CefR modulates transporters of beta-lactam intermediates preventing the loss of penicillins to the broth and increases cephalosporin production in Acremonium chrysogenum.

The Acremonium chrysogenum cephalosporin biosynthetic genes are divided in two different clusters. The central step of the biosynthetic pathway (epimerization of isopenicillin N to penicillin N) occurs in peroxisomes. We found in the "early" cephalosporin cluster a new ORF encoding a regulatory protein (CefR), containing a nuclear targeting signal and a "Fungal_trans" domain. Targeted inactivation of cefR delays expression of the cefEF gene, increases penicillin N secretion and decreases cephalosporin production. Overexpression of the cefR gene decreased (up to 60%) penicillin N secretion, saving precursors and resulting in increased cephalosporin C production. Northern blot analysis revealed that the CefR protein acts as a repressor of the exporter cefT and exerts a small stimulatory effect over the expression level of cefEF that explains the increased cephalosporin yields observed in transformants overexpressing cefR. In summary, we describe for the first time a modulator of beta-lactam intermediate transporters in A. chrysogenum.