http://arjournals.annualreviews.org/action/showMultipleAbstracts?doi=10.1146/annurev.biochem.74.082803.133136&href=/toc/biochem/0/0&title=Annual%20Review%20of%20Biochemistry%20%280%29

"An Abundance of RNA Regulators".

Gisela Storz­

Cell Biology and Metabolism Branch, National Institute of Child Health and Human Development, National Institutes of Health, Bethesda, MD 20892-5430 storz@helix.nih.gov

Shoshy Altuvia­
Department of Molecular Genetics and Biotechnology, The Hebrew University Faculty of Medicine, Jerusalem, 91120 Israel shoshy@cc.huji.ac.il

Karen M. Wassarman­
Department of Bacteriology, University of Wisconsin, Madison, Madison, WI 53706 wassarman@bact.wisc.edu

The importance of small, noncoding RNAs that act as regulators of transcription, of RNA modification or stability, and of mRNA translation is becoming increasingly apparent. Here we discuss current knowledge of regulatory RNA function and review how the RNAs have been identified in a variety of organisms. Many of the regulatory RNAs act through base-pairing interactions with target RNAs. The base-pairing RNAs can be grouped into two general classes: Those that are encoded on the opposite strand of their target RNAs such that they contain perfect complementarity with their targets, and those that are encoded at separate locations on the chromosome and have imperfect base-pairing potential with their targets. Other regulatory RNAs act by modifying protein activity, in some cases by mimicking the structures of other RNA or DNA molecules.

NetworkEditor:   A Brief History of Activator RNAs:

1. Love R, "Distribution of Ribonucleic Acid in Tumor Cells during Mitosis", Nature vol. 180, no. 4598, pp. 1338-1339 (December 14, 1957).

2. Niu MC, Cordova CC, and Niu LC, "Ribonucleic Acid-Induced Changes in Mammalian Cells", Proc. Natl. Acad. Sci. USA, , vol. 47, no. 10, pp. 1689-1700 (October 15, 1961).

3. DeCarvalho S, "Effect of RNA from Normal Human Marrow on Leukaemic Marrow In-Vivo", Nature, vol. 197, no. 4872, pp. 1077-1080, (March 16, 1963).

4. Evans AH, "Introduction of specific drug-resistance properties by purified RNA-containing fractions from Pneumococcus", Proc. Natl. Acad. Sci. U.S. 52, 1442 (1964).

5. Frenster JH, "Nuclear Polyanions as De-repressors of Synthesis of Ribonucleic Acid", Nature, vol. 206, no. 4985, pp. 680-683 (May 15, 1965).

6. Frenster JH, "A Model of Specific De-repression within Interphase Chromatin", Nature vol 206, no. 4990, pp. 1269-1270 (June 19, 1965 ).

7. Czihak G, "Evidence for inductive properties of the micromere RNA in sea urchin embryos", Naturwissenschaften vol. 52, no. 6, pp. 141-142 (1965).

8. Huang RCC, and Bonner J, "Histone-bound RNA, a component of native nucleohistone", Proc. Natl. Acad. Sci. U.S. 54, 960 (1965).

9. Benjamin W, Levander AD, Gellhorn A, and DeBellis RH, "An RNA-histone complex in mammalian cells and the isolation and characterization of a new RNA species", Proc. Natl. Acad. Sci. U.S. 55, 858 (1966).

10. Shearer RW, and McCarthy BJ, "Evidence for ribonucleic acid molecules restricted to the cell nucleus", Biochemistry 6, 283 (1967).

11. Paul J, and Gilmour RS, "Organ-specific restriction of transcription in mammalian chromatin", Mol. Biol. 34, 305 (1968).

12. Huang RCC, and Huang PC, "Effect of protein-bound RNA associated with chick embryo chromatin on template specificity of chromatin", J. Molec. Biol. 39, 365 (1969).

