Mi Jeong Kim

Publications (5)18.76 Total impact

• Article: Cryptotanshinone and tanshinone IIA enhance IL-15-induced natural killer cell differentiation.

  Won Sam Kim, Dong Oh Kim, Sung Jin Yoon, Mi Jeong Kim, Suk Ran Yoon, Young-Jun Park, Haiyoung Jung, Tae-Don Kim, Byoung-Mog Kwon, Inpyo Choi
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  ABSTRACT: Natural killer (NK) cells are a subset of lymphocytes crucial for innate and adaptive immune responses. Here we show a stimulatory effect of cryptotanshinone (CTS) and tanshinone IIA (TS), isolated from Salvia miltiorrhiza Bunge, on the differentiation of NK cells. In the presence of IL-15, tanshinones increased NK cell maturation, NK cell differentiation and the expression of several transcription factors, including Id2, GATA3, T-bet, and Ets-1. Additionally, tanshinones increased p38 MAPK phosphorylation during NK cell differentiation. Furthermore, the p38 inhibitor SB203580 blocked the developmental effects of the tanshinones and suppressed Id2, T-bet, and Ets-1 expression during NK cell differentiation. These results suggest that tanshinones significantly increased IL-15-induced NK cell differentiation via enhancing the p38 phosphorylation and the expression of transcription factors.
  Biochemical and Biophysical Research Communications 07/2012; 425(2):340-7. · 2.48 Impact Factor
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  Article: Suppressor of cytokine signaling 2 regulates IL-15-primed human NK cell function via control of phosphorylated Pyk2.

  Suk Hyung Lee, Sohyun Yun, Zheng-Hao Piao, Mira Jeong, Dong Oh Kim, Haiyoung Jung, Jiwon Lee, Mi Jeong Kim, Mi Sun Kim, Jin Woong Chung, Tae-Don Kim, Suk Ran Yoon, Philip D Greenberg, Inpyo Choi
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  ABSTRACT: NK cells are capable of killing virus-infected or tumor cells and producing IFN-gamma. Resting NK cells, however, have only minimal cytolytic activity and secrete a low level of IFN-gamma. The cytokine IL-15 can promote the expression of effector functions by resting NK cells. In this study, we demonstrate that suppressor of cytokine signaling 2 (SOCS2) has a novel role in IL-15-primed human NK cell function. SOCS2 expression was upregulated in NK cells following stimulation with IL-15. During IL-15-mediated NK cell priming, SOCS2 interacted with phosphorylated proline-rich tyrosine kinase 2 (Pyk2) at tyrosine 402 (p-Pyk2(Tyr402)) and induced the proteasome-mediated degradation of p-Pyk2(Tyr402) via ubiquitination. Knockdown of SOCS2 resulted in the accumulation of p-Pyk2(Tyr402) and blocked NK cell effector functions. In addition, NK cell cytolytic activity and IFN-gamma production were inhibited by overexpression of the wild-type of Pyk2 but not by the overexpression of tyrosine 402 mutant of Pyk2. These results suggest that SOCS2 regulates human NK cell effector functions via control of phosphorylated Pyk2 depending on IL-15 existence.
  The Journal of Immunology 07/2010; 185(2):917-28. · 5.79 Impact Factor
• Article: YC-1 enhances natural killer cell differentiation from hematopoietic stem cells.

