• 제목/요약/키워드: RCAN2

검색결과 6건 처리시간 0.023초

Regulator of Calcineurin (RCAN): Beyond Down Syndrome Critical Region

  • Lee, Sun-Kyung;Ahnn, Joohong
    • Molecules and Cells
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    • 제43권8호
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    • pp.671-685
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    • 2020
  • The regulator of calcineurin (RCAN) was first reported as a novel gene called DSCR1, encoded in a region termed the Down syndrome critical region (DSCR) of human chromosome 21. Genome sequence comparisons across species using bioinformatics revealed three members of the RCAN gene family, RCAN1, RCAN2, and RCAN3, present in most jawed vertebrates, with one member observed in most invertebrates and fungi. RCAN is most highly expressed in brain and striated muscles, but expression has been reported in many other tissues, as well, including the heart and kidneys. Expression levels of RCAN homologs are responsive to external stressors such as reactive oxygen species, Ca2+, amyloid β, and hormonal changes and upregulated in pathological conditions, including Alzheimer's disease, cardiac hypertrophy, diabetes, and degenerative neuropathy. RCAN binding to calcineurin, a Ca2+/calmodulin-dependent phosphatase, inhibits calcineurin activity, thereby regulating different physiological events via dephosphorylation of important substrates. Novel functions of RCANs have recently emerged, indicating involvement in mitochondria homeostasis, RNA binding, circadian rhythms, obesity, and thermogenesis, some of which are calcineurin-independent. These developments suggest that besides significant contributions to DS pathologies and calcineurin regulation, RCAN is an important participant across physiological systems, suggesting it as a favorable therapeutic target.

Regulator of calcineurin 1-4과 파골세포 분화의 관련성 (Relationship between the Regulator of Calcineurin 1-4 Isoform and In Vitro Osteoclast Differentiation)

  • 박경록
    • 생명과학회지
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    • 제25권2호
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    • pp.223-230
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    • 2015
  • RCAN1은 calcineurin을 억제하는 내인성 단백질로 calcineurin-NFATc1 신호전달 경로와 관련된 질환의 병인에 중요한 역할을 담당한다. 특히 RCAN1-4 아형 유전자의 경우 NFATc1 전사인자에 의해 조절된다. RANKL 자극은 calcineurin-NFATc1 경로로 파골세포 분화를 유도하는데, RCAN1과 파골세포의 분화에 관련된 연구는 보고 된 바 없다. 따라서 본 연구는 RANKL 처리에 의해 파골세포 분화가 유도될 때 RCAN1이 calcineurin-NFATc1 경로에 미치는 영향을 in vitro에서 조사했다. 마우스로부터 분리한 골수단핵세포에 RANKL을 처리하여 파골세포 분화를 유도했다. RANKL 처리 후 조사 대상 유전자의 mRNA 발현과 단백질 발현을 각각 RT-PCR과 Western blot로써 측정했다. 마우스 RCAN1-4 vector를 파골전구세포인 RAW 264.7 단핵세포주와 골수단핵세포에 형질도입(transfection)시켜 RCAN1-4 유전자의 과발현을 유도했다. 형질도입 후 파골세포 분화의 형태적 변화는 TRAP 염색을 통해 관찰했다. RANKL 처리 후 NFATc1, calcineurin, RCAN1-4 mRNA 발현은 크게 증가했다. 단백질 발현의 경우 NFATc1과 RCAN1은 증가했으나 calcineurin은 대조군과 차이가 없었다. RCAN1-4 유전자의 과발현 유도 시 RCAN1-4 mRNA는 크게 증가되었으나 RCAN1 단백질 발현은 증가되지 않았다. 특히 RANKL 존재 시 RCAN1 유전자를 knock-down시켜도 RCAN1 발현은 정상적으로 유지되었다. 한편, NFATc1 발현은 과발현 유도시 감소했고 knock-down 유도 시 증가하는 경향을 보였다. RCAN1-4 유전자 과발현을 유도한 골수단핵세포에서 배양 5일 후 파골세포 분화는 대조군과 차이가 없었다. 이러한 결과는 RANKL에 의한 파골세포 분화 시 RCAN1이 calcineurin-NFATc1 경로를 통해 파골세포 분화에 미치는 영향은 제한적일 것으로 사료된다.

