Biology:mir-34 microRNA precursor family

mir-34 microRNA precursor family
	Predicted secondary structure and sequence conservation of mir-34
Identifiers
Symbol	mir-34
Rfam	RF00456
miRBase	MI0000268
miRBase family	MIPF0000039
Other data
RNA type	Gene; miRNA
Domain(s)	Eukaryota
GO	0035195 0035068
SO	0001244
PDB structures	PDBe

The miR-34 microRNA precursor family are non-coding RNA molecules that, in mammals, give rise to three major mature miRNAs. The miR-34 family members were discovered computationally^[1] and later verified experimentally.^[2]^[3] The precursor miRNA stem-loop is processed in the cytoplasm of the cell, with the predominant miR-34 mature sequence excised from the 5' arm of the hairpin.^[4]

The miR-34 family

In mammals, three miR-34 precursors are produced from two transcriptional units.^[5] The human miR-34a precursor is transcribed from chromosome 1. The miR-34b and miR-34c precursors are co-transcribed from a region on chromosome 11, apparently as part of a transcript known as BC021736.

Expression of MIR34A (gene) in mouse is observed in all tissues examined but is highest in brain. miR-34b and -c are relatively less abundant in most tissues, but are the predominant miR-34 species in lung.^[5] The presence of miR-34 products has also been confirmed in embryonic stem cells. miR-34 has been shown to be maternally inherited in Drosophila and zebrafish and the loss of miR-34 resulted in defects in hindbrain development in zebrafish embryos. This was the first report of knockdown phenotype of miR-34 in any model organism although the phenotype was observed in only about 30% of zebrafish embryos.^[6]

Targets of miR-34

Yamakuchi et al.. showed that miR-34a targets the silent information regulator 1 (SIRT1) gene:^[7]

"miR-34 inhibition of SIRT1 leads to an increase in acetylated p53 and expression of p21 and PUMA, transcriptional targets of p53 that regulate the cell cycle and apoptosis, respectively. Furthermore, miR-34 suppression of SIRT1 ultimately leads to apoptosis in WT human colon cancer cells but not in human colon cancer cells lacking p53. Finally, miR-34a itself is a transcriptional target of p53, suggesting a positive feedback loop between p53 and miR-34a. Thus, miR-34a functions as a tumor suppressor, in part, through a SIRT1-p53 pathway."^[7]

Recently Quantitative proteomics – SILAC approach was used to identify miR-34a targets at genome level in HEK293T cells.^[8]

Mir-34 inhibits human p53-mutant gastric cancer tumorspheres

p53-deficient human gastric cancer cells, restoration of functional miR-34 inhibits cell growth and induces chemosensitization and apoptosis, indicating that miR-34 may restore p53 function. Restoration of miR-34 inhibits tumorsphere formation and growth, which is reported to be correlated to the self-renewal of cancer stem cells. The mechanism of miR-34-mediated suppression of self-renewal appears to be related to the direct modulation of downstream targets Bcl-2, Notch, and HMGA2, indicating that miR-34 may be involved in gastric cancer stem cell self-renewal/differentiation decision-making.^[9]^[10] miR-34c has also been associated to bone development and bone cancer.^[11]

References

↑ "Vertebrate microRNA genes". Science 299 (5612): 1540. Mar 2003. doi:10.1126/science.1080372. PMID 12624257.
↑ "Numerous microRNPs in neuronal cells containing novel microRNAs". RNA 9 (2): 180–6. Feb 2003. doi:10.1261/rna.2141503. PMID 12554860.
↑ "Embryonic stem cell-specific MicroRNAs". Developmental Cell 5 (2): 351–8. Aug 2003. doi:10.1016/S1534-5807(03)00227-2. PMID 12919684.
↑ "A microRNA component of the p53 tumour suppressor network". Nature 447 (7148): 1130–4. Jun 2007. doi:10.1038/nature05939. PMID 17554337.
↑ ^5.0 ^5.1 "The miR-34 family in cancer and apoptosis". Cell Death and Differentiation 17 (2): 193–9. Feb 2010. doi:10.1038/cdd.2009.56. PMID 19461653.
↑ "miR-34 is maternally inherited in Drosophila melanogaster and Danio rerio". Nucleic Acids Research 41 (8): 4470–80. Apr 2013. doi:10.1093/nar/gkt139. PMID 23470996.
↑ ^7.0 ^7.1 "miR-34a repression of SIRT1 regulates apoptosis". Proceedings of the National Academy of Sciences of the United States of America 105 (36): 13421–6. Sep 2008. doi:10.1073/pnas.0801613105. PMID 18755897.
↑ "Identification of novel targets for miR-29a using miRNA proteomics". PLOS ONE 7 (8): e43243. 2012. doi:10.1371/journal.pone.0043243. PMID 22952654.
↑ "Restoration of tumor suppressor miR-34 inhibits human p53-mutant gastric cancer tumorspheres". BMC Cancer 8: 266. 2008. doi:10.1186/1471-2407-8-266. PMID 18803879.
↑ Mir-34 and p53 pathway
↑ "miRNA-34c regulates Notch signaling during bone development". Human Molecular Genetics 21 (13): 2991–3000. Jul 2012. doi:10.1093/hmg/dds129. PMID 22498974.