  Sohyun Yun, Suk Hyung Lee, Yun Hee Kang, Mira Jeong, Mi Jeong Kim, Mi Sun Kim, Zheng-Hao Piao, Hyun-Woo Suh, Tae-don Kim, Pyung-Keun Myung, Suk-Ran Yoon, Inpyo Choi
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  ABSTRACT: NK cells play crucial roles in innate immunity and adaptive immunity. The detailed mechanisms, however, governing NK cell development remains unclear. In this study, we report that YC-1 significantly enhances NK cell populations differentiated from human umbilical cord blood hematopoietic stem cells (HSCs). NK cells increased by YC-1 display both phenotypic and functional features of fully mature NK (mNK) cells, but YC-1 does not affect the activation of mNK cells. YC-1 did not affect cGMP production and phosphorylation of STAT-5 which is essential for IL-15R signaling. On the other hand, YC-1 increased p38 MAPK phosphorylation during NK cell differentiation. Furthermore, p38 inhibitor SB203580 inhibited the differentiation of NK cells enhanced by YC-1. Taken together, these data suggest that YC-1 enhances NK cell differentiation through the activation of p38 MAPK which is involved in NK cell differentiation.
  International immunopharmacology 04/2010; 10(4):481-6. · 2.21 Impact Factor
• Article: RasGRP1 is required for human NK cell function.

  Suk Hyung Lee, Sohyun Yun, Jiwon Lee, Mi Jeong Kim, Zheng-Hao Piao, Mira Jeong, Jin Woong Chung, Tae-Don Kim, Suk Ran Yoon, Philip D Greenberg, Inpyo Choi
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  ABSTRACT: Cross-linking of NK activating receptors activates phospholipase-gamma and subsequently induces diacylglycerol and Ca(2+) as second messengers of signal transduction. Previous studies reported that Ras guanyl nucleotide-releasing protein (RasGRP) 1, which is activated by diacylglycerol and Ca(2+), is crucial for TCR-mediated Ras-ERK activation. We now report that RasGRP1, which can also be detected in human NK cells, plays an essential role in NK cell effector functions. To examine the role of RasGRP1 in NK cell functions, the expression of RasGRP1 was suppressed using RNA interference. Knockdown of RasGRP1 significantly blocked ITAM-dependent cytokine production as well as NK cytotoxicity. Biochemically, RasGRP1-knockdown NK cells showed markedly decreased ability to activate Ras, ERK, and JNK. Activation of the Ras-MAPK pathway was independently shown to be indispensable for NK cell effector functions via the use of specific pharmacological inhibitors. Our results reveal that RasGRP1 is required for the activation of the Ras-MAPK pathway leading to NK cell effector functions. Moreover, our data suggest that RasGRP1 might act as an important bridge between phospholipase-gamma activation and NK cell effector functions via the Ras-MAPK pathway.
  The Journal of Immunology 11/2009; 183(12):7931-8. · 5.79 Impact Factor
• Article: Tumor necrosis factor-alpha enhances IL-15-induced natural killer cell differentiation.

  Jiwon Lee, Suk Hyung Lee, Nara Shin, Mira Jeong, Mi Sun Kim, Mi Jeong Kim, Suk Ran Yoon, Jin Woong Chung, Tae-Don Kim, Inpyo Choi
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  ABSTRACT: The differentiation of natural killer (NK) cells is regulated by various factors including soluble growth factors and transcription factors. Here, we have demonstrated that tumor necrosis factor-alpha (TNF-alpha) is a positive regulator of NK cell differentiation. TNF-alpha augmented the IL-15-induced expression of NK1.1 and CD122 in mature NK cells, and TNF-alpha alone also induced NK cell maturation as well as IL-15. TNF-alpha also increased IFN-gamma production in NK cells in the presence of IL-15. Meanwhile, mRNA expression of several transcription factors, including T-bet and GATA-3, was increased by the addition of TNF-alpha and IL-15. In addition, TNF-alpha increased nuclear factor-kappa B (NF-kappaB) activity in NK cells and inhibition of NF-kappaB impeded TNF-alpha-enhanced NK cell maturation. Overall, these data suggest that TNF-alpha significantly increased IL-15-driven NK cell differentiation by increasing the expression of transcription factors that play crucial roles in NK cell maturation and inducing the NF-kappaB activity.
  Biochemical and Biophysical Research Communications 07/2009; 386(4):718-23. · 2.48 Impact Factor