13. Bekhor I, Bonner J, and Dahmus GH, "Hybridization of chromosomal RNA to native DNA", Proc. Natl. Acad. Sci. U.S. 62, 271 (1969).

14. Britten RJ,  and Davidson EH, "Gene Regulation for Higher Cells: A Theory", Science, vol. 165, no. 3891, pp. 349-357, (July 25, 1969).

15. Harel L, and Montagnier L, "Homology of double-stranded RNA from rat liver cells with the celluar genome", Nature New Biol. 229, 106 (1971).

16. Kolodny GM, "Evidence for transfer of macromolecular RNA between mammalian cells in culture", Exp. Cell Res. 65, 313 (1971).

17. Jelinek W, and Darnell JE, "Double-stranded regions in heterogenous nuclear RNA from HeLa cells", Proc. Natl. Acad. Sci. U.S. 69, 2537 (1972).

18. Herstein PR, and Frenster JH, "Mated Models of Gene Regulation in Eukaryotes", in: "Embryonic and Fetal Antigens in Cancer", vol. 2, pp. 5-7, (Anderson NG, Coggin JH, eds.), National Technical Information Service, U.S. Dept. Commerce, Springfield, VA., 1972.

19. Kronenberg LH, and Humphreys T, "Double-stranded RNA in sea urchin embryos", Biochemistry 11, 2020 (1972).

20. Holmes DS, Mayfield JE, Sander G, and Bonner J, "Chromosomal RNA: its properties", Science 177, 72 (1972).

21. Kohne DE, and Byers MJ, "Amplification and evolution of DNA sequences expressed as RNA", Biochemistry 12, 2373 (1973).

22. Niu MC, and Deshpande AK, "The development of tubular heart in RNA-treated post-nodal pieces of chick blastoderm", J. Embryol. Exp. Morphol. 29, 485 (1973).

23. Goldstein L, "Stable Nuclear RNA Returns to Post-Division Nuclei Following Release to the Cytoplasm During Mitosis", Exp. Cell Research, vol. 89, no. 2, pp. 421-425 (December, 1974).

24. Holmes DS, and Bonner J, "Interspersion of repetitive and single-copy sequences in nuclear RNA of high molecular weight", Proc. Natl. Acad. Sci. U.S. 71, 1108 (1974).

25. Mishra NC, Niu MC, and Tatum EL, "Induction by RNA of inositol independence in Neurospora crassa", Proc. Natl. Acad. Sci. U.S. 72, 642 (1975).

26. Torelli U, Torelli G, and Cadossi R, "Double-stranded RNA in human leukemic blast cells", Euro. J. Cancer 11, 117 (1975).

27. a. Krause MO, and Ringuette M, "Low-molecular weight nuclear RNA from SV-40 transformed WI 38 cells: Effect on transcription of WI 38 chromatin in-vitro", Biochem. Biophys. Res. Commun. 76: 796 (1977).

      b. Ringuette MJ, Gordon K, Szyszko J, and Krause MO, "Specific small nuclear RNAs from SV40-transformed  cells stimulate transcription initiation in nontransformed isolated nuclei", Can. J. Biochem. 60: 252-262 (1982).

28. Kanehisa T, Kiazume Y, Ikuta K, and Tanaka Y, "Release of template restriction in chromatin by nuclear 4.5 S RNA", Biochim. Biophys. Acta 475: 501 (1977).

29. Tseng BY, and Goulian M, "Initiator RNA of discontinuous DNA synthesis in human lymphocytes", Cell 12, 483 (1977).

30. Jelinek W, and Leinwand L, "Low molecular weight RNAs hydrogen-bonded to nuclear and cytoplasmic poly(A)-terminated RNA from cultured Chinese hamster ovary cells", Cell 15, 205 (1978).

31. Kern DH, Chow N, and Pilch YH, "Lymphocyte populations participating in cellular antitumor immune responses mediated by immune RNA", J. Natl. Cancer Inst. 60, 335 (1978).