Spatiotemporal expression of RCAN1 and its isoform RCAN1-4 in the mouse hippocampus after pilocarpine-induced status epilepticus

  • Cho, Kyung-Ok;Jeong, Kyoung Hoon;Cha, Jung-Ho;Kim, Seong Yun
    • The Korean Journal of Physiology and Pharmacology
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    • 제24권1호
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    • pp.81-88
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    • 2020
  • Regulator of calcineurin 1 (RCAN1) can be induced by an intracellular calcium increase and oxidative stress, which are characteristic features of temporal lobe epilepsy. Thus, we investigated the spatiotemporal expression and cellular localization of RCAN1 protein and mRNA in the mouse hippocampus after pilocarpine-induced status epilepticus (SE). Male C57BL/6 mice were given pilocarpine hydrochloride (280 mg/kg, i.p.) and allowed to develop 2 h of SE. Then the animals were given diazepam (10 mg/kg, i.p.) to stop the seizures and sacrificed at 1, 3, 7, 14, or 28 day after SE. Cresyl violet staining showed that pilocarpine-induced SE resulted in cell death in the CA1 and CA3 subfields of the hippocampus from 3 day after SE. RCAN1 immunoreactivity showed that RCAN1 was mainly expressed in neurons in the shammanipulated hippocampi. At 1 day after SE, RCAN1 expression became detected in hippocampal neuropils. However, RCAN1 signals were markedly enhanced in cells with stellate morphology at 3 and 7 day after SE, which were confirmed to be reactive astrocytes, but not microglia by double immunofluorescence. In addition, realtime reverse transcriptase-polymerase chain reaction showed a significant upregulation of RCAN1 isoform 4 (RCAN1-4) mRNA in the SE-induced hippocampi. Finally, in situ hybridization with immunohistochemistry revealed astrocytic expression of RCAN1-4 after SE. These results demonstrate astrocytic upregulation of RCAN1 and RCAN1-4 in the mouse hippocampus in the acute and subacute phases of epileptogenesis, providing foundational information for the potential role of RCAN1 in reactive astrocytes during epileptogenesis.

Overexpression of Rcan1-1L Inhibits Hypoxia-Induced Cell Apoptosis through Induction of Mitophagy

  • Sun, Lijun;Hao, Yuewen;An, Rui;Li, Haixun;Xi, Cong;Shen, Guohong
    • Molecules and Cells
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    • 제37권11호
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    • pp.785-794
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    • 2014
  • Mitophagy, a cellular process that selectively targets dysfunctional mitochondria for degradation, is currently a hot topic in research into the pathogenesis and treatment of many human diseases. Considering that hypoxia causes mitochondrial dysfunction, which results in cell death, we speculated that selective activation of mitophagy might promote cell survival under hypoxic conditions. In the present study, we introduced the Regulator of calcineurin 1-1L (Rcan1-1L) to initiate the mitophagy pathway and aimed to evaluate the effect of Rcan1-1L-induced mitophagy on cell survival under hypoxic conditions. Recombinant adenovirus vectors carrying Rcan1-1L were transfected into human umbilical vein endothelial cells and human adult cardiac myocytes. Using the 3-(4,5-Dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide MTT assay and Trypan blue exclusion assay, Rcan1-1L overexpression was found to markedly reverse cell growth inhibition induced by hypoxia. Additionally, Rcan1-1L overexpression inhibited cell apoptosis under hypoxic conditions, as detected by annexin V-fluorescein isothiocyanate (FITC)/propidium iodide (PI) apoptosis assay. Meanwhile, the mitochondria-mediated cell apoptotic pathway was inhibited by Rcan1-1L. In contrast, knockdown of Rcan1-1L accelerated hypoxia-induced cell apoptosis. Moreover, Rcan1-1L overexpression significantly reduced mitochondrial mass, decreased depolarized mitochondria, and downregulated ATP and reactive oxygen species production. We further delineated that the loss of mitochondrial mass was due to the activation of mitophagy induced by Rcan1-1L. Rcan1-1L overexpression activated autophagy flux and promoted translocation of the specific mitophagy receptor Parkin into mitochondria from the cytosol, whereas inhibition of autophagy flux resulted in the accumulation of Parkin-loaded mitochondria. Finally, we demonstrated that mitochondrial 1permeability transition pore opening was significantly increased by Rcan1-1L overexpression, which suggested that Rcan1-1L might evoke mitophagy through regulating mitochondrial permeability transition pores. Taken together, we provide evidence that Rcan1-1L overexpression induces mitophagy, which in turn contributes to cell survival under hypoxic conditions, revealing for the first time that Rcan1-1L-induced mitophagy may be used for cardioprotection.

