Abstract
To better understand microRNA miR-21 function in carcinogenesis, we analyzed miR-21 expression patterns in different stages of colorectal cancer development using in situ hybridization (ISH). Locked nucleic acid (LNA)/DNA probes and a biotin-free tyramide signal amplification system were used in ISH analyses of miRNA expression. Conditions for specific detection of miR-21 were determined using human cell lines and miR-21-expressing lentiviral vectors. Expression was determined in 39 surgically excised colorectal tumors and 34 endoscopically resected colorectal polyps. In the surgical samples, miR-21 expression was much higher in colorectal cancers than in normal mucosa. Strong miR-21 expression was also observed in cancer-associated stromal fibroblasts, suggesting miR-21 induction by cancer-secreted cytokines. Protein expression of PDCD4, a miR-21 target, was inversely correlated with miR-21 expression, confirming that miR-21 is indeed a negative regulator of PDCD4 in vivo. In the endoscopic samples, miR-21 expression was very high in malignant adenocarcinomas but was not elevated in nontumorigenic polyps. Precancerous adenomas also frequently showed miR-21 up-regulation. Using the LNA-ISH system for miRNA detection, miR-21 was detectable in precancerous adenomas. The frequency and extent of miR-21 expression increased during the transition from precancerous colorectal adenoma to advanced carcinoma. Expression patterns of miR-21 RNA and its target, tumor suppressor protein PDCD4, were mutually exclusive. This pattern may have clinical application as a biomarker for colorectal cancer development and might be emphasized by self-reinforcing regulatory systems integrated with the miR-21 gene, which has been previously shown in cell culture.
Highlights
To better understand microRNA miR-21 function in carcinogenesis, we analyzed miR-21 expression patterns in different stages of colorectal cancer development using in situ hybridization (ISH)
ISH analysis of miRNA expression levels was established with locked nucleic acid (LNA)/DNA probes and biotin-free tyramide signal amplification system, which is applicable to formalin-fixed paraffin-embedded clinical samples
The established Locked nucleic acid (LNA)-ISH system for miRNA detection showed that elevation of miR-21 becomes detectable from precancerous adenomas, and the extent and frequency of miR-21 expression increase during the colorectal canceration from precancerous adenoma to advanced carcinoma
Summary
To better understand microRNA miR-21 function in carcinogenesis, we analyzed miR-21 expression patterns in different stages of colorectal cancer development using in situ hybridization (ISH). Expression patterns of miR-21 RNA and its target, tumor suppressor protein PDCD4, were mutually exclusive This pattern may have clinical application as a biomarker for colorectal cancer development and might be emphasized by self-reinforcing regulatory systems integrated with the miR-21 gene, which has been previously shown in cell culture. To better understand the molecular mechanisms that regulate miRNA gene expression, our group has recently developed an algorithm to predict the promoters of human miRNA genes that are likely to be involved in evolutionarily conserved regulatory systems [2]. Exclusive expression patterns between miR-21 RNA and its target, tumor suppression protein PDCD4, in adenocarcinomas and precancerous adenomas will have a potential clinical application as a biomarker for colorectal cancer development. At this moment, there is even no clear proof that PDCD4 is a target of miR-21 in vivo because of the lack of efficient tools to detect miR-21 expression in a single-cell resolution
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