32. Dobrzelewski J, Milewska Z,  and Panusz H, "Effect on Transcription of Low-Molecular-Weight RNA from Calf Thymus Chromatin", Acta Biochim. Pol. vol. 27, no. 2, pp. 75-87 (February, 1980).

33. Frenster JH, "Selective Gene De-Repression by De-Repressor RNA", "Eukaryotic Gene Regulation", Volume 1, pp. 131-143, 1980, edit. Kolodny GM, CRC Press, Boca Raton, FL, USA.

34. Rastinejad F, and Blau HM, "Genetic Complementation Reveals a Novel Regulatory Role for 3' Untranslated Regions in Growth and Differentiation", Cell, volume 72, pp. 903-917 (1993).

35. Rastinejad F, Conboy MJ, Rando TA, and Blau HM, "Tumor Suppression by RNA from the 3' Untranslated Region of Alpha-Tropomyosin", Cell, volume 75, pp. 1107-1117 (1993).

36. Luo Y, Kurz J, MacAfee N,  and Krause MO, "C-myc Deregulation during Transformation Induction: Involvement of 7SK RNA", J. Cellular Biochemistry, vol. 64, no. 2, pp. 313-327 (1997).

37. Lanz RB, McKenna NJ, Onate SA, Albrecht U, Wong J, Tsai SY, Tsai MJ, and O'Malley BW, "A Steroid Receptor Coactivator, SRA, Functions as an RNA and is Present in an SRC-1 Complex", Cell, vol. 97, no.1, pp. 17-27 (April 2, 1999).

38. Frenster JH, "Nuclear RNA Species Activate DNA Transcription Within Chromatin", FASEB Journal, Vol. 13, No. 7, A1506 (April 23, 1999).

39. Frenster JH, "Oncogenes as Molecular Targets within Active Chromatin", Clinical Cancer Research, vol. 5, suppl. l, p. 3855s, (624), (November, 1999).

40. Kwek KY, Murphy S, Furger A, Thomas B, O'Gorman W, Kimura H, Proudfoot NJ,  and Akoulitchev A, "U1 snRNA Associates with TFIIH and Regulates Transcriptional Initiation", Nature Structural Biology, vol. 9, no. 11, pp. 800-805 (November, 2002).

41. Lanz RB, Razani B, Goldberg AD, and O'Malley BW, "Distinct RNA Motifs are Important for Coactivation of Steroid Hormone Receptors by Steroid Receptor RNA Activator (SRA)", Proc. Natl. Acad. Sci. USA, Vol. 99, Issue 25, 16081-16086, December 10, 2002.

42. Saha S, Ansari AZ, Jarell KA, and Ptashne M, "RNA Sequences that Work as Transcriptional Activating Regions",  Nucleic Acids Res. vol. 31, no. 5, pp. 1565-1570 ( March 1, 2003).

43. Buskirk AR, Kehayova PD, Landrigan A, and Liu DR, "In Vivo Evolution of an RNA-Based Transcriptional Activator", Chemistry and Biology, vol. 10, no. 6, pp. 533-540 (June, 2003).

44. Gottesfeld JM,  and Barbas CF III, "RNA as a Transcriptional Activator", Chemistry and Biology, vol 10, no.7, pp. 584-585 (July, 2003).

45. Ling J, Pi W, Yu X, Bengra C, Long Q, Jin H, Seyfang A, and Tuan D, "The ERV-9 LTR Enhancer is Not Blocked by the HS5 Insulator and Synthesizes Through the HS5 Site Non-Coding, Long RNAs that Regulate LTR Enhancer Function", Nucleic Acids Research, vol. 31, no. 15, pp. 4582-4596 (August 1, 2003).

46. Lanz RB, Chua SS, Barron N, Söder BM, DeMayo F, and O'Malley BW, "Steroid Receptor RNA Activator Stimulates Proliferation as Well as Apoptosis In Vivo", Molecular and Cellular Biology, vol. 23, no. 20, pp. 7163-7176 (October, 2003).

