhanced by OBN4 cells (15.4±1.1–18.9±3.2%) relative to production by primary osteoblasts (9.5±0.6–14.6±1.6%) and OP9 cells (9.1±0.5–10.3±1.8%). We conclude that OBN4 cells support in vitro B lymphopoiesis of Lin− Sca-1+ c-Kit+ HSPCs more efficiently than primary osteoblasts or OP9 stromal cells.

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Sumi Kim

Regulation of Osteoblast Differentiation by Cytokine Networks

Zinc sensors with lower binding affinities for cellular imaging

Effects of recombinant human bone morphogenic protein‐2 and human bone marrow‐derived stromal cells on in vivo bone regeneration of chitosan–poly(ethylene oxide) hydrogel

Generation of an osteoblast-based artificial niche that supports in vitro B lymphopoiesis

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