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[1] "Vertebrate microRNA genes". Science 299 (5612): 1540. Mar 2003. doi:10.1126/science.1080372. PMID 12624257.

[2] "Numerous microRNPs in neuronal cells containing novel microRNAs". RNA 9 (2): 180–6. Feb 2003. doi:10.1261/rna.2141503. PMID 12554860.

[pmid12919684-3] "Embryonic stem cell-specific MicroRNAs". Developmental Cell 5 (2): 351–8. Aug 2003. doi:10.1016/S1534-5807(03)00227-2. PMID 12919684.

[pmid17554337-4] "A microRNA component of the p53 tumour suppressor network". Nature 447 (7148): 1130–4. Jun 2007. doi:10.1038/nature05939. PMID 17554337.

[pmid19461653-5] 5.0 ^5.1 "The miR-34 family in cancer and apoptosis". Cell Death and Differentiation 17 (2): 193–9. Feb 2010. doi:10.1038/cdd.2009.56. PMID 19461653.

[6] "miR-34 is maternally inherited in Drosophila melanogaster and Danio rerio". Nucleic Acids Research 41 (8): 4470–80. Apr 2013. doi:10.1093/nar/gkt139. PMID 23470996.

[pmid18755897-7] 7.0 ^7.1 "miR-34a repression of SIRT1 regulates apoptosis". Proceedings of the National Academy of Sciences of the United States of America 105 (36): 13421–6. Sep 2008. doi:10.1073/pnas.0801613105. PMID 18755897.

[8] "Identification of novel targets for miR-29a using miRNA proteomics". PLOS ONE 7 (8): e43243. 2012. doi:10.1371/journal.pone.0043243. PMID 22952654.

[9] "Restoration of tumor suppressor miR-34 inhibits human p53-mutant gastric cancer tumorspheres". BMC Cancer 8: 266. 2008. doi:10.1186/1471-2407-8-266. PMID 18803879.

[10] Mir-34 and p53 pathway

[doi.10.1093/hmg/dds129-11] "miRNA-34c regulates Notch signaling during bone development". Human Molecular Genetics 21 (13): 2991–3000. Jul 2012. doi:10.1093/hmg/dds129. PMID 22498974.

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v t e miRNA precursor families
1-100	1 2 5 6 7 8/141/200 9/79 10 11 14 15 16 17 19 21 22 23 24 26 29 30 31 33 34 46/47/281 48 71 84 92 96
101-200	101 103/107 122 124 126 127 129 130 132 133 134 135 137 138 143 144 145 146 148/152 150 153 155 156 160 166 172 181 184 190 191 192/215 194 196 198 199 200
201-300	202 203 205 208 210 212 214 216 218 219 221 223 224 241 275 277 278 279 296 299
301-400	301 305 322 326 330 331 337 338 339 340 344 345 346 350 361 363 365 367 370 374 383 384 390 394 395 396 397 398 399
401+	433 451 455 535 542 589 598 612 612 612 625 632 636 661 711 720 764 765 872 885 938 939 3180
Other	BART1 BART2 BHRF1-1 BHRF1-2 BHRF1-3 Let-7 Lin-4 Lsy-6

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The miR-34 family

Targets of miR-34

Mir-34 inhibits human p53-mutant gastric cancer tumorspheres

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Biology:mir-34 microRNA precursor family

The miR-34 family

Targets of miR-34

Mir-34 inhibits human p53-mutant gastric cancer tumorspheres

References

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