Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
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Target Concepts:
Gene/Protein
Disease
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Query: UMLS:C0038187 (
starvation
)
24,951
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
An amino acid
starvation
-induced mRNA, increased up to 4-fold in the absence of amino acids, was identified previously as rat 60 S subunit
ribosomal protein L17
. The data presented here demonstrate that among ribosomal proteins, L17, as well as the smaller subunit ribosomal protein S25, are uniquely regulated by amino acid deprivation of cells; the increase in L17 and S25 mRNA content in response to substrate
starvation
is not shared by the 11 other ribosomal proteins tested. When rat Fao hepatoma cells were incubated in the presence of actinomycin D, the L17 mRNA level decayed below the basal level, regardless of medium amino acid content, and nuclear run-off assays confirmed that nutrient
starvation
leads to enhanced transcription of the L17 ribosomal protein gene. Likewise, the induction of S25 mRNA also was prevented in the presence of actinomycin D. Furthermore, the induction of L17 and S25 mRNA content was blocked by cycloheximide, demonstrating the requirement for a newly synthesized protein in the signaling pathway. Northern analysis with RNA isolated from cytoplasmic, polysomal, and nuclear enriched fractions indicated that the
starvation
-dependent increase in the S25 and L17 mRNAs is retained within the nucleus and not is available for translation. Amino acid refeeding of the cells caused the translocation of the stored nuclear mRNAs to the polysomal fraction.
...
PMID:Nuclear retention of the induced mRNA following amino acid-dependent transcriptional regulation of mammalian ribosomal proteins L17 and S25. 814 59
Given the central role of protein synthesis in cellular function, it is likely that intricate mechanisms exist to detect and respond to amino acid deprivation. However, the current understanding of amino acid-dependent control of gene expression in mammalian cells is limited. A few examples of enzyme, transporters, and unidentified mRNA species subject to amino acid availability have been reported and some examples are summarized here. Each example chosen-asparagine synthetase, system A transport activity, and
ribosomal protein L17
--are associated with different aspects of amino acid metabolism, and therefore reflect the spectrum of metabolic pathways influenced by substrate control. Most of the data accumulated thus far suggest that a general control response exists such that these various activities are induced when any one of several amino acids becomes limiting. Consistent with observations in yeast, it appears that the degree of tRNA acylation and its resultant effect on protein synthesis may play an important role in initiating the
starvation
signal. De novo protein synthesis is required for
starvation
-dependent increases in several mRNA species, which suggests that the amino acid signaling pathway is composed of a series of intermediate steps before activation of specific structural genes.
...
PMID:Amino acid-regulated gene expression in eukaryotic cells. 829 85
