Central nervous system
|
Glioma3131 Rhodes LV, Nitschke AM, Segar HC, Martin EC, Driver JL, Elliott S, et
al. The histone deacetylase inhibitor trichostatin A alters microRNA expression
profiles in apoptosis-resistant breast cancer cells. Oncol Rep. 2012;
27(1):10-6.
,
3232 Wang Y, Medvid R, Melton C, Jaenisch R, Blelloch R. DGCR8 is essential
for microRNA biogenesis and silencing of embryonic stem cell self-renewal. Nat Genet.
2007; 39(3):380-5.
,
3333 Kumar MS, Pester RE, Chen CY, Lane K, Chin C, Lu J, et al. Dicer1
functions as a haploinsufficient tumor suppressor. Genes Dev. 2009;
23(23):2700-4.
|
let-7a; let-7b; let-7c; let-7d; let-7e; let-7f; let-7g;
let-7i; miR-15a; |
miR-107; miR-181a; miR-521 |
|
miR-16; miR-17-3p; miR-17-5p; miR-19a; miR-19b;
miR-22; |
|
|
miR-21; miR-142-3p; miR-142-5p; miR-143; miR-155;
miR-191; |
|
|
miR-379; miR-601 |
|
Mouse hippocampal cells and brain tissue3434 Karube Y, Tanaka H, Osada H, Tomida S, Tatematsu Y, Yanagisawa K, et al.
Reduced expression of Dicer associated with poor prognosis in lung cancer patients.
Cancer Sci. 2005; 96(2):111-5.
|
miR-21 |
– |
Head and neck
|
Thyroid3535 Grelier G, Voirin N, Ay AS, Cox DG, Chabaud S, Treilleux I, et al.
Prognostic value of Dicer expression in human breast cancers and association with the
mesenchymal phenotype. Br J Cancer. 2009; 101(4):673-83.
,
3636 Lin RJ, Lin YC, Chen J, Kuo HH, Chen YY, Diccianni MB, et al. MicroRNA
signature and expression of Dicer and Drosha can predict prognosis and delineate risk
groups in neuroblastoma. Cancer Res. 2010; 70(20):7841-50.
|
let-7c; let-7d; let-7g; miR-17-3p; miR-17-5p; miR-27b; |
let-7f; let-7g; miR-10a; miR-106a; miR-152 |
|
miR-34a; miR-34b; miR-188-5p; miR-365 |
|
Thorax
|
Lung cancer and normal epithelial cell line3737 Guo X, Liao Q, Chen P, Li X, Xiong W, Ma J, et al. The
microRNA-processing enzymes: Drosha and Dicer can predict prognosis of nasopharyngeal
carcinoma. J Cancer Res Clin Oncol. 2012; 138(1):49-56.
,
3838 Martello G, Rosato A, Ferrari F, Manfrin A, Cordenonsi M, Dupont S, et
al. A MicroRNA targeting dicer for metastasis control. Cell. 2010;
141(7):1195-207.
,
3939 Piovan C, Palmieri D, Di Leva G, Braccioli L, Casalini P, Nuovo G, et
al. Oncosuppressive role of p53-induced miR-205 in triple negative breast cancer. Mol
Oncol. 2012; 6(4):458-72.
|
miR-15a; miR-16; miR-17-5p; miR-19a; miR-19b; miR-20b; |
let-7a; let-7b; let-7c; let-7d; let-7e; let-7f; |
|
miR-22; miR-24; miR-27a; miR-27b; miR-30a-5p; miR-99a; |
let-7i; miR-26b; miR-125a; miR-155; |
|
miR-106a; miR-148a; miR-221; miR-365; miR-126; let-7a; |
miR 130a, miR-106b, miR-19b, miR-22, |
|
miR-495; miR-451; miR-128b |
iR-15b, miR-17-5p; miR-21 |
Genitourinary
|
Prostate4040 Mott JL, Kurita S, Cazanave SC, Bronk SF, Werneburg NW, Fernandez-Zapico
ME. Transcriptional suppression of mir-29b-1/mir-29a promoter by c-Myc, hedgehog, and
NF-kappaB. J Cell Biochem. 2010; 110(5):1155-64.
,
4141 Burk U, Schubert J, Wellner U, Schmalhofer O, Vincan E, Spaderna S, et
al. A reciprocal repression between ZEB1 and members of the miR-200 family promotes
EMT and invasion in cancer cells. EMBO Rep. 2008; 9(6):582-9.
