triplex-forming oligonucleotide (TFO)

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Transcript triplex-forming oligonucleotide (TFO)

Triplex forming
oligonucleotides
(TFO)
Dr Pupak Derakhshandeh, PhD
Ass Prof of Medical Science of
Tehran University
Introduction
DNA structure is a critical element in
determining its function
• Agents for modifying gene function
• In most instances they are utilized
for repression of transcription
2
TFOs
TFOs can bind in the major groove of DNA:
polypurine / polypyrimidine sequences
forming specific Hoogsteen hydrogen bonds
3
4
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Classification of DNA triple
helices
• Intermolecular triplexes
• Interamolecular triplexes
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DNA triplex structures
• Either intermolecular triplexes formed by
binding of an exogenously applied (TFO,
therapeutic)
• Or naturally occurring intra molecular
triplexes (H-DNA)
– specific alteration of the genome
– site-specific mutagenesis, for stimulat– Ing DNA repair or recombination
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Such that elements of the HDNA structure may be
pharmacologically
exploitable
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An example of triplex formation with
a poly purine TFO sequence specific
for the human c-MYC P2 promoter
The TFO is placed in an anti parallel
orientation relative to the target
duplex
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Canonical base triplets formed in
purine and pyrimidine triplex motifs
Watson-Crick base pairing is illustrated by dotted lines
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• In the anti parallel, purine motif:
–G:G-C
–A:A-T
–In the parallel, pyrimidine motif:
– T:A-T
– C:G-C
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triplex motifs
• Triplex formation is kinetically slow
compared to duplex annealing
• However, once formed, triplexes are
very Stable
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Triplex-forming oligonucleotides
(TFOs)
 Bind DNA in a sequence-specific
manner at polypurine / polypyrimidine
sites
 Mediate targeted genome modification
 Formation in cells, leading to
mutagenesis or recombination
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The anti-gene and
antisense application
of TFO
promise of therapeutic utility
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Triplex formation
Triplex formation has been shown to
inhibit transcription in mammalian cells
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TFO
They have been used to deliver DNA
reactive conjugates to specific target
sites:
– leading to site-directed mutagenesis
in some cases:
• both in mammalian cells
• in culture / in vitro even
18
It is interesting to note:
The hairpin-TFO is able to invade the duplex:
that is present as nucleosome associated
chromatin

mutagenesis or gene silencing
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Potential applications of DNA
triplex formation in therapeutics
• Allowing the covalent attachment of
DNA damaging agents
• A potential advantage of targeting DNA
rather than RNA or protein:
– Limited number of copies to be
targeted
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Another advantage of targeting
DNA rather than RNA or protein:
• Facile synthesis of the reagents
• The availability of a variety of chemical
modifications:
– To the bases, sugar-phosphate
backbone, and the 5’ and 3’ ends)
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Therapeutic applications of
TFO
 To silence gene expression
 Through antigene approach have
been reported in the literature
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Modulating gene expression via
triplex formation
• TFOs:
–Act as ‘‘decoy’’ oligonucleotides
–Bind transcription factors , they
are not available to bind their
duplex consensus sequences for
transcription activaion !
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TFO
The up regulation of the
gene (induced mutagenesis )
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Triplex
formation
Is known to induce mutagenesis
i.g.:
Activation of human gamma-globin gene
expression via triplex-forming
oligonucleotides
Mutations in the gamma-globin gene 5
flanking region.
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The up regulation of  -globin
reduce the symptoms of sickle cell
anemia and thalassemia
TFO-directed mutagenesis of the
upstream sequences
Xu XS et al. Gene 242: 219–228, 2000
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• the presence of high levels of fetal
and b-thalassemia, are very
common genetic diseases
• when g-globin genes are Human bglobin disorders, such as sickle cell
anemia highly expressed
• hemoglobin (HbF, a2g2) in erythrocytes
(~20–30%) that affect over a million
people worldwide and cause:
– can compensate for the defective b27
globin gene product
• when g-globin genes are highly
expressed:
– the presence of high levels of fetal
hemoglobin (HbF, a2g2) in
erythrocytes (~20–30%)can
compensate for the defective b-globin
gene product
– and such patients have a much
improved disease condition
(Stamatoyannopoulos et al., 1994).