Knockdown of RCAN1.4 Increases Susceptibility to FAS-mediated and DNA-damage-induced Apoptosis by Upregulation of p53 Expression

  • Kim, Young-Sun;Lee, Hong-Joon;Jang, Cho-Rong;Kim, Ho-Shik;Cho, Young-Jin
    • The Korean Journal of Physiology and Pharmacology
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    • 제13권6호
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    • pp.483-489
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    • 2009
  • Despite the potential importance of the human regulator of calcineurin 1 (RCAN-1) gene in the modulation of cell survival under stress, little is known about its role in death-inducing signal pathways. In this study, we addressed the effects of RCAN1.4 knockdown on cellular susceptibility to apoptosis and the activation of death pathway proteins. Transfection of siRNAs against RCAN1.4 resulted in enhanced Fas- and etoposide-induced apoptosis, which was associated with increased expression and translocation of Bax to mitochondria. Our results suggest that enhanced expression and activation of p53 was responsible for the upregulation of Bax and the increased sensitivity to apoptosis, which could be reversed by p53 knockdown. To explain the observed upregulation of p53, we propose a downregulation of the ubiquitin ligase HDM2, probably translationally. These findings show the importance of appropriate RCAN1.4 expression in the modulation of cell survival and reveal a link between RCAN1.4 and p53.

Application of Image Super-Resolution to SDO/HMI magnetograms using Deep Learning

  • Rahman, Sumiaya;Moon, Yong-Jae;Park, Eunsu;Cho, Il-Hyun;Lim, Daye
    • 천문학회보
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    • 제44권2호
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    • pp.70.4-70.4
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    • 2019
  • Image super-resolution (SR) is a technique that enhances the resolution of a low resolution image. In this study, we use three SR models (RCAN, ProSRGAN and Bicubic) for enhancing solar SDO/HMI magnetograms using deep learning. Each model generates a high resolution HMI image from a low resolution HMI image (4 by 4 binning). The pixel resolution of HMI is about 0.504 arcsec. Deep learning networks try to find the hidden equation between low resolution image and high resolution image from given input and the corresponding output image. In this study, we trained three models with HMI images in 2014 and test them with HMI images in 2015. We find that the RCAN model achieves higher quality results than the other two methods in view of both visual aspects and metrics: 31.40 peak signal-to-noise ratio(PSNR), Correlation Coefficient (0.96), Root mean square error (RMSE) is 0.004. This result is also much better than the conventional bi-cubic interpolation. We apply this model to a full-resolution SDO/HMI image and compare the generated image with the corresponding Hinode NFI magnetogram. As a result, we get a very high correlation (0.92) between the generated SR magnetogram and the Hinode one.

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