,
4242 Engels BM, Hutvagner G. Principles and effects of microRNA-mediated
post-transcriptional gene regulation. Oncogene. 2006; 25(46):6163-9.
|
miR-191; miR-379; miR-29b 7; miR-191; miR-22;
miR-200c; |
miR-100; miR-107; miR-133b; miR-143; |
|
miR-145; miR-196a; miR-521; miR-106b; |
|
miR-141; miR-24 ; miR-30a-5p; miR-9-1 |
miR-199a |
Gastrointestinal
|
Rectum4343 Deng S, Calin GA, Croce CM, Coukos G, Zhang L. Mechanisms of microRNA
deregulation in human cancer. Cell Cycle. 2008; 7(17):2643-6.
,
4444 Bussing I, Slack FJ, Grosshans H. Let-7 microRNAs in development, stem
cells and cancer. Trends Mol Med. 2008; 14(9):400-9.
|
miR-1183; miR-483-5p; miR-622; miR-125a-3p;
miR-1224-5p; |
miR-1274b; miR-720 |
|
miR-188-5p; miR-1471; miR-671-5p; miR-1909; miR-630; |
|
|
miR-765; miR125b; miR137 |
|
Hematology
|
Non-Hodgkin lymphoma4545 Johnson SM, Grosshans H, Shingara J, Byrom M, Jarvis R, Cheng A, et al.
RAS is regulated by the let-7 microRNA family. Cell. 2005;
120(5):635-47.
|
miR-1913; miR-Plus-F1147; miR-148b; miR-589; miR-106b; |
miR-29a; miR-335; miR-193b; miR-21; |
|
miR-Plus-G1246-3p; miR-19b; miR-1280; miR-BHRF1-1; |
miR-340; miR-33a; let-7e; miR-Plus-E1098; |
|
miR-20a |
miR-483-3p; miR-200b |
Breast
|
Breast4646 Dent P, Yacoub A, Fisher PB, Hagan MP, Grant S. MAPK pathways in
radiation responses. Oncogene. 2003; 22(37):5885-96.
|
– |
miR-302a; miR-302b; miR-302c; |
miR-302d; miR-302e |
Other
|
Normal human fibroblasts4747 Simone NL, Soule BP, Ly D, Saleh AD, Savage JE, Degraff W, et al.
Ionizing radiation-induced oxidative stress alters miRNA expression. PLoS One. 2009;
4(7):e6377.
|
let-7d; let-7e; let-7f; let-7g; let-7i; miR-15a; miR-17-3p;
miR-17-5p; |
let-7a; let-7b; let-7d; miR-24; miR-155; |
|
miR-19b; miR-21; miR-26b; miR-142-3p; miR-142-5p;
miR-143; |
miR-222 |
|
miR-145; miR-155; miR-663 |
|
Human 3-D airway model tissues4848 Tarasov V, Jung P, Verdoodt B, Lodygin D, Epanchintsev A, Menssen A, et
al. Differential regulation of microRNAs by p53 revealed by massively parallel
sequencing: miR-34a is a p53 target that induces apoptosis and G1-arrest. Cell Cycle.
2007; 6(13):1586-93.
|
– |
let-7a; let-7b; let-7c; let-7d; let-7e; |
let-7f; let-7g; let-7i |
Lymphocytes4949 Koturbash I, Zemp F, Kolb B, Kovalchuk O. Sex-specific radiation-induced
microRNAome responses in the hippocampus, cerebellum and frontal cortex in a mouse
model. Mutat Res. 2011; 722(2):114-8.
|
miR-16; miR-34a; miR-34b; miR-145; miR-188-5p;
miR-221; |
let-7e; miR-10a; miR-17; miR-19b; miR-99a; |
|
miR-601; miR-663 |
miR-100; miR-152;miR-181a; miR-196a |
Blood5050 Dickey JS, Zemp FJ, Martin OA, Kovalchuk O. The role of miRNA in the
direct and indirect effects of ionizing radiation. Radiat Environ Biophys. 2011;
50(4):491-9.
|
let-7f; miR-16; miR-17-3p; miR-17-5p; miR-19a; miR-20a; |
miR-143 |
|
miR-20b; miR-21; miR-24; miR-27a; miR-29a; miR-29c; |
|
|
miR-106a; miR-126; miR-142-5p; miR-145; miR-148a; |
|
|
miR-222 |
|
Endothelial cell5151 Kraemer A, Anastasov N, Angermeier M, Winkler K, Atkinson MJ, Moertl S.
MicroRNA-mediated processes are essential for the cellular radiation response. Radiat
Res. 2011; 176(5):575-86.
|
let-7g; miR-16; miR-20a; miR-21; miR-29c |
miR-125a |
Human umbilical vein endothelial cells5252 Surova O, Akbar NS, Zhivotovsky B. Knock-down of core proteins
regulating microRNA biogenesis has no effect on sensitivity of lung cancer cells to
ionizing radiation. PLoS One. 2012; 7(3):e33134.
|
miR-17-5p; miR-19a; miR-19b; miR-20a; miR-21; miR-27b; |
– |
|
miR-29a; miR-29c; miR-126; miR-221; miR-222 |
|