Impact of adenylyltransferase GlnE on nitrogen starvation response in Corynebacterium glutamicum.

Adenylyltransferases regulate glutamine synthetase activity in enterobacteria and actinomycetes such as Streptomyces coelicolor, Mycobacterium tuberculosis and Corynebacterium glutamicum. In this study the effects of a mutation of the glnE gene, coding for adenylyltransferase, on transcriptome and metabolome profiles of C. glutamicum was investigated. As expected, the glnE deletion led to a loss of activity regulation of glutamine synthetase. Astonishingly, additionally the glnE mutation caused a nitrogen limitation response on the transcript level as well. Interestingly, induction of the nitrogen starvation response in the mutant strain was unusually weak and GlnK was present in adenylylated form even without nitrogen starvation. The results obtained might hint to a moonlighting function of adenylyltransferase and might be explained by protein interaction of adenylyltransferase and an unknown interaction partner of the nitrogen regulatory network.

Expression patterns and novel splicing variants of glutathione-S-transferase isoenzymes of human lung and hepatocyte cell lines.

Polymorphic glutathione S-transferase (GST) enzymes are involved in the metabolism of xenobiotics. They are of particular interest when studying disease susceptibility and adverse drug responses. The present work deals with the genetic polymorphisms and expression of the five GST classes (alpha, mu, pi, theta and zeta) in human lung and hepatocyte cell lines. We have determined their bioavailability for in vitro approaches. Common genetic polymorphisms of GSTM1 (*0, null), GSTT1 (*0) and GSTP1 (*A/*B, I105V) are detectable. The frequencies of the polymorphisms are within the expected range for a Caucasian population with one exception. The GSTM1*0 allele is 1.5-fold more frequent in lung cell lines. GST mRNAs are frequently but not uniformly distributed among unstimulated in vitro conditions. Lung cell lines show an approximately six-fold higher total GST transcript expression than hepatocyte cell lines. Additional GST transcripts have been identified for GSTT1; they represent alternative new splicing variants that occur in cancerous cell lines and in healthy lung tissue and blood. GST enzyme activity is mainly influenced by GSTP1. The activity promoted by 1-chloro-2,4-dinitrobenzene is significantly correlated to the GSTP1 mRNA expression level (R2=0.77, P<0.001). Individual human cell lines thus express GST isoenzymes in a similar pattern to human tissue. The most common genetic polymorphisms are present among the cell lines and have to be considered for in vitro stimulation approaches in a combinatory pattern.