Implication of the glutamine synthetase/glutamate synthase pathway in conditioning the amino acid metabolism in bundle sheath and mesophyll cells of maize leaves

We have studied nitrogen metabolism during senescence of the ethylene-insensitive flower Sandersonia aurantiaca Hook. We report here on the isolation and characterization of two cDNAs from senescing sandersonia tepals. SAND1 encodes asparagine synthetase (AS; EC 6.3.5.4) and SAND3 encodes glutamine synthetase (GS; EC 6.3.1.2). The accumulation of SAND3 mRNAs was consistently high throughout flower development and senescence and was not associated with senescence per se. SAND1 mRNAs started to accumulate in mature flowers just prior to visual signs of senescence. Sucrose feeding of individual flowers delayed tepal senescence and altered amino acid metabolism. The levels of Asn, Gln and Glu were higher and Asp levels were lower in the sucrose-fed flowers. The senescence-associated peak in Gln was delayed in sucrose-fed flowers compared to controls that were held in water. Sucrose feeding had no effect on the initiation of SAND1 transcription at the onset of flower senescence; however, the later decline in SAND1 mRNA abundance was delayed in sucrose-fed flowers. Elimination of GS activity and the subsequent reduction in Gln levels caused by phosphinothricin treat-ment was associated with a delay of SAND1 mRNA accumulation in senescing flowers.

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FOXO1 activates glutamine synthetase gene in mouse skeletal muscles through a region downstream of 3′-UTR: possible contribution to ammonia detoxification

AJP Endocrinology and Metabolism ◽

10.1152/ajpendo.00177.2014 ◽

2014 ◽

Vol 307 (6) ◽

pp. E485-E493 ◽

Cited By ~ 10

Author(s):

Yasutomi Kamei ◽

Maki Hattori ◽

Yukino Hatazawa ◽

Tomomi Kasahara ◽

Masanobu Kanou ◽

...

Keyword(s):

Skeletal Muscle ◽

Amino Acid ◽

Glutamine Synthetase ◽

Amino Acid Metabolism ◽

Acid Metabolism ◽

Consensus Sequence ◽

Genomic Region ◽

Wild Type ◽

Mrna And Protein Expression

Skeletal muscle is a reservoir of energy in the form of protein, which is degraded under catabolic conditions, resulting in the formation of amino acids and ammonia as a byproduct. The expression of FOXO1, a forkhead-type transcription factor, increases during starvation and exercise. In agreement, transgenic FOXO1-Tg mice that overexpress FOXO1 in skeletal muscle exhibit muscle atrophy. The aim of this study was to examine the role of FOXO1 in amino acid metabolism. The mRNA and protein expressions of glutamine synthetase (GS) were increased in skeletal muscle of FOXO1-Tg mice. Fasting induced FOXO1 and GS expression in wild-type mice but hardly increased GS expression in muscle-specific FOXO1 knockout (FOXO1-KO) mice. Activation of FOXO1 also increased GS mRNA and protein expression in C2C12 myoblasts. Using a transient transfection reporter assay, we observed that FOXO1 activated the GS reporter construct. Mutation of a putative FOXO1-binding consensus sequence in the downstream genomic region of GS decreased basal and FOXO1-dependent reporter activity significantly. A chromatin immunoprecipitation assay showed that FOXO1 was recruited to the 3′ region of GS in C2C12 myoblasts. These results suggest that FOXO1 directly upregulates GS expression. GS is considered to mediate ammonia clearance in skeletal muscle. In agreement, an intravenous ammonia challenge increased blood ammonia concentrations to a twofold higher level in FOXO1-KO than in wild-type mice, demonstrating that the capacity for ammonia disposal correlated inversely with the expression of GS in muscle. These data indicate that FOXO1 plays a role in amino acid metabolism during protein degradation in skeletal muscle.

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