47. Iwakiri D, Eizuru Y, Tokunaga M, and Takada K, "Autocrine Growth of Epstein-Barr Virus-Positive Gastric Carcinoma Cells Mediated by an Epstein-Barr Virus-Encoded Small RNA", Cancer Research vol. 63, no. 21, pp. 7062-7067 (November 1, 2003).

48. Hovsepian JA, and Frenster JH, "Bioassays of Isolated Nuclear RNA Species as Activators of DNA Transcription", Molec. Biol. Cell, vol. 14, supp. p. 242a (November, 2003).

49. Coughlin CM, Vance BA, Grupp SA, and Vonderheide RH, "RNA-transfected CD40-activated B cells induce functional T cell responses against viral and tumor antigen targets: implications for pediatric immunotherapy", Blood, 15 March 2004, Vol. 103, No. 6, pp. 2046-2054.

50. Kuwabara T, Hsieh J, Nakashima K, Taira K, and Gage FH, "A Small Modulatory dsRNA Specifies the Fate of Adult Neural Stem Cells", Cell, vol. 116, no. 6, pp.779-793  (March  19, 2004).

51. Frenster JH, and Hovsepian JA, "Activator RNA Exchange during Interphase Chromatin  Reprogramming", RNA2004, p. 305, (June, 2004), The RNA Society, Bethesda, MD, USA.

52. Buskirk AR , Landrigan A , and Liu DR, "Engineering a Ligand-Dependent RNA Transcriptional Activator", Chemistry and Biology, vol. 11, no. 8, pp. 1157-1163 (August, 2004).

53. Coleman KM, Lam V, Jaber BM, Lanz RB, Smith CL, "SRA coactivation of estrogen receptor-alpha is phosphorylation-independent, and enhances 4-hydroxytamoxifen agonist activity", Biochem. Biophys. Res. Commun.vol. 332, no. 1, pp. 332-338 (October 8, 2004).

54. Ling J, Ainol L, Zhang L, Yu X, Pi W, and Tuan D, "HS2 Enhancer Function Is Blocked by a Transcriptional Terminator Inserted between the Enhancer and the Promoter", J. Biol. Chem., Vol. 279, Issue 49, 51704-51713, December 3, 2004.

55. Hovsepian JA, and Frenster JH, "Sense and Antisense during RNA Initiation of the DNA Transcription Bubble",  "RNA2005", p. 279, The RNA Society, Bethesda, MD 20814-3998, (May, 2005).

56. Ling J, Baibakov B, Pi W, Emerson BM, and Tuan D, "The HS2 Enhancer of the b-globin Locus Control Region Initiates Synthesis of Non-coding, Polyadenylated RNAs Independent of a cis-linked Globin Promoter",  J. Mol. Biol., vol. 350, no. 5, pp. 883-896 (July 29, 2005).

57. Song X, Sun Y, and Garen A, "Roles of PSF protein and VL30 RNA in reversible gene regulation".
 

Links to RNA and Biological Causality:

Further Topics in:  Euchromatin,  active DNA, and  RNA  ribo-regulators:

Links to Euchromatin Activator RNA Reviews:
Links to Euchromatin Activator RNA Research:
Links to Ultrastructural Probes of DNase I-Sensitive Sites:
Links to RNA as a Therapeutic Agent:
Links to Hodgkin Lymphoma Immuno-Pathology:
Links to Activated T-Lymphocyte Immunotherapy:
Links to Medical Systems Biology:
Links to Selective Gene Transcription:
Links to RNA-Induced Epigenetics:
Links to RNA-Induced Embryogenesis:
Links to RNA and Biological Causality:
Links to Reprogramming and Neoplasia:

"Ultrastructural Probes of Active DNA Sites, and the RNA Activators of DNA".

For Further Information and Feedback:
E-mail: frenster@euchromatin.net