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• In adults, the β-globin gene is predominantly
expressed (98%) while the γ-globin gene is
expressed at very low levels (<1%).
• To increase the levels of HbF in patients with
sickle cell / Beta thalassmia disease:
– many drugs have been developed:
• Butyric acid and its analogs have been
found to increase the levels of HbF
• Hydroxyurea
– However, many patients cannot achieve
increased HbF with these treatments!
– With hydroxyurea treatment, for example,
only about 60% of patients were found to
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have increased HbF in their erythrocytes
• Hereditary Persistence of Fetal
Hemoglobin (HPFH) is a human
genetic condition in which the γglobin genes continue to be
expressed at very high levels in the
adult life of individuals.
• single base mutations or a small
deletion in the 5′ flanking region of
the γ-globin gene
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• Molecular biology studies suggest that
most of these mutations are located in
binding motifs for transcription
regulators such as Sp1, GATA-1, and
CP1 site.
• Some mutations also create new
binding sites for transcription
regulators
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Octamer-binding transcription
factor-1 gene
• activating the g-globin gene expression by
triplex-forming oligonucleotide (TFO)directed targeted mutagenesis
• TFO designed to bind to a site overlapping
with an Oct-1 binding site (at the −280 region
of the g-globin gene)
• targeted mutagenesis of the Oct-1 binding
site has been achieved by:
– transfecting the in-vitro-formed plasmid-oligo
complex into human normal fibroblast (NF) cells
Xu XS et al. Gene 242: 219–228, 2000
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• The mutation frequency at the
target site was estimated to be
20% by direct DNA sequencing
analysis
Xu XS et al. Gene 242: 219–228, 2000
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• In-vivo gene expression assays:
–activation of g-globin gene
expression from these mutations in
mouse erythroleukemia (MEL) cells
–The levels of the g-globin gene
expression increased by as much
as fourfold in mutants with single
base changes
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Xu XS et al. Gene 242: 219–228, 2000
• mutations at the Oct-1 binding site can
lead to activation of the g-globin gene
and generate the hereditary persistence
of fetal hemoglobin (HPFH) condition
Xu XS et al. Gene 242: 219–228, 2000
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• Using TFOs :
– to bind to the γ-globin gene −280 region
• region Oct-1 binding site was achieved in a
plasmid construct upon in-vitro triplex
formation
• transfection into human cells
• the mutation frequency of the target site was
found to be in the range of 20%
• The mutations were found to result in
reduced binding of Oct-1 transcription factor
to the site
• The mutations also led to γ-globin gene
expression in MEL cells
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• triplex-mediated targeted mutagenesis
(TFO), oligo Gamma 2, directed targeted
mutagenesis of pUSAG9 plasmid was
studied
• The pUSAG9 plasmid DNA was incubated
with oligo Gamma 2 (10 μM) in triplex
binding buffer
• for 2 h at 37°C to induce triplex formation
• The plasmid-oligo complex was
transfected into human normal fibroblast
(NF) cells
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• Plasmid DNA was isolated from
individual colonies and the sequence
analyzed
• A total of one hundred plasmids were
directly sequence-analyzed and 20 of
them were found to contain mutations
(−287 to −285 of Aγ-globin gene)
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Oct-1 binding site at the −280 region of
the γ-globin gene negatively regulates
γ-globin gene expression
mutations in the Oct-1 binding site lead
to activation of the γ-globin gene
expression
Since TFO-directed targeted
mutagenesis has already been
demonstrated in mammalian cells
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The sequence of the hairpin-TFO and a potential interaction
of the hairpin TFO, with the target duplex and GAL4 protein
Ghosh,M K, et al. Molecular and Cellular Biochemistry 278: 147–155, 2005
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A bifunctional hairpin-TFO
–including the targeting
sequences
–polypurine stretch
–genes in Saccharomyces
cerevisiae
–could bind GAL4 protein with
high affinity
– stable triplex with target
sequence
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The potential use of
chimaeric
hairpin-TFO to promote
transcription activation
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Transcriptional activation
Triplex forming oligonucleotides +
The cognate binding site for transcription
activator
Could be targeted to the upstream
poly(pu/py) region of specific genes in vivo
Leading to transcriptional activation
By endogenously available transcription
activator
Ghosh,M K, et al. Molecular and Cellular Biochemistry 278: 147–155, 2005.
