In mammalian cells RNAi can be mediated by synthetic duplex RNAs, termed small interfering RNAs (siRNAs), that assist in cleaving completely complementary mRNA transcripts. MicroRNAs (miRNAs) are endogenous small RNAs that assist in translationally repressing mRNAs with regions of partial complementarity, but may also reduce transcript levels. Since miRNAs are thought to predominantly interact with the 3' UTRs of transcripts but little experiemental data exists to support this, we sought to ask if mismatched siRNAs mimicking miRNAs affect cognate mRNA levels as a function of target site location. Our studies found that mismatched siRNAs targeting the 3' UTRs of two endogenous transcripts yield a greater reduction in mRNA levels than those targeting the coding region. Our findings demonstrated the importance of target site location within endogenous mRNAs for small RNAs associated with RNAi and these studies were published in FEBS Letters in 2006. To address if altered miRNA expression can contribute to the cancer process Dr. Caplen, the GSS section head, became involved in study conducted by Dr. Curt Harris's group at CCR (Lab. of Human Carcinogenesis, (LHC), CCR, NCI) in collaboration with Dr. Carlo Croce, University of Iowa. Dr. Carlo Croce and others have previously shown that different types of cancer are associated with unique microRNA patterns, and that these patterns may be valuable in diagnosing and ascertaining prognosis. In the collaborative study conducted by Dr. Yanaihara from LHC, CCR (Yanaihara et al., 2006 Cancer Cell 9: 189-198), differential microRNA expression data from 104 pairs of primary lung cancers matched against adjacent normal tissue confirmed the deregulation of microRNAs in lung cancer reported in earlier papers, and uncovered a new microRNA marker associated with poor prognosis, hsa-miR-155. As part of a broad ranging collaboration between GSS and Drs. Natalia Volfovsky and Bob Stephens (ABCC, NCI-Fredrick/SAIC Frederick Inc. NCI, NIH) possible mRNA targets for hsa-miR-155 have been predicted. The relationship between hsa-miR-155 and lung cancer, needs to be examined more closely, using larger groups of patients, but validating these results may lead to an approved diagnostic or prognostic test for lung cancer. Moreover, identification of the molecular target for miR-155 could lead to targeted therapies based either on interrupting that miRNA's effects or inhibiting its downstream targets. To further study the role of miRNA expression in cancer we have now established miRNA microarray based analysis in GSS using a commercial arry platform (Ambion/ABI) and have begun extensive analysis of the miRNA expression breast cancer cell lines under baseline conditions and following genetic and drug manipulation. Finally, GGS has examined a genomic region, human chromosome 8q24, commonly associated with Burkitt's lymphoma and some solid tumors as a result of genetic rearrangements and/or deletions and amplifications for evidence of the presence of previously unidentified miRNAs. A number of studies have suggested that miRNAs may be clustered within known areas of genomic instability and we have recently reviewed this particular subject area with a special emphasis on the mouse genome (Huppi et al., Seminars in Cancer Biology). In collaboration with Drs. Natalia Volfovsky and Bob Stephens (ABCC, NCI-Fredrick/SAIC Frederick Inc. NCI, NIH) 12 possible miRNA precursor sequences were identified as mapping to within the human chr. 8q24 region, of which, 7 were experimentally verified. Further molecular and genetic studies investigating these novel miRNAs are on going and we anticipate submission of a manuscript describing this finding before the end of 2006. The importance of this work is illustrated by Dr. Konrad Huppi selection to present preliminary data describing the identification of some of these miRNAs at the 2006 AACR meeting.

Agency
National Institute of Health (NIH)
Institute
Division of Basic Sciences - NCI (NCI)
Type
Intramural Research (Z01)
Project #
1Z01BC010612-02
Application #
7338743
Study Section
(GB)
Project Start
Project End
Budget Start
Budget End
Support Year
2
Fiscal Year
2006
Total Cost
Indirect Cost
Name
Basic Sciences
Department
Type
DUNS #
City
State
Country
United States
Zip Code
Huppi, Konrad; Volfovsky, Natalia; Mackiewicz, Mark et al. (2007) MicroRNAs and genomic instability. Semin Cancer Biol 17:65-73
Yanaihara, Nozomu; Caplen, Natasha; Bowman, Elise et al. (2006) Unique microRNA molecular profiles in lung cancer diagnosis and prognosis. Cancer Cell 9:189-98
Martin, Scott E; Caplen, Natasha J (2006) Mismatched siRNAs downregulate mRNAs as a function of target site location. FEBS Lett 580:3694-8