1. Development Of An Aptamer-Based
MRI Contrast Agent For Thrombin
Detection
Daphnée Dubouchet-Olsheski
under the supervision of
Erin McConnell, Maria DeRosa.
March something
09/03/2013 Daphnée Dubouchet-Olsheski 1
2. Outline
• Background Information
• Aptamers
• Thrombin
• MRI
• Introduction
• Project Goals
• Preparation of the Conjugate
• Results and Interpretations
• Relevant Application
• References and Acknowledgements
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3. Aptamers
The DeRosa lab has recently published a proof-of-concept
study where an aptamer was conjugated to a DTPA
chelate.
Aptamers are oligonucleic
acid or peptide molecules
that bind to a specific target
molecule.
Aptamers are single-stranded DNA or
RNA sequences that fold into distinct
nanoscale shapes capable of binding
specifically to a target molecule.
09/03/2013 Daphnée Dubouchet-Olsheski 3
4. Thrombin
• Thrombin is an enzyme in blood A 29 base long DNA aptamer that binds
plasma that causes the clotting to thrombin in blood clots was isolated
of blood by converting fibrinogen by Kubik et al. in 1997.(3)
to fibrin.
This aptamer will form the basis of a
• Blood clots can be very
study of contrast agents to determine
dangerous as they can break
the best system for imaging thrombin in
loose and move to other parts of serum.
your body.
• MR imaging of thrombin could be
useful in the imaging and
isolation of blood clots
• The targeting of thrombin could
prove useful for precise MR
imaging of internal bleeding and
blood clotting processes.
09/03/2013 Daphnée Dubouchet-Olsheski 4
5. MRI
D
A B
Magnetic Resonance
Imaging Machine Gadolinium
SCN-DTPA E
C
F
Contrast Agent SCN-DOTA
09/03/2013 Daphnée Dubouchet-Olsheski 5
6. MRI
• Magnetic Resonance Imaging is a procedure used in hospitals to scan
patients and determine the severity of certain injuries. An MRI machine
uses a magnetic field and radio waves to create detailed images of the
body.
• Signal contrast in MR images depends on the “relaxation” of in vivo water,
which can be increased by administering a contrast agent (CA)..
• Paramagnetic gadolinium(III) (Gd(III)) is a contrast agent used in the MR
Imaging of Thrombin.
• The gadolinium increases the relaxation time of tissues.
• Gd(III) cannot be administered as a free ion because of its high toxicity.
• It is typically chelated with a compound such as die-thy-lene-triamine-
penta-acetic acid (DTPA) or 1,4,7,10-tetra-aza-cyclo-do-decane-1,4,7,10-
tetra-acetic acid (DOTA) for use as an MRI agent.
• Using nanotechnology and DNA synthesis, we have been able to create
specific receptor molecules (Aptamers) that can target specific tissues
such as thrombin.
09/03/2013 Daphnée Dubouchet-Olsheski 6
7. Project Goal
• The development of a targeted MRI contrast agent could
enhance the diagnostic value of the obtained MR
images.
• In this study, the goal is to use synthetic receptors known
as aptamers to develop an MRI contrast agent that is
specific for the protein thrombin.
• This may allow for the precise imaging of blood clots.
• The hope to screen two series of contrast agents (DTPA
and DOTA) to find the best system for measuring
thrombin in serum.
09/03/2013 Daphnée Dubouchet-Olsheski 7
8. Preparation of the conjugate
R1 = the chelator
(DTPA and DOTA)
R2= the aptamer
The preparation of the conjugate included:
- Synthesizing the DNA using the MerMade
Software
- Reacting the DNA columns with the chelate
(DTPA or DOTA)
- Recovering olingonucleotide from gel
- Desalting the DNA
- UV Vising the DNA was quantified using UV Vis
- Sending the conjugates to mass spectrometry to
make sure the aptamer and chelate are together.
09/03/2013 Daphnée Dubouchet-Olsheski 8
15. Relevant Application
• The targeting of thrombin could prove useful
for precise MR imaging of internal bleeding
and blood clotting processes.
• For instance, there is interest in MR imaging of
coronary thrombosis and pulmonary
embolism, circumventing the conventional,
much more invasive, angiography and
angioscopy procedures. (4)
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16. References and Acknowledgements
I would like to thank Carleton University for providing the DNA synthesizer, the gel
electrophoresis setup, the UV-Vis spectrometer and access to the 1.5 T MRI (Ottawa
Hospital) through a collaboration with Dr. Eve Tsai.
References:
(1) Caravan P, Ellison JJ, McMurry TJ, Lauffer RB “Gadolinium(III) chelates as MRI
contrast agents: structure, dynamics, and applications.”Chem. Rev. 1999, 99, 2293
2352.
(2) Bernard, E.D.; Beking, M. A.; Rajamanickam, K.; Tsai, E. C.; DeRosa, M. C.
“Target binding improves relaxivity in aptamer–gadolinium conjugates” J. Biol. Inorg.
Chem., 2012 DOI: 10.1007/s00775-012-0930-z
(3) Tasset, D. M.; Kubik, M. F.; Steiner, W. “Oligonucleotide inhibitors of human
thrombin that bind distinct epitopes” J. Mol. Biol. 1997, 272, 688-698.
(4) Spuentrup E, Buecker A, Katoh M, Wiethoff AJ, Parsons Jr EC, Botnar RM,
Weisskoff RM, Graham PB, Manning WJ, Günther RW “Molecular Magnetic Resonance
Imaging of Atrial Clots in a Swine Model” Circulation 2005, 111, 1377-1382.
(5) Munshi KN, Dey AK “Absorptiometric study of the chelates formed between the
lanthanoids and xylenol orange” Microchim. Acta 1968, 56, 1059-1065.
09/03/2013 Daphnée Dubouchet-Olsheski 16
Notas do Editor
Aptamers are oligonucleic acid or peptide molecules that bind to a specific target molecule.Aptamers are single-stranded DNA or RNA sequences that fold into distinct nanoscale shapes capable of binding specifically to a target molecule. The DeRosa lab has recently published a proof-of-concept study where an aptamer was conjugated to a DTPA chelate.
Thrombinis an enzyme in blood plasma that causes the clotting of blood by converting fibrinogen to fibrin.Anticoagulants (a protein that inhibits clotting) are always present in the blood stream. When a blood vessel tears the amount of procoagulants (a prontein that stimulates clotting) increase. And coagulation (the clotting of blood) begins. However when the amount of anticoagulants and procoagulants is not perfectly balanced complication arise. Many factors can contribute to venous blood clotting such as obesity, prolonged immobility and age (over 60). Blood clots can be very dangerous as they can break loose and move to other parts of your body. A blood clot in lungs is called a pulmonary embolism.A blood clot in the brain can block the flow of oxygen to the brain and cause a stroke. MR imaging of thrombin could be useful in the imaging and isolation of blood clots (thrombus and embolus). *embolus is any detached, traveling intravascular carried by circulation.The targeting of thrombin could prove useful for precise MR imaging of internal bleeding and blood clotting processes. A 29 base long DNA aptamerthat binds to thrombin in blood clots was isolated by Kubik et al. in 1997.(3) This aptamer will form the basis of a study of contrast agents to determine the best system for imaging thrombin in serum.
MRI is short for Magnetic Resonance Imaging. It is a procedure used in hospitals to scan patients and determine the severity of certain injuries. An MRI machine uses a magnetic field and radio waves to create detailed images of the body.Signal contrast in MR images depends on the “relaxation” of in vivo water, which can be increased by administrating a contrast agent (CA). Relaxation time is the time it takes for the protons to get back to their original alignment after they have been hit by the radio wave. The relaxation time depends on the environment.That's why different tissues have different contrasts on an MRI image.Ex. Lighter spots are denser than darker spots. Paramagnetic gadolinium(III) (Gd(III)). Is a contrast agent used in the MR Imaging of Thrombin.The gadolinium increases the relaxation time of tissues. Gd(III) cannot be administered as a free ion because of its high toxicity.It is typically chelated with a compound such as die-thy-lene-triamine-penta-acetic acid (DTPA) or 1,4,7,10-tetra-aza-cyclo-do-decane-1,4,7,10-tetra-acetic acid (DOTA) for use as an MRI agent. Using nanotechnology and DNA synthesis we have been able tocreate specific receptor molecules (Aptamers) that can target specific tissues such as thrombin.
MRI is short for Magnetic Resonance Imaging. It is a procedure used in hospitals to scan patients and determine the severity of certain injuries. An MRI machine uses a magnetic field and radio waves to create detailed images of the body.Signal contrast in MR images depends on the “relaxation” of in vivo water, which can be increased by administrating a contrast agent (CA). Relaxation time is the time it takes for the protons to get back to their original alignment after they have been hit by the radio wave. The relaxation time depends on the environment.That's why different tissues have different contrasts on an MRI image.Ex. Lighter spots are denser than darker spots. Paramagnetic gadolinium(III) (Gd(III)) is a contrast agent used in the MR Imaging of Thrombin.The gadolinium increases the relaxation time of tissues. Gd(III) cannot be administered as a free ion because of its high toxicity.It is typically chelated with a compound such as die-thy-lene-triamine-penta-acetic acid (DTPA) or 1,4,7,10-tetra-aza-cyclo-do-decane-1,4,7,10-tetra-acetic acid (DOTA) for use as an MRI agent. Using nanotechnology and DNA synthesis, we have been able tocreate specific receptor molecules (Aptamers) that can target specific tissues such as thrombin.
The development of a targeted MRI contrast agent could enhance the diagnostic value of the obtained MR images. In this study, the goal is to use synthetic receptors known as aptamers to develop an MRI contrast agent that is specific for the protein thrombin. This may allow for the precise imaging of blood clots. The hope to screen two series of contrast agents (DTPA and DOTA)to find the best system for measuring thrombin in serum.
R1 = the chelator (DTPA and DOTA)R2= the aptamerThe preparation of the conjugate included Synthesizing the DNA using the MerMade SoftwareReacting the DNA columns with the chelate (DTPA or DOTA)Recoveringolingonucleotide from gelDesalting the DNAUV Vising the DNA was quantified using UV Vis Sending the conjugates to mass spectrometry to make sure the aptamer and chelate are together.
The targeting of thrombin could prove useful for precise MR imaging of internal bleeding and blood clotting processes. For instance, there is interest in MR imaging of coronary thrombosis and pulmonary embolism, circumventing the conventional, much more invasive, angiography and angioscopy procedures. (4)
PicutresDNA https://team.inria.fr/zenith/files/2013/01/health-dna-backgrounds-powerpoint.gifBlood Clothttp://www.knowabouthealth.com/wp-content/uploads/2011/10/blood_clotting-4.jpgMRI http://www.turbosquid.com/3d-models/mri-medical-imaging-machine-3d-model/373001Gadoliniumhttp://www