Kazuishi Kubota scite author profile

Brown adipose cells are specialized to dissipate chemical energy in the form of heat, as a physiological defense against cold and obesity1. PRDM16 (PRD1-BF1-RIZ1 homologous domain containing 16) is a 140 kDa zinc finger protein that robustly induces brown fat determination and differentiation2. Recent data suggests that brown fat cells arise in vivo from a myf5-positive, myoblastic lineage through the action of PRDM163; however, the molecular mechanisms responsible for this developmental switch is unclear. Here we show that PRDM16 forms a transcriptional complex with the active form of C/EBP-β (LAP), serving as a critical molecular unit that controls the cell fate switch from myoblastic precursors to brown fat cells. Forced expression of PRDM16 and C/EBP-β is sufficient to induce a fully functional brown fat program in naïve fibroblastic cells, including skin fibroblasts from mouse and man. Transplantation of fibroblasts expressing these two factors into mice gives rise to an ectopic fat pad with the morphological and biochemical characteristics of brown fat. As with endogenous brown fat, this synthetic brown fat tissue serves as a sink for glucose uptake, as determined by 18FDG-PET scanning. These data indicate that the PRDM16-C/EBP-β complex initiates brown fat development from myoblastic precursors, and may provide opportunities for the development of novel therapeutics for obesity and type-2 diabetes.

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Regulation of Meiotic Recombination via Mek1-Mediated Rad54 Phosphorylation

Niu

et al. 2009

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SUMMARY A preference for homologs over sister chromatids in homologous recombination is a fundamental difference in meiotic versus mitotic cells. In budding yeast, the bias for interhomolog recombination in meiosis requires the Dmc1 recombinase and the meiosis-specific kinase, Mek1, which suppresses engagement of sister chromatids by the mitotic recombinase, Rad51. Here, a combination of proteomic, biochemical and genetic approaches has identified an additional role for Mek1 in inhibiting the activity of the Rad51 recombinase through phosphorylation of its binding partner, Rad54. Rad54 phosphorylation of threonine 132 attenuates complex formation with Rad51 and a negative charge at this position reduces Rad51 function in vitro and in vivo. Thus, Mek1 phosphorylation provides a dynamic means of controlling recombination partner choice in meiosis in two ways: (1) it reduces Rad51 activity through inhibition of Rad51/Rad54 complex formation and (2) it suppresses Rad51-mediated strand invasion of sister chromatids via a Rad54-independent mechanism.

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Comparison of enzymatic properties between hPADI2 and hPADI4

Nakayama-Hamada

Suzuki

Kubota

et al. 2005

Biochemical and Biophysical Research Communications

102

107

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Open sandwich ELISA: A novel immunoassay based on the interchain interaction of antibody variable region

et al. 1996

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We describe an immunoassay that is based on the interchain interaction of separated VL and VH chains from a single chain antibody variable region. In the presence of antigen, the chains reassociate. VL fragments of anti-hen egg lysozyme (HEL) antibody HyHEL-10 were immobilized on microtiter plates. Samples were coincubated with an M13-displayed VH chain, and assayed with peroxidase-labeled anti-M13 antibody. Signal was detected in direct proportion to the amount of HEL in the sample. Wide dynamic range with < 15 ng/ml sensitivity was attained.

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Identification of 2′-Phosphodiesterase, Which Plays a Role in the 2-5A System Regulated by Interferon

Kubota

Nakahara

Ohtsuka

et al. 2004

Journal of Biological Chemistry

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The 2-5A system is one of the major pathways for antiviral and antitumor functions that can be induced by interferons (IFNs). The 2-5A system is modulated by 5-triphosphorylated, 2,5-phosphodiester-linked oligoadenylates (2-5A), which are synthesized by 2,5-oligoadenylate synthetases (2,5-OASs), inactivated by 5-phosphatase and completely degraded by 2-phosphodiesterase (2-PDE). Generated 2-5A activates 2-5A-dependent endoribonuclease, RNase L, which induces RNA degradation in cells and finally apoptosis. Although 2,5-OASs and RNase L have been molecularly cloned and studied well, the identification of 2-PDE has remained elusive. Here, we describe the first identification of 2-PDE, the third key enzyme of the 2-5A system. We found a putative 2-PDE band on SDS-PAGE by successive six-step chromatographies from ammonium sulfate precipitates of bovine liver and identified a partial amino acid sequence of the human 2-PDE by mass spectrometry. Based on the full-length sequence of the human 2-PDE obtained by in silico expressed sequence tag assembly, the gene was cloned by reverse transcription-PCR. The recombinant human 2-PDE expressed in mammalian cells certainly cleaved the 2,5-phosphodiester bond of 2-5A trimer and 2-5A analogs. Because no sequences with high homology to this human 2-PDE were found, the human 2-PDE was considered to be a unique enzyme without isoform. Suppression of 2-PDE by a small interfering RNA and a 2-PDE inhibitor resulted in significant reduction of viral replication, whereas overexpression of 2-PDE protected cells from IFN-induced antiproliferative activity. These observations identify 2-PDE as a key regulator of the 2-5A system and as a potential novel target for antiviral and antitumor treatments.

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Kazuishi Kubota

Initiation of myoblast to brown fat switch by a PRDM16–C/EBP-β transcriptional complex

Regulation of Meiotic Recombination via Mek1-Mediated Rad54 Phosphorylation

Comparison of enzymatic properties between hPADI2 and hPADI4

Open sandwich ELISA: A novel immunoassay based on the interchain interaction of antibody variable region

Identification of 2′-Phosphodiesterase, Which Plays a Role in the 2-5A System Regulated by Interferon

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