Transcriptional Autoregulation and Inhibition of mRNA Translation of Amino Acid Regulator Gene cpcA of Filamentous Fungus Aspergillus nidulans

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Vol. 12, Issue 9, 2846-2857, September 2001

Transcriptional Autoregulation and Inhibition of mRNA Translation of Amino Acid Regulator Gene cpcA of Filamentous Fungus Aspergillus nidulans

Bernd Hoffmann,^* Oliver Valerius, Meike Andermann, and Gerhard H. Braus

Institute of Microbiology and Genetics, Georg-August University, D-37077 Göttingen, Germany

The CPCA protein of the filamentous fungus Aspergillus nidulans is a member of the c-Jun-like transcriptional activator family.It acts as central transcription factor of the cross-pathway regulatorynetwork of amino acid biosynthesis and is functionally exchangeablefor the general control transcriptional activator Gcn4p of Saccharomycescerevisiae. In contrast to GCN4, expression of cpcA is stronglyregulated by two equally important mechanisms with additive effectsthat lead to a fivefold increased CPCA protein amount under aminoacid starvation conditions. One component of cpcA regulation involvesa transcriptional autoregulatory mechanism via a CPCA recognitionelement (CPRE) in the cpcA promoter that causes a sevenfold increasedcpcA mRNA level when cells are starved for amino acids. Pointmutations in the CPRE cause a constitutively low mRNA level ofcpcA and a halved protein level when amino acids are limited.Moreover, two upstream open reading frames (uORFs) in the 5' regionof the cpcA mRNA are important for a translational regulatorymechanism. Destruction of both short uORFs results in a sixfoldincreased CPCA protein level under nonstarvation conditions anda 10-fold increase under starvation conditions. Mutations in boththe CPRE and uORF regulatory elements lead to an intermediateeffect, with a low cpcA mRNA level but a threefold increased CPCAprotein level independent of amino acid availability. These dataargue for a combined regulation of cpcA that includes a translationalregulation like that of yeast GCN4 as well as a transcriptionalregulation like that of the mammalian jun and fosgenes.

^* Present address: Department of Pharmacology, University of Medicine and Dentistry of New Jersey, Robert Wood Johnson MedicalSchool, Piscataway, NJ08854.

Corresponding author. E-mail address: gbraus{at}gwdg.de.

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