Overexpression of TRIB2 in human lung cancers contributes to tumorigenesis through downregulation of C/EBPα.

Lung cancer is the most common cause of cancer-related mortality worldwide. Here, we report elevated expression of tribbles homolog 2 (TRIB2) in primary human lung tumors and in non-small cell lung cancer cells that express low levels of differentiation-inducing transcription factor CCAAT/enhancer-binding protein alpha (C/EBPα). In approximately 10-20% of cases, elevated TRIB2 expression resulted from gene amplification. TRIB2 knockdown was found to inhibit cell proliferation and in vivo tumor growth. In addition, TRIB2 knockdown led to morphological changes similar to C/EBPα overexpression and correlated with increased expression and activity of C/EBPα. TRIB2-mediated regulation of C/EBPα was found to occur through the association of TRIB2 with the E3 ligase TRIM21. Together, these data identify TRIB2 as a potential driver of lung tumorigenesis through a mechanism that involves downregulation of C/EBPα.

Loss of one HuD allele on chromosome #1p selects for amplification of the N-myc proto-oncogene in human neuroblastoma cells.

In human neuroblastoma tumors, amplification of the N-myc proto-oncogene and loss of all or part of the short arm of chromosome #1 are both associated with a poor prognosis. Accruing evidence indicates that it is the absence of one allele of the HuD (ELAVL4) gene, encoding the neuronal-specific RNA-binding protein HuD and localized to 1p34, that is linked to amplification. In 12 human neuroblastoma cell lines, N-myc amplification correlates with loss of one HuD allele and decreased HuD expression. Transfection experiments demonstrate that modulating HuD expression affects N-myc gene copy number as well as expression. Introduction of a sense HuD construct into two N-myc amplified cell lines considerably increases N-myc expression whereas gene copy number decreases. Conversely, expression of antisense HuD in N-myc nonamplified SH-SY5Y cells reduces HuD and N-myc mRNA levels even as cells show amplification of the N-myc gene. Thus, N-myc gene copy number is modulated by alteration of HuD expression. We propose that haploinsufficiency of HuD due to chromosome #1p deletion in neuroblastoma selects for cells that amplify N-myc genes. Application of these findings could lead to more effective therapies in the treatment of those patients with the worst prognosis.