Roderick T. Hori scite author profile

Long chain fatty acids and pharmacologic ligands for the peroxisome proliferator activated receptor alpha (PPARα) activate expression of genes involved in fatty acid and glucose oxidation including carnitine palmitoyltransferase-1A (CPT-1A) and pyruvate dehydrogenase kinase 4 (PDK4). CPT-1A catalyzes the transfer of long chain fatty acids from acyl-CoA to carnitine for translocation across the mitochondrial membranes and is an initiating step in the mitochondrial oxidation of long chain fatty acids. PDK4 phosphorylates and inhibits the pyruvate dehydrogenase complex (PDC) which catalyzes the conversion of pyruvate to acetyl-CoA in the glucose oxidation pathway. The activity of CPT-1A is modulated both by transcriptional changes as well as by malonyl-CoA inhibition. In the liver, CPT-1A and PDK4 gene expression are induced by starvation, high fat diets and PPARα ligands. Here, we characterized a binding site for PPARα in the second intron of the rat CPT-1A gene. Our studies indicated that WY14643 and long chain fatty acids induce CPT-1A gene expression through this element. In addition, we found that mutation of the PPARα binding site reduced the expression of CPT-1A-luciferase vectors in the liver of fasted rats. We had demonstrated previously that CPT-1A was stimulated by the peroxisome proliferator activated receptor gamma coactivator (PGC-1α) via sequences in the first intron of the rat CPT-1A gene. Surprisingly, PGC-1α did not enhance CPT-1A transcription through the PPARα binding site in the second intron. Following knockdown of PGC-1α with short hairpin RNA, the CPT-1A and PDK4 genes remained responsive to WY14643. Overall, our studies indicated that PPARα and PGC-1α stimulate transcription of the CPT-1A gene through different regions of the CPT-1A gene.

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Role of Sirtuin 1 in the Regulation of Hepatic Gene Expression by Thyroid Hormone

Thakur

Sharma

Attia

et al. 2013

Journal of Biological Chemistry

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Background: Sirtuin 1 elevates the expression of genes involved in hepatic fatty acid oxidation. Results: Sirtuin 1 modulates the thyroid hormone regulation of the cpt1a, pdk4, and srebp-1c genes. Conclusion: Sirtuin 1 coregulates the thyroid hormone receptor-mediated induction of gene expression. Significance: Activators of sirtuin 1 and thyroid hormone receptor ␤ agonists could cooperatively stimulate fatty acid oxidation and inhibit lipogenesis.

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A promoter polymorphism in the Per3 gene is associated with alcohol and stress response

Wang

Mozhui

et al. 2012

Transl Psychiatry

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The period homolog genes Per1, Per2 and Per3 are important components of the circadian clock system. In addition to their role in maintaining circadian rhythm, these genes have been linked to mood disorders, stress response and vulnerability to addiction and alcoholism. In this study, we combined high-resolution sequence analysis and quantitative trait locus (QTL) mapping of gene expression and behavioral traits to identify Per3 as a compelling candidate for the interaction between circadian rhythm, alcohol and stress response. In the BXD family of mouse strains, sequence variants in Per3 have marked effects on steady-state mRNA and protein levels. As a result, the transcript maps as a cis-acting expression QTL (eQTL). We found that an insertion/deletion (indel) variant in a putative stress response element in the promoter region of Per3 causes local control of transcript abundance. This indel results in differences in protein binding affinities between the two alleles through the Nrf2 transcriptional activator. Variation in Per3 is also associated with downstream differences in the expression of genes involved in circadian rhythm, alcohol, stress response and schizophrenia. We found that the Per3 locus is linked to stress/anxiety traits, and that the basal expression of Per3 is also correlated with several anxiety and addiction-related phenotypes. Treatment with alcohol results in increased expression of Per3 in the hippocampus, and this effect interacts with acute restraint stress. Our data provide strong evidence that variation in the Per3 transcript is causally associated with and also responsive to stress and alcohol.

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The role of activators in assembly of RNA polymerase II transcription complexes

Hori

Carey

1994

Current Opinion in Genetics & Development

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A recurrent de novo missense mutation in UBTF causes developmental neuroregression

