Zinc as a second messenger of mitogenic induction

DNA synthesis and adenosine(S')tetraphosphate(S ')adenosine (Ap.A) levels decrease in cells treated with EDTA. The inhibitory effect of EDTA can be reversed with micro molar amounts of ZnCI2• ZnCh in micromolar concentrations also inhibits Ap.A hydrolase and stimulates amino acid-dependent Ap.A synthesis, suggesting that Zn2+ is modulating intracellular Ap.A pools. Serum addition to GI-arrested cells enhances uptake of Zn, whereas serum depletion leads to a fivefold decrease of the rates of zinc uptake. These results are discussed by regarding Zn2+ as a putative 'second messenger' of mitogenic induction and Ap.A as a possible 'third messenger' and trigger of DNA synthesis

Importin Beta Plays an Essential Role in the Regulation of the LysRS-Ap4A Pathway in Immunologically Activated Mast Cells ▿

We recently reported that diadenosine tetraphosphate hydrolase (Ap4A hydrolase) plays a critical role in gene expression via regulation of intracellular Ap4A levels. This enzyme serves as a component of our newly described lysyl tRNA synthetase (LysRS)-Ap4A biochemical pathway that is triggered upon immunological challenge. Here we explored the mechanism of this enzyme's translocation into the nucleus and found its immunologically dependent association with importin beta. Silencing of importin beta prevented Ap4A hydrolase nuclear translocation and affected the local concentration of Ap4A, which led to an increase in microphthalmia transcription factor (MITF) transcriptional activity. Furthermore, immunological activation of mast cells resulted in dephosphorylation of Ap4A hydrolase, which changed the hydrolytic activity of the enzyme