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Effect of hairpin-TFO on
transcription
The hairpin-TFO on transcription:
– of STE6 and CBT1
– An over producer of GAL4 protein
was used
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The cells
grown in medium were induced with galactose
transfected with 1.5μM hairpin-TFO in the presence
of 0.8nM PEI
PEI:
– to aid in transfection
– to increase the stability of the triplex structure in vitro
The efficiency of transfection under these
conditions was measured:
– using pGAD424 plasmid After transfection
The cells were harvested at different time
RNA was extracted
RNA: subjected to RT-PCR in multiplex
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The sequence of the hairpin-TFO and a potential interaction
of the hairpin TFO, with the target duplex and GAL4 protein
The 65mer hairpin-TFO
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Optimization of RT-PCR
ACT1 gene
contains two
stretches of
poly(pu/py)
sequence
But
none of these
have any
complementarity
to the poly(pu/py)
sequence present
upstream of STE6
and CBT1 genes.
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ACT1 gene
 The gene should contain poly(pu/py)
sequence
 In the upstream region
 But not similar to that in the upstream
region of STE6 and CBT1
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Optimization of RT-PCR:
Conditions Concentration of the primers for
ACT1 and STE6 are varied
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Effect of transfection of hairpin-TFO on transcription of targeted
genes of yeast strain Sc340
(A) STE6 transcripts measured by RT-PCR at different time points after transfection
(B) CBT1 transcript levels
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The possible transcription complex recruited by the
hairpin-TFO:
DNA binding domain/ Activating domain of Gal4 Protein
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The reason
for the lower level of
activation of STE6
gene
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The sequence of the hairpin-TFO and a potential interaction
of the hairpin TFO, with the target duplex and GAL4 protein
The 65mer hairpin-TFO
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The reason
for the lower level of activation of
STE6 gene
 STE6 gene:
– the criteria for optimum distance of
GAL4 recruitment is fulfilled
 In the case of CBT1:
– the distance of the GAL4 recruitment
site is more than what is suggested
as the optimum distance.
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 The lack of activation in a GAL4
mutant:
Down activation of gene expression
Activation through hairpin-TFO is
specifically mediated by GAL4
protein
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Effect of transfection of hairpin-TFO on transcription
of targeted genes in the yeast strain HF7c (GAL4−)
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TFO as an anti tumor
Triplex DNA
A target for DNA-binding polycyclic
acridine derivatives
promise of therapeutic utility
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Antigene therapies
 It’s based on the recognition and
binding of a single oligonucleotide
strand
 To a double-stranded sequence
Forming a triple helix
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Triplex DNA formation
 A relatively weak and temporary
phenomenon
 Therefore, molecules that
selectively bind to and stabilize
triple helices may show a variety of
novel biological effects.
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Compounds: Polycyclic acridines
 A series of antitumor
 That bind to triplex DNA
 Whose synthesis has been previously
reported
 Have been tested for their interaction
with both purine and pyrimidine type
triple helices
 As a pyrimidine triplex model
 Antitumor activity
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Only purine TFOs have been
shown to mediate genome
modification without the need for a
targeted DNA-adduct
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TFOs
 For altering gene function
 By either repressing transcription
 Inhibiting DNA replication
 Inducing site-specific mutagenesis
and recombination
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DNA:RNA:DNA Triplex Formation
 Their potential as tools in molecular
biology
 Therapeutic agents
 Unstable DNA:RNA triplexes play key
roles in many biological processes
 Inhibition of RNAse, DNAse I, and RNA
polymerase
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Models of
structures
that may
mediate
mRNA
synthesis
and DNA
replication
inhibition
by Triplex
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