• 제목/요약/키워드: phosphatases

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Biochemistry and structure of phosphoinositide phosphatases

  • Kim, Young Jun;Jahan, Nusrat;Bahk, Young Yil
    • BMB Reports
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    • 제46권1호
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    • pp.1-8
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    • 2013
  • Phosphoinositides are the phosphorylated derivatives of phosphatidylinositol, and play a very significant role in a diverse range of signaling processes in eukaryotic cells. A number of phosphoinositide-metabolizing enzymes, including phosphoinositide-kinases and phosphatases are involved in the synthesis and degradation of these phospholipids. Recently, the function of various phosphatases in the phosphatidylinositol signaling pathway has been of great interest. In the present review we summarize the structural insights and biochemistry of various phosphatases in regulating phosphoinositide metabolism.

광자극에 대한 Amoeba 의 반응양상과 phosphatase 의 특성 및 활성도 변화 (The Characterization and Activity Changes of Phosphatases in Amoeba sp. to the Light Stimuli and Its Response Pattern)

  • Chang, Nam-Kee;Chai-Seong Lim;Jin-Ho Bae
    • The Korean Journal of Ecology
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    • 제14권1호
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    • pp.101-111
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    • 1991
  • Amoeba sp. was cultured under the light and the dark conditions, and the activity of phosphatases was investigated. There was a linear correlation between the early reaction time and the activity of phosphatases when phosphatases were incubated at 30℃. Then the activity of acid phosphatase was about 2 times higher than that of alkaline phosphatase. The activity of phosphatase was optimal at pH 5.0 in acidic part and at pH 8.0 in alkaline part, respectively. The optimal temperature of phosphatases was near the 40℃. The isozyme patterns of cytoplasmic acid phosphatase were compared with those of membraneous one. Both the isozyme patterns were shown to bo polymorphic on the polyacyamide gel, but different band patterns were observed in the isozymes of the cytoplasmic and the membraneous acid phosphatases. The number of Amoeba sp. under the light stimulus for 48 hours decreased negative exponentially from the illumination. The activity of acid and alkaline phosphatases under the illumination of light incresed 1.7 and 1.5 times higher, respectively, than the activity of those under the dark condition. This result apperars to be related to the mechanism of the autophosphorylation.

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The diverse roles of RNA polymerase II C-terminal domain phosphatase SCP1

  • Harikrishna, Reddy R.;Kim, Hackyoung;Noh, Kwangmo;Kim, Young Jun
    • BMB Reports
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    • 제47권4호
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    • pp.192-196
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    • 2014
  • RNA polymerase II carboxyl-terminal domain (pol II CTD) phosphatases are a newly emerging family of phosphatases that are members of DXDX (T/V). The subfamily includes Small CTD phosphatases, like SCP1, SCP2, SCP3, TIMM50, HSPC129 and UBLCP. Extensive study of SCP1 has elicited the diversified roles of the small C terminal domain phosphatase. The SCP1 plays a vital role in various biological activities, like neuronal gene silencing and preferential Ser5 dephosphorylation, acts as a cardiac hypertrophy inducer with the help of its intronic miRNAs, and has shown a key role in cell cycle regulation. This short review offers an explanation of the mechanism of action of small CTD phosphatases, in different biological activities and metabolic processes.

Involvement of protein tyrosine phosphatases in adipogenesis: New anti-obesity targets?

