Kazuhiko Umesono scite author profile

Peroxisomes are cytoplasmic organelles which are important in mammals in modulation of lipid homeostasis, including the metabolism of long-chain fatty acids and conversion of cholesterol to bile salts (reviewed in refs 1 and 2). Amphipathic carboxylates such as clofibric acid have been used in man as hypolipidaemic agents and in rodents they stimulate the proliferation of peroxisomes. These agents, termed peroxisome proliferators, and all-trans retinoic acid activate genes involved in peroxisomal-mediated beta-oxidation of fatty acids. Here we show that the receptor activated by peroxisome proliferators and the retinoid X receptor-alpha (ref. 6) form a heterodimer that activates acyl-CoA oxidase gene expression in response to either clofibric acid or the retinoid X receptor-alpha ligand, 9-cis retinoic acid, an all-trans retinoic acid metabolite; simultaneous exposure to both activators results in a synergistic induction of gene expression. These data demonstrate the coupling of the peroxisome proliferator and retinoid signalling pathways and provide evidence for a physiological role for 9-cis retinoic acid in modulating lipid metabolism.

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Direct repeats as selective response elements for the thyroid hormone, retinoic acid, and vitamin D3 receptors

Umesono

Murakami

Thompson

et al. 1991

Cell

1,649

954

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Differential expression and activation of a family of murine peroxisome proliferator-activated receptors.

Kliewer

Forman

Blumberg

et al. 1994

Proc. Natl. Acad. Sci. U.S.A.

1,302

922

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Chloroplast gene organization deduced from complete sequence of liverwort Marchantia polymorpha chloroplast DNA

Ohyama

Fukuzawa

Kohchi

et al. 1986

Nature

1,431

815

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Chromosomal translocation t(15;17) in human acute promyelocytic leukemia fuses RARα with a novel putative transcription factor, PML

Kakizuka

Miller

Umesono

et al. 1991

Cell

1,372

790

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A unique mRNA produced in leukemic cells from a t(15;17) acute promyelocytic leukemia (APL) patient encodes a fusion protein between the retinoic acid receptor alpha (RAR alpha) and a myeloid gene product called PML. PML contains a cysteine-rich region present in a new family of apparent DNA-binding proteins that includes a regulator of the interleukin-2 receptor gene (Rpt-1) and the recombination-activating gene product (RAG-1). Accordingly, PML may represent a novel transcription factor or recombinase. The aberrant PML-RAR fusion product, while typically retinoic acid responsive, displays both cell type- and promoter-specific differences from the wild-type RAR alpha. Because patients with APL can be induced into remission with high dose RA therapy, we propose that the nonliganded PML-RAR protein is a new class of dominant negative oncogene product. Treatment with RA would not only relieve this inhibition, but the activated PML-RAR protein may actually promote myelocyte differentiation.

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LXR, a nuclear receptor that defines a distinct retinoid response pathway.

Willy¹,

Umesono²,

Ong³

et al. 1995

Genes Dev.

990

778

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We have identified a new retinoid response pathway through which 9-cis retinoic acid (9cRA) activates transcription in the presence of LXRot, a member of the nuclear receptor superfamily. LXRe~ shows a specific pattern of expression in visceral organs, thereby restricting the response to certain tissues. Retinoid trans-activation occurs selectively on a distinct response element termed an LXRE. Significantly, neither RXR homodimers nor RXR/RAR heterodimers are able to substitute for LXR~ in mediating this retinoid response. We provide evidence that the retinoid response on the LXRE is the result of a unique interaction between LXRot and endogenous RXR, which, unlike in the RXR/RAR heterodimer, makes RXR competent to respond to retinoids. Thus, the interaction with LXRot shifts RXR from its role described previously as a silent, DNA-binding partner to an active ligand-binding subunit in mediating retinoid responses through target genes defined by LXREs.

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Comparative and functional anatomy of group II catalytic introns — a review

Michel

Umesono

Ozeki

1989

Gene

727

758

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