Journal articles

Dysregulated expression of factors that control protein synthesis is associated with poor prognosis of many cancers, but the underlying mechanisms are not well defined. Analysis of the diffuse large B-cell lymphoma (DLBCL) translatome revealed selective upregulation of mRNAs encoding anti-apoptotic and DNA repair proteins. We show that enhanced synthesis of these proteins in DLBCL is mediated by the relief of repression that is normally imposed by structure in the 5'-untranslated regions of their corresponding mRNAs.

Hematological malignancies are a heterogeneous group of diseases deriving from blood cells progenitors. Although many genes involved in blood cancers contain internal ribosome entry sites (IRESes), there has been only few studies focusing on the role of cap-independent translation in leukemia and lymphomas. Expression of IRES trans-acting factors can also be altered, and interestingly, BCL-ABL1 fusion protein expressed from "Philadelphia" chromosome, found in some types of leukemia, regulates several of them.

The fibroblast strain GM3498 and the lymphoblastoid line GM4408 have been established from the same Bloom's syndrome patient, as confirmed by DNA hybridization with hypervariable probes and isoenzyme analysis. Strain GM3498, but not GM4408, exhibits a high frequency of spontaneous sister chromatid exchange, hypersensitivity to ethyl methanesulphonate and an anomalously low level of DNA ligase I activity. We conclude that GM3498 is representative of Bloom's syndrome, whereas GM4408 is a revertant cell line.

The genome of bacteriophage fd has been engineered to allow foreign amino acid sequences to be displayed in the exposed N-terminal segment of the major coat protein in the virus particle: small peptides can be encoded directly; larger peptides are encoded in hybrid virions, in which wild-type coat protein subunits are interspersed with coat proteins displaying the foreign peptides.

Previous studies on the regulation of c-myc have focused on the transcriptional control of this proto-oncogene. We have investigated the signalling pathways involved under circumstances in which there is a translational upregulation in the levels of c-myc protein. We have demonstrated an up to tenfold serum-dependent increase of c-myc protein levels in Epstein-Barr virus immortalized B-cell lines 2-4 h after disruption of cellular aggregates, which is not accompanied by an equivalent increase in mRNA.

The apoptotic protease activating factor (Apaf-1) plays a central role in apoptosis: interaction of this protein with procaspase-9 leads to cleavage and activation of this initiator caspase. In common with other mRNAs whose protein products have a major regulatory function, the 5' untranslated region (UTR) of Apaf-1 is long, G-C rich and has the potential to form secondary structure.

Recent studies have shown that during apoptosis protein synthesis is inhibited and that this is in part due to the proteolytic cleavage of eukaryotic initiation factor 4G (eIF4G). Initiation of translation can occur either by a cap-dependent mechanism or by internal ribosome entry. The latter mechanism is dependent on a complex structural element located in the 5' untranslated region of the mRNA which is termed an internal ribosome entry segment (IRES). In general, IRES-mediated translation does not require eIF4E or full-length eIF4G.

The 5' untranslated region of the proto-oncogene c-myc contains an internal ribosome entry segment (IRES) (Nanbru et al., 1997; Stoneley et al., 1998) and thus c-myc protein synthesis can be initiated by a cap-independent as well as a cap-dependent mechanism (Stoneley et al., 2000). In cell lines derived from patients with multiple myeloma (MM) there is aberrant translational regulation of c-myc and this correlates with a C-T mutation in the c-myc-IRES (Paulin et al., 1996). RNA derived from the mutant IRES displays enhanced binding of protein factors (Paulin et al., 1998).

Altering the rate of translation initiation of a specific gene can tightly regulate the synthesis of the corresponding polypeptide and is an important mechanism in the control of gene expression. For some time it has been known that many genes involved in cell proliferation, cell growth and apoptosis have atypical 5' untranslated regions (UTRs) containing a high degree of RNA secondary structure, upstream open reading frames and internal ribosome entry segments. These features play a key role in the regulation of protein synthesis.