Published online Dec 28, 2018. doi: 10.3748/wjg.v24.i48.5454
Peer-review started: October 7, 2018
First decision: November 7, 2018
Revised: November 13, 2018
Accepted: November 13, 2018
Article in press: November 16, 2018
Published online: December 28, 2018
Processing time: 82 Days and 20.1 Hours
The biosynthesis of prostanoids is involved in both physiological and pathological processes. The expression of prostaglandin-endoperoxide synthase 2 (PTGS2; also known as COX-2) has been traditionally associated to the onset of several pathologies, from inflammation to cardiovascular, gastrointestinal and oncologic events. For this reason, the search of selective PTGS2 inhibitors has been a focus for therapeutic interventions. In addition to the classic non-steroidal anti-inflammatory drugs, selective and specific PTGS2 inhibitors, termed coxibs, have been generated and widely used. PTGS2 activity is less restrictive in terms of substrate specificity than the homeostatic counterpart PTGS1, and it accounts for the elevated prostanoid synthesis that accompanies several pathologies. The main regulation of PTGS2 occurs at the transcription level. In addition to this, the stability of the mRNA is finely regulated through the interaction with several cytoplasmic elements, ranging from specific microRNAs to proteins that control mRNA degradation. Moreover, the protein has been recognized to be the substrate for several post-translational modifications that affect both the enzyme activity and the targeting for degradation via proteasomal and non-proteasomal mechanisms. Among these modifications, phosphorylation, glycosylation and covalent modifications by reactive lipidic intermediates and by free radicals associated to the pro-inflammatory condition appear to be the main changes. Identification of these post-translational modifications is relevant to better understand the role of PTGS2 in several pathologies and to establish a correct analysis of the potential function of this protein in diseases progress. Finally, these modifications can be used as biomarkers to establish correlations with other parameters, including the immunomodulation dependent on molecular pathological epidemiology determinants, which may provide a better frame for potential therapeutic interventions.
Core tip: The post-translational modifications of prostaglandin-endoperoxide synthase 2 (PTGS2) appear to be specific signatures of this enzyme in human colorectal cancer (CRC). Glycosylations of PTGS2 that alter the electrophoretic mobility of the protein are mainly observed in the tumor samples but are absent in the non-tumor samples obtained from these patients. These modifications not only may play a pathophysiological role in the progression of CRC but also may provide new biomarkers to develop specific therapeutic interventions.