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Morpholinos

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Title: Morpholinos Author: Jon D. Moulton, Ph.D. Last modified by: Jon Moulton Created Date: 9/1/2005 4:40:01 PM Document presentation format: On-screen Show – PowerPoint PPT presentation

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Title: Morpholinos


1
Morpholinos
  • for gene knockdown and splice modification

Jon D. Moulton Summer 2008
2
Gene Tools, LLCPhilomath, Oregon, USA
3
Gene Tools LLC
  • Gene Tools makes Morpholino antisense oligos in
    Philomath, Oregon.
  • Researchers use Morpholinos to learn about the
    functions of proteins in cells.
  • We target a custom-made Morpholino to a
    particular mRNA to stop a cell from making a
    particular protein.

4
Cells make proteins
  • Well look at parts of a cell that are important
    for making proteins, then look at some of the
    steps that occur in a cell as it makes a protein.
  • Morpholinos alter some of these steps. Well
    come back to Morpholinos soon.

5
Summary
Parts of animal cells Making a Protein Antisense
Structure Blocking Translation Modifying
Splicing Embryos Delivery to Cytosol Therapeutic
Applications Publication Notes
6
Summary
Parts of animal cells Making a Protein Antisense
Structure Blocking Translation Modifying
Splicing Embryos Delivery to Cytosol Therapeutic
Applications Publication Notes
7
Some important biomolecules
  • Proteins
  • Nucleic acids
  • Lipids
  • Carbohydrates

8
Some important biomolecules
  • Proteins
  • structure, signaling, catalysis
  • Nucleic acids
  • information, plans for proteins
  • Lipids
  • separating compartments
  • Carbohydrates
  • energy, signaling

9
Plasma membrane
10
Plasma membrane
The cells membrane is made of a
two-molecule-thick layer of detergent-like
substance. Think of the membrane as a very
stable soap bubble that separates stuff inside
from stuff outside.
11
Plasma membrane
This space, inside the plasma membrane, is
called the cytosol.
12
Nuclear envelope
13
Nuclear envelope
  • The nuclear envelope
  • and its contents are
  • called the nucleus.

14
DNA
15
DNA
  • DNA stores information needed for making
    proteins.
  • The order of the DNA bases determines the order
    of amino acids in a protein.

16
RNA
17
RNA
  • An RNA molecule carries a temporary copy of the
    instructions for making a protein, shuttling the
    instructions from the nucleus to the cytosol.

18
RNA
  • RNA is processed in the nucleus. Some parts,
    called introns, are spliced out. Other parts,
    exons, are sent to the cytosol.

19
Ribosomes
20
Ribosomes
  • Ribosomes are the structures where the cell
    manufactures proteins.

21
Protein
22
Summary
Parts of animal cells Making a Protein Antisense
Structure Blocking Translation Modifying
Splicing Embryos Delivery to Cytosol Therapeutic
Applications Publication Notes
23
Now we zoom in
24
Making a Protein
25
Making a Protein
  • Two main steps, transcription and translation
  • Transcription DNA is copied making mRNA.
  • Translation mRNA directs which amino acids
  • to put into a protein

26
Making a Protein
  • Two main steps, transcription and translation
  • Transcription DNA is copied making mRNA.
  • Translation mRNA directs which amino acids
  • to put into a protein

Transcription
Translation
27
Making a Protein
28
Making a Protein (where the steps happen)
  • In the nucleus Transcription
  • DNA is copied into mRNA and introns are removed
    (spliced) from mRNA.
  • In the cytosol Translation
  • On a ribosome, mRNA directs which amino acids to
    put in a protein.

Transcription
Translation
Splicing
29
Making a Protein
30
Making a Protein
31
Making a Protein
32
Making a Protein
33
Summary
Parts of animal cells Making a Protein Antisense
Structure Blocking Translation Modifying
Splicing Embryos Delivery to Cytosol Therapeutic
Applications Publication Notes
34
Antisense
35
Antisense
36
Antisense
37
Morpholinobound toRNA
  • Watson-Crick bonds
  • (A to T, C to G)
  • Bases positioned for
  • strong binding
  • Usually 25 base
  • Morpholino oligos
  • are used

38
Morpholino bound to RNA with the structure of the
bases shown
39
Representative Antisense Structures
RNA RISC dependant
Morpholino Steric blocking
Phosphorothioate RNase-H dependant
40
Antisense Mechanisms
  • RNase-H RISC Steric
  • dependant dependant blocking

41
Summary
Parts of animal cells Making a Protein Antisense
Structure Blocking Translation Modifying
Splicing Embryos Delivery to Cytosol Therapeutic
Applications Publication Notes
42
What is Translation?
  • In the cytosol, an initiation complex forms on an
    mRNA and moves to the start codon (AUG).
  • The large ribosomal subunit arrives and forms a
    complete ribosome.
  • The ribosome moves along the mRNA, putting
    together amino acids to form a protein.

