1. Functional RNAs;�RNA catalysts, miRNA, sRNA, RNAi...� Kevin Klein, PhD.
Pathobiology 551
Monday 10/26/2009
2. 10/26/09 Kevin Klein, PhD Slide 2 RNAs have many functions rRNA (ribosomal RNA)
tRNA (transfer RNA)
mRNA (Messenger RNA)
snRNA (including snoRNA) (Small nuclear RNA- splicing)
Other ribozymes
Telomerase RNA (telomerase maintenance)
siRNA (small interfering RNA RNA silencing)
shRNA (short hairpin RNA silencing)
Pri-miRNA; miRNA ( (primary) micro RNA - regulation)
sRNA (small RNA bacteria)
gRNA (guide RNA RNA editing)
Genomic RNA (viruses)
3. 10/26/09 Kevin Klein, PhD Slide 3 Regulatory RNAs in prokaryotes Can Regulate at the level of...
mRNA production (transcriptional attenuation)
mRNA expression (translational initiation)
mRNA stability (mRNA degradation)
4. 10/26/09 Kevin Klein, PhD Slide 4 Ribozymes Cleave RNA
Can carry out other reactions. Example???
Can regulate mRNA expression
Function in both prokaryotes and eukaryotes.
Can be associated with large ribonucleoprotein complexes (RNP)
Can be used experimentally for knockdowns
Difficult to get a good knockdown using ribozymes.
5. 10/26/09 Kevin Klein, PhD Slide 5 Ribozymes: Ribonucleic Acid Enzymes
6. 10/26/09 Kevin Klein, PhD Slide 6 Hammerhead ribozyme Smallest known ribozyme (40 bp)
Associated with plant viroid genome replication
7. 10/26/09 Kevin Klein, PhD Slide 7
8. 10/26/09 Kevin Klein, PhD Slide 8
9. 10/26/09 Kevin Klein, PhD Slide 9 Riboswitches RNA species that can bind metabolites/ions
Binding of substrates regulates mRNA expression
Transcriptional termination
Translation repression/initiation
mRNA stability
Regulate ~2% B. subtilis genes
Also present in Eukaryotes.
10. 10/26/09 Kevin Klein, PhD Slide 10
11. 10/26/09 Kevin Klein, PhD Slide 11 Example of a riboswitch (using a ribozyme) glmS Paper For Discussion
12. 10/26/09 Kevin Klein, PhD Slide 12 Small RNAs (sRNA or saRNA) Genomically encoded (intergenic regions)
Frequently are complimentary to mRNA
Usually imperfect complementary
80 120 (+) nt in length
Highly conserved between species
Can have multiple unlinked targets
Usually interact with the 5 UTR
Frequently require Hfq for function
13. 10/26/09 Kevin Klein, PhD Slide 13
14. 10/26/09 Kevin Klein, PhD Slide 14
15. 10/26/09 Kevin Klein, PhD Slide 15
16. 10/26/09 Kevin Klein, PhD Slide 16 DsrA - H-NS represses many stress induced genes
- rpoS (sigma factor) promotes stationary phase
17. 10/26/09 Kevin Klein, PhD Slide 17 Small RNAs in Eukaryotes Micro RNAs (miRNA)
Similar to sRNAs in prokaryotes
Small interfering RNA (siRNA)
Induces mRNA degradation
18. 10/26/09 Kevin Klein, PhD Slide 18
19. 10/26/09 Kevin Klein, PhD Slide 19 miRNA structures
20. 10/26/09 Kevin Klein, PhD Slide 20 miRNA Processing In nucleus, Drosha-DCGR8 cleaves stem-loop pri-miRNA liberating a ~70 nt hairpin (pre-miRNA)
Pre-miRNA is exported to the cytoplasm
Exportin-5 and RAN-GTP dependent�
In the cytoplasm, Dicer cleaves liberating a ~22 nucleotide RNA duplex with 2 bp 3overhangs.
21. 10/26/09 Kevin Klein, PhD Slide 21 Drosha and Dicer Members of the RNase III family
dsRNA-specific
Cleave dsRNA leaving 2 bp 3 overhangs
22. 10/26/09 Kevin Klein, PhD Slide 22 miRNA processing
23. 10/26/09 Kevin Klein, PhD Slide 23 miRNA function Mechanism of action is unknown
Interacts with the 3UTR of the target mRNA
Inhibits translation from a mRNA without inducing mRNA degradation
Can form a ribonucleoprotein complex (miRNP)
Can be complexed with ribosomes and target mRNA
Also important for silencing retrotransposons and endogenous retroviruses
Important for development and differentiation
miRNA:mRNA (miRNP) targeted to p-bodies
24. 10/26/09 Kevin Klein, PhD Slide 24
25. 10/26/09 Kevin Klein, PhD Slide 25 miRNA and Viruses miRNA are encoded by viruses
Mostly nuclear replicating DNA viruses (herpesviruses)
Can target either viral or host mRNAs
Frequently are associated in latency
Still controversial whether RNA viruses encode miRNA
Why wouldnt they?
Host miRNA can target viral mRNA or genomic RNA
Can be either pro-virus or antivirus
MiR-122 facilitates HCV replication
HIV latency in resting PBMCs (miR-28, miR-125b, miR-150, miR-223 and miR-382 )
Mir-32 can inhibit HFV replication
26. 10/26/09 Kevin Klein, PhD Slide 26 Virus encoded miRNA targeting
27. 10/26/09 Kevin Klein, PhD Slide 27 siRNA... Originally characterized in plants
Post transcriptional gene silencing
Plays a large role in plant immune system
Subsequently found in a wide variety of eukaryotes
Fire and Mello successfully silenced genes in C. elegans 1998 (won Nobel in 2006)
Triggered by dsRNA
28. 10/26/09 Kevin Klein, PhD Slide 28 siRNA Similar to miRNA. BUT...
Typically induces mRNA degradation
Requires exact base pairing for maximum effect
Dicer processes double stranded RNAs
RISC (or other complexes) carry out the effector function
RISC cleaves RNA that is complementary to dsRNA that activates pathway
This url contains an animated video clip of RNAi
29. 10/26/09 Kevin Klein, PhD Slide 29 GFP silencing in transgenic C. elegans
30. 10/26/09 Kevin Klein, PhD Slide 30 RISC effector complex Contains a member of the argonaute family
Between 130 kDa and 500 kDa
Other components are being characterized
Cleaves RNA complementary to the siRNA, in the middle of the sequence
Assembling the RISC complex requires ATP, while RNA cleavage does not.
31. 10/26/09 Kevin Klein, PhD Slide 31 Uses of siRNA Gene knockdowns
Look at function/phenotype of a gene
Therapeutic techniques
Anti viral
Anti cancer
Anti neurological diseases
Others
32. 10/26/09 Kevin Klein, PhD Slide 32 siRNA designing the assay dsRNAs need to be <30 bp in length
Why?
Well-designed siRNAs can result in >90% reduction in target RNA
21nt dsRNAs most effective
Sequence-specificity important
Single bp-mismatches reduce silencing capability
Many will make 3-4 siRNAs test all and go w/ best
Deliver by injection or transfection
Vectors becoming more popular
33. 10/26/09 Kevin Klein, PhD Slide 33 Caveats of siRNA Not found in apicomplexans
Exceptions to the rule
Scattered literature in P. falciparum but not reproducible
T. brucei yes
T. cruzi and Leishmania -- no