Toro

Hori

Malicdan

et al. 2018

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UBTF (upstream binding transcription factor) exists as two isoforms; UBTF1 regulates rRNA transcription by RNA polymerase 1, whereas UBTF2 regulates mRNA transcription by RNA polymerase 2. Herein, we describe 4 patients with very similar patterns of neuroregression due to recurrent de novo mutations in UBTF (GRCh37/hg19, NC_000017.10: g.42290219C > T, NM_014233.3: c.628G > A) resulting in the same amino acid change in both UBTF1 and UBTF2 (p.Glu210Lys [p.E210K]). Disease onset in our cohort was at 2.5 to 3 years and characterized by slow progression of global motor, cognitive and behavioral dysfunction. Notable early features included hypotonia with a floppy gait, high-pitched dysarthria and hyperactivity. Later features included aphasia, dystonia, and spasticity. Speech and ambulatory ability were lost by the early teens. Magnetic resonance imaging showed progressive generalized cerebral atrophy (supratentorial > infratentorial) with involvement of both gray and white matter. Patient fibroblasts showed normal levels of UBTF transcripts, increased expression of pre-rRNA and 18S rRNA, nucleolar abnormalities, markedly increased numbers of DNA breaks, defective cell-cycle progression, and apoptosis. Expression of mutant human UBTF1 in Drosophila neurons was lethal. Although no loss-of-function variants are reported in the Exome Aggregation Consortium (ExAC) database and Ubtf−/− is early embryonic lethal in mice, Ubtf+/− mice displayed only mild motor and behavioral dysfunction in adulthood. Our data underscore the importance of including UBTF E210K in the differential diagnosis of neuroregression and suggest that mainly gain-of-function mechanisms contribute to the pathogenesis of the UBTF E210K neuroregression syndrome.

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Protease footprinting reveals a surface on transcription factor TFIIB that serves as an interface for activators and coactivators.

Hori

Pyo

Carey

1995

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

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Transcriptional stimulation by the model activator GAL4-VP16 (a chimeric protein consisting of the DNA-binding domain of the yeast activator GAL4 and the acidic activation domain of the herpes simplex virus protein VP16) involves a series of poorly understood protein-protein interactions between the VP16 activation domain and components of the RNA polymerase II general transcription machinery. One of these interactions is the VP16-mediated binding and recruitment of transcription factor TFIIB. However, TATA box-binding protein (TBP)-associated factors (TAFs), or coactivators, are required for this interaction to culminate in productive transcription complex assembly, and one such TAF, Drosophila TAF40, reportedly forms a ternary complex with VP16 and TFIIB. Due to TFIIB's central role in gene activation, we sought to directly visualize the surfaces of this protein that mediate formation of the ternary complex. We developed an approach called protease footprinting in which the broad-specificity proteases chymotrypsin and alkaline protease were used to probe binding of 32P-end-labeled TFIIB to GAL4-VP16 or TAF40. Analysis of the cleavage products revealed two regions of TFIIB protected by VP16 from protease attack, one of which overlapped with a region protected by TAF40. The close proximity of the VP16 and TAF40 binding sites on the surface ofTFIIB suggests that this region could act as a regulatory interface mediating the effects of activators and coactivators on transcription complex assembly.The RNA polymerase II general transcription machinery is composed of six or more general factors called TFIIA through TFIIH (1). One of the key issues in the field is to understand how an upstream activator interacts with these factors to stimulate preinitiation complex assembly and transcription (2-7). The chimeric activator GAL4-VP16 (8-10) is a good model for studying this problem because of its potency in mammalian cell transfection assays (8) and in cell-free transcription systems (11-13). VP16 binds several potential targets in affinity chromatography studies (3-7, 14, 15), but the interaction with TFIIB is of particular interest because of its avidity (4, 5) and because VP16 recruits TFIIB to a promoter in assays of transcription complex assembly (4, 16). The interaction has also been validated by genetic studies: a point mutation in VP16, for example, simultaneously abolishes its interaction with TFIIB and its ability to stimulate transcription (4,17). Similarly, deletion mutations at the carboxyl ends of the two 77-aa repeats in TFIIB eliminate binding to VP16 (18)(19)(20), and point mutations in one of these regions, a putative basic amphipathic a-helix at the end of the first repeat, weaken TFIIB's interaction with VP16 and eliminate GAL4-VP16-responsive transcription in vitro (18 MATERIALS AND METHODSPlasmid Constructs. pETlld-C-HMK was constructed by inserting an oligonucleotide encoding a heart muscle kinase phosphorylation site (HMK) at the BamHI site of pETlid (Novagen). Nco I-BamHI fragments encod...

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DNA Double-Strand Break Accumulation in Alzheimer’s Disease: Evidence from Experimental Models and Postmortem Human Brains

et al. 2020

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Biochemical mechanism of transcriptional activation by GAL4-VP16

Tantin

Chi²,

Hori³

et al. 1996

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12 3 4

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Roderick T. Hori

Peroxisome proliferator activated receptor α (PPARα) and PPAR gamma coactivator (PGC-1α) induce carnitine palmitoyltransferase IA (CPT-1A) via independent gene elements

Role of Sirtuin 1 in the Regulation of Hepatic Gene Expression by Thyroid Hormone

A promoter polymorphism in the Per3 gene is associated with alcohol and stress response

The role of activators in assembly of RNA polymerase II transcription complexes

A recurrent de novo missense mutation in UBTF causes developmental neuroregression

Protease footprinting reveals a surface on transcription factor TFIIB that serves as an interface for activators and coactivators.

DNA Double-Strand Break Accumulation in Alzheimer’s Disease: Evidence from Experimental Models and Postmortem Human Brains

Biochemical mechanism of transcriptional activation by GAL4-VP16

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