Akt phosphorylation of La regulates specific mRNA translation in glial progenitors.

The Akt signaling pathway activity increases as normal tissue progresses to malignant transformation, and regulates the translation of specific messenger RNAs (mRNAs) through multiple mechanisms. We have identified one such mechanism of Akt-dependent translation control as involving the lupus autoantigen La. La is an RNA-associated protein that contains multiple trafficking elements to support the interaction with RNAs in different subcellular locations. We show here that the La protein is a direct target of the serine/threonine protein kinase Akt on threonine 301, and La nuclear export in mouse glial progenitors, as well as its association with polysomes is modulated by Akt activity. Using a functional approach to determine the network of genes affected by La in the cytoplasm by microarray analysis of polysome-bound mRNAs, we found that La binds 34% of the polysome bound mRNAs and regulates the expression of a specific pool of mRNAs under KRas/Akt activation. Therefore, La appears to be an important contributor to Akt-mediated translational regulation of these transcripts in murine glial cells.

Identification of secondary structure in the 5'-untranslated region of the human adrenomedullin mRNA with implications for the regulation of mRNA translation.

Adrenomedullin (AM) is a multifunctional regulatory peptide with important angiogenic and mitogenic properties. Here we identify a region of stable secondary structure in the 5'-untranslated region (5' UTR) of human AM mRNA. Reverse transcriptase-polymerase chain reaction of the 5' UTR consistently resulted, in addition to the product with the expected size of 155 base pair (bp), in a second product with an approximately 65-bp deletion from the central region of the 5' UTR, suggesting the presence of a secondary structure. The presence of a stem-loop structure was confirmed by probing the 5' UTR with RNases with selectivity for single- or double-stranded RNA. We investigated the role of this stem-loop structure in expression of luciferase reporter gene in cultured cell lines. Reporter assays using a chimeric mRNA that combined luciferase and the 5' UTR of AM mRNA demonstrated a dramatic decrease of the reporter activity owing to a decreased translation, whereas the deletion of the stem-loop structure localized between nt +31 and +95 from the cap site led to the recovery of activity. Gel migration shift assays using cytosolic extracts from mammalian cell lines demonstrate a specific binding of a cytosolic protein to riboprobes containing the 5' UTR of AM but not to riboprobes either corresponding to other areas of the message or containing the 5' UTR but lacking the region of secondary structure. Although we conclude that the 5' UTR of the human AM mRNA can modulate the translation of AM mRNA in vivo, and that the predicted stem-loop structure is necessary for this inhibition, the functional consequences of the cis element-binding activity remain to be determined.