43
What is Translation?
44
What is Translation?
45
What is Translation?
46
What is Translation?
47
Blocking Translation
A steric-blocking oligo stops the initiation
complex as it moves toward the start codon.
Without reaching the start codon, the complete
ribosome cannot form. Without the complete
ribosome, the protein will not be made.
48
Making a Protein (review)
49
Blocking Translation
50
Assaying Translation Blocking
10 ng Morpholino oligo microinjected into frog egg
Western blot
Stancheva I, Collins AL, Van den Veyver IB,
Zoghbi H, Meehan RR. A mutant form of MeCP2
protein associated with human Rett syndrome
cannot be displaced from methylated DNA by notch
in Xenopus embryos. Mol Cell. 2003
Aug12(2)425-35.
51
Summary
Parts of animal cells Making a Protein Antisense
Structure Blocking Translation Modifying
Splicing Embryos Delivery to Cytosol Therapeutic
Applications Publication Notes
52
What is splicing?
53
Blocking Splicing
When a Morpholino binds to boundary of an exon
and an intron, the Morpholino can change pre-mRNA
splicing. This results in a changed mRNA and
possibly a changed protein.
54
Making a Protein (review)
55
Blocking Splicing
56
Assaying Splice Blocking
DNA made by RT-PCR using primers 1 3, DNA size
measured using gel electrophoresis
Lane from control fish is labeled 0, lane from
fish treated with Morpholino is labeled 5
Draper BW, Morcos PA, Kimmel CB. Inhibition of
zebrafish fgf8 pre-mRNA splicing with morpholino
oligos A quantifiable method for gene knockdown.
Genesis. 2001 Jul30(3)154-6.
57
Odd splices can happen
58
Summary
Parts of animal cells Making a Protein Antisense
Structure Blocking Translation Modifying
Splicing Embryos Delivery to Cytosol Therapeutic
Applications Publication Notes
59
Embryo Applications - UROD
  • Zebrafish (Danio rerio) example
  • Knockdown of uroporphyrinogen decarboxylase
    (EC 4.1.1.37)

Knockdown of UROD makes fluorescent
uroporphyrinogen accumulate
60
Embryo Applications - VEGF
61
Embryo Applications - GFP
62
Embryo Applications oep
63
Summary
Parts of animal cells Making a Protein Antisense
Structure Blocking Translation Modifying
Splicing Embryos Delivery to Cytosol Therapeutic
Applications Publication Notes
64
Delivery into Cytosol
  • In most tissues, bare Morpholino oligos enter
    cells poorly.
  • There are several good methods for enhancing
    delivery into the cytosol
  • Method Application
  • Endo-Porter Cell cultures
  • Vivo-Morpholinos Cultures in vivo
  • Peptide conjugates Cultures in vivo
  • Microinjection Embryos
  • Scrape-loading Cell culture
  • Electroporation Cultures embryos

65
Endo-Porter
The Endo-Porter peptide delivers Morpholinos,
peptides, or other weakly-charged cargo to the
cytosol of cultured cells through an endocytotic
pathway.
66
Summary
Parts of animal cells Making a Protein Antisense
Structure Blocking Translation Modifying
Splicing Embryos Delivery to Cytosol Therapeutic
Applications Publication Notes
67
Animal Applications
  • Applications being developed in animals for
    Morpholino oligos include
  • Treatment of Duchenne muscular dystrophy
  • (currently in clinical trials)
  • Prevention of restenosis after angioplasty
  • Cancer (adenocarcinoma, breast prostate)
  • Treatment of bacterial diseases
  • Treatment of viral diseases (next page)

68
Antiviral Applications
  • Morpholino oligos are being/have been tested
    against
  • Flaviviridae Hepacivirus Hepatitis C virus
  • Flaviviridae Flavivirus West Nile virus
  • Orthomyxoviridae Influenzavirus Influenza A
    virus
  • Coronaviridae Coronavirus SARS virus
  • Flaviviridae Flavivirus Dengue virus
  • Filoviridae Filovirus Ebola virus
  • Filoviridae Filovirus Marburg virus
  • Caliciviridae Vesivirus

69
Summary
Parts of animal cells Making a Protein Antisense
Structure Blocking Translation Modifying
Splicing Embryos Delivery to Cytosol Therapeutic
Applications Publication Notes
70
Resources on the web
Introduction Morpholino article on Wikipedia
http//en.wikipedia.org/wiki/Morpholino More
technical sites www.gene-tools.com Gene Tools,
LLC www.avibio.com AVI Biopharma, Inc
www.zfin.org Zebrafish Information Network
71
Publication database
  • An online database at the Gene Tools
  • website lists over 2300 publications
  • using Morpholinos (as of fall 2008).
  • Web address
  • pubs.gene-tools.com

72
Acknowledgements
  • Thanks to
  • The staff of Gene Tools, LLC for critique
  • Richard Meehan for his Western blot image
  • Bruce Draper for his RT-PCR gel image.

73
Gene Tools, LLCPhilomath, Oregon, USA
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