Marie Hélène Cuif scite author profile

Glucose catabolism induces the expression of the Ltype pyruvate kinase (L-PK) gene through the glucose response element (GIRE). The metabolic pathway used by glucose after its phosphorylation to glucose 6-phosphate by glucokinase to induce L-PK gene expression in hepatocytes remains unknown. The sugar alcohol xylitol is metabolized to xylulose 5-phosphate, an intermediate of the nonoxidative branch of the pentose phosphate pathway. In this study, we demonstrated that xylitol at low concentration (O.5 mM) induced the expression of the L-PK/CAT construct in glucose-responsive mhAT3F hepatoma cells at the same level as 20 mM glucose, while it did not affect intracellular concentration of glucose 6-phosphate significantly. The effect of xylitol on the induction of the L-PK gene expression was noncumulative with that of glucose since 20 mM glucose plus 5 mM xylitol induced the expression of the L-PK/ CAT construct similarly to 20 mM glucose alone. In hepatocytes in primary culture, 5 mM xylitol induced accumulation of the L-PK mRNA even in the absence of insulin. Furthermore, the response to xylitol as well as glucose required the presence of a functional GIRE. It can be assumed from these results that glucose induces the expression of the L-PK gene through the nonoxidative branch of the pentose phosphate pathway. The effect of xylitol at low concentration suggests that the glucose signal to the transcriptional machinery is mediated by xylulose 5-phosphate.

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Functional characterization of the L-type pyruvate kinase gene glucose response complex.

Guerra¹,

Bergot²,

Martinez³

et al. 1993

Mol. Cell. Biol.

111

110

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L-type pyruvate kinase (L-PK) gene expression is modulated by hormonal and nutritional conditions. We have previously shown that the glucose/insulin response element (GIRE) of the L-PK gene is built around two noncanonical E boxes (element IA) that cooperate closely with a contiguous binding site (element L3). We present in this report the identification of proteins that interact with both elements. The L3 site binds hepatocyte nuclear factor 4 (HNF4)-and COUPITF-related proteins. In fibroblasts, the overexpression of HNF4 transactivates the L-PK promoter. On the contrary, COUP/TF strongly inhibits the active promoter in hepatocytes. The L4 site binds the major late transcription factor (MLTF) in vitro and ex vivo; mutations that suppress this binding activity also inactivated the GIRE function. Mutations transforming one or two noncanonical E boxes of element LA into consensus MLTF/USF binding sites strongly increase the affinity for MLTF/USF and do not impair the glucose responsiveness. However, merely the ability to bind MLTF/USF does not seem to be sufficient to confer a GIRE activity: those elements in which one E box has been destroyed and the other has been transformed into a consensus MLTF/USF sequence bind MLTF/USF efficiently but do not confer a high glucose responsiveness on the L-PK gene promoter. Consequently, the full activity of the L-PK GIRE seems to require the cooperation between two putative MLTF/USF binding sites located in the vicinity of an HNF4 binding site.The L-type pyruvate kinase (L-PK) is a key enzyme of the glycolytic pathway. It is coordinately regulated at the transcriptional and posttranscriptional levels, positively by carbohydrates in the presence of insulin and negatively by glucagon via cyclic AMP (8,32). The regulatory region of the L-PK gene, responsible for its transcriptional response to carbohydrates and hormones, has been ascribed to a -120/ -183-bp proximal promoter fragment (2, 30), ex vivo by transient expression assays in hepatocytes in primary culture, and in vivo in transgenic mice (7). We had previously characterized the important cis-acting DNA elements in the L-PK gene promoter: in the 3'-5' direction upstream from the TATA box, we found, respectively, box Li, a binding site for hepatocyte nuclear factor 1 (HNF1); box L2, a binding site for nuclear factor 1; box L3, a binding site for HNF4; and box LA, a weak in vitro binding site for major late transcription factor (MLTF)/USF ( Fig. 1) (33). Box IA contains the L-PK gene glucose/insulin response element (GlRE) and is also indispensable for the action of glucagon and cyclic AMP. When L4 is oligomerized, it is able to confer glucose/insulin and cyclic AMP responsiveness on a

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Elements responsible for hormonal control and tissue specificity of L-type pyruvate kinase gene expression in transgenic mice.

Cuif¹,

Cognet²,

Boquet³

et al. 1992

Mol. Cell. Biol.

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L-tpe pyruvate kinase (L-PK) is a key enzyme of the glycolytic pathway specifically expressed in the liver and, to a lesser degree, in the small intestine and kidney. One important characteristic of L-PK gene expression is its strong activation by glucose and insulin and its complete inhibition by fasting or glucagon treatment.Having previously established that the entire rat L-PK gene plus 3.2 kbp of 5'-flanking region functions in mice in a tissue-specific and hormonally regulated manner, various deletions of these 3.2 kbp of 5'-flanking regions were tested in transgenic animals to map the cis-acting elements involved in transcriptional gene regulation.Our experiments indicate that the proximal region between -183 and +11 confers tissue specificity and contains all the information necessary for dietary and hormonal control of L-PK gene expression in vivo. We found, however, that the transcriptional activity generated by this proximal promoter fragment can be modulated by distal sequences in a tissue-specific manner. (i) Sequences between bp -183 and -392 seem to play a dual role in the liver and small intestine; they induce L-PK expression in the liver but repress it in the small intestine. (ii) Sequences from bp -392 up to -1170 do not seem to have any additional effect on promoter activity. (iii) Between bp -1170 and -2080, we found a putative extinguisher whose transcriptional inhibitory effect is much more marked in the small intestine than in the liver. (iv) Finally, between bp -2080 and -3200, we identified an activating sequence required for full expression of the gene in the liver.

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Respective roles of glucose, fructose, and insulin in the regulation of the liver-specific pyruvate kinase gene promoter.

Doiron

Cuif

Kahn

et al. 1994

Journal of Biological Chemistry

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