  • Bae, Kwang-Hee;Kim, Won Kon;Lee, Sang Chul
    • BMB Reports
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    • 제45권12호
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    • pp.700-706
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    • 2012
  • Obesity is a worldwide epidemic as well as being a major risk factor for diabetes, cardiovascular diseases and several types of cancers. Obesity is mainly due to the overgrowth of adipose tissue arising from an imbalance between energy intake and energy expenditure. Adipose tissue, primarily composed of adipocytes, plays a key role in maintaining whole body energy homeostasis. In view of the treatment of obesity and obesity-related diseases, it is critical to understand the detailed signal transduction mechanisms of adipogenic differentiation. Adipogenic differentiation is tightly regulated by many key signal cascades, including insulin signaling. These signal cascades generally transfer or amplify the signal by using serial tyrosine phosphorylations. Thus, protein tyrosine kinases and protein tyrosine phosphatases are closely related to adipogenic differentiation. Compared to protein tyrosine kinases, protein tyrosine phosphatases have received little attention in adipogenic differentiation. This review aims to highlight the involvement of protein tyrosine phosphatases in adipogenic differentiation and the possibility of protein tyrosine phosphatases as drugs to target obesity.

Protein Phosphatases Involved in Regulating Mitosis: Facts and Hypotheses

  • Kim, Hyun-Soo;Fernandes, Gary;Lee, Chang-Woo
    • Molecules and Cells
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    • 제39권9호
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    • pp.654-662
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    • 2016
  • Almost all eukaryotic proteins are subject to post-translational modifications during mitosis and cell cycle, and in particular, reversible phosphorylation being a key event. The recent use of high-throughput experimental analyses has revealed that more than 70% of all eukaryotic proteins are regulated by phosphorylation; however, the mechanism of dephosphorylation, counteracting phosphorylation, is relatively unknown. Recent discoveries have shown that many of the protein phosphatases are involved in the temporal and spatial control of mitotic events, such as mitotic entry, mitotic spindle assembly, chromosome architecture changes and cohesion, and mitotic exit. This implies that certain phosphatases are tightly regulated for timely dephosphorylation of key mitotic phosphoproteins and are essential for control of various mitotic processes. This review describes the physiological and pathological roles of mitotic phosphatases, as well as the versatile role of various protein phosphatases in several mitotic events.

CTD 탈 인산화 효소의 기능과 역할 (Emerging Roles of CTD Phosphatases)

  • 김영준
    • 생명과학회지
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    • 제27권3호
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    • pp.370-381
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    • 2017
  • 단백질 탈 인산화는 단백질 탈 인산화 효소에 의해 매개되는 과정으로 세포 생존에 매우 중요하다. 단백질 탈 인산화 효소 중에서 최근 CTD (carboxy-terminal domain) 탈 인산화 효소들이 등장하고 있으며 이들에 대한 새로운 생물학적 역할이 밝혀지고 있다. 이 효소의 그룹에는CTD 탈 인산화 효소 1(CTDP1), CTD 소형 탈 인산화 효소 1(CTDSP1), CTD 소형 탈 인산화 효소 2(CTDSP2), CTD 소형 탈 인산화 효소 유사(CTDSPL), CTD 소형 탈 인산화 효소 유사 2(CTDSPL2), CTD 핵 탈 인산화 효소(CTDNEP1) 및 유비퀴틴 유사 도메인 함유CTD 탈 인산화 효소 1(UBLCP1)들이 존재한다. CTDP1은 RNA 중합 효소 II (RNAPII)의 CTD의 두 번째 인산화 된 세린을 탈 인산화 시키고, CTDSP1, STDSP2 및 CTDSPL은 RNAPII의 CTD의 다섯 번째 인산화 된 세린을 탈 인산화 시킨다. 그리고 CTDSP1은 SMAD들, CDCA3, Twist1, 종양억제 단백질인 PML, c-Myc과 같은 새로운 기질을 탈 인산화 시키는 것으로 밝혀지고 있다. CTDP1은 유사 분열 조절 및 암세포 성장과 관련이 있다. CTDSP1, CTDSP2 및 CTDSPL은 종양 억제 기능 및 줄기 세포 분화와 관련이 있다. CTDNEP1은 LIPIN1을 탈 인산화 시키고 핵막 형성과 관련이 있다. CTDSPL2는 조혈 줄기 세포 분화와 관련이 있다. UBLCP1은 26S 프로테아좀을 탈 인산화 시키고 핵 프로테아좀 활성 조절과 관련이 있다. 결론적으로, CTD 탈 인산화 효소의 새로운 기능과 역할은 최근의 연구에서 밝혀지고 있으며, 이 리뷰는 CTD 탈 인산화 효소의 새롭게 밝혀진 역할들을 요약하고자 정리한 것이다.

Regulatory Roles of MAPK Phosphatases in Cancer

  • Heng Boon Low;Yongliang Zhang
    • IMMUNE NETWORK
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    • 제16권2호
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    • pp.85-98
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    • 2016
  • The mitogen-activated protein kinases (MAPKs) are key regulators of cell growth and survival in physiological and pathological processes. Aberrant MAPK signaling plays a critical role in the development and progression of human cancer, as well as in determining responses to cancer treatment. The MAPK phosphatases (MKPs), also known as dual-specificity phosphatases (DUSPs), are a family of proteins that function as major negative regulators of MAPK activities in mammalian cells. Studies using mice deficient in specific MKPs including MKP1/DUSP1, PAC-1/DUSP2, MKP2/DUSP4, MKP5/DUSP10 and MKP7/DUSP16 demonstrated that these molecules are important not only for both innate and adaptive immune responses, but also for metabolic homeostasis. In addition, the consequences of the gain or loss of function of the MKPs in normal and malignant tissues have highlighted the importance of these phosphatases in the pathogenesis of cancers. The involvement of the MKPs in resistance to cancer therapy has also gained prominence, making the MKPs a potential target for anti-cancer therapy. This review will summarize the current knowledge of the MKPs in cancer development, progression and treatment outcomes.

A systematic study of nuclear interactome of C-terminal domain small phosphatase-like 2 using inducible expression system and shotgun proteomics

  • Kang, NaNa;Koo, JaeHyung;Wang, Sen;Hur, Sun Jin;Bahk, Young Yil
    • BMB Reports
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    • 제49권6호
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    • pp.319-324
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    • 2016
  • RNA polymerase II C-terminal domain phosphatases are newly emerging family of phosphatases that contain FCPH domain with Mg+2-binding DXDX(T/V) signature motif. Its subfamily includes small CTD phosphatases (SCPs). Recently, we identified several interacting partners of human SCP1 with appearance of dephosphorylation and O-GlcNAcylation. In this study, using an established cell line with inducible CTDSPL2 protein (a member of the new phosphatase family), proteomic screening was conducted to identify binding partners of CTDSPL2 in nuclear extract through immunoprecipitation of CTDSPL2 with its associated. This approach led to the identification of several interacting partners of CTDSPL2. This will provide a better understanding on CTDSPL2.

Hydrogen Peroxide Mediates Brazilin-induced Glucose Transport in Adipocytes

  • Khil, Lee-Yong;Moon, Chang-Kiu
    • Biomolecules & Therapeutics
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    • 제12권4호
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    • pp.228-234
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    • 2004
  • Brazilin shows hypoglycemic effect in diabetic animals through enhancement of glucose metabolisms in insulin responsive tissues. One of the major mechanisms of brazilin to enhance glucose metabolism is stimulation of glucose transport in adipocytes. In this study, the essential molecular moiety of brazilin for the stimulation of glucose transport was investigated. We found that brazilin undergoes a structural change in physiological buffer and produces hydrogen peroxide. Methylation of hydroxyl group of brazilin or addition of catalase along with brazilin resulted in the complete inhibition of brazilin-induced glucose transport in adipocytes. Because hydrogen peroxide increases glucose transport by inhibition of phosphatases, we examined the effect of brazilin on phosphatase activity. Brazilin inhibited phosphatases in a wide range of activity, and protein phosphatase 1 and 2A were also inhibited. These results suggest that the production of hydrogen peroxide by oxidation of catechol hydroxyl group of brazilin mediates glucose transport through inhibition of phosphatases which otherwise decrease glucose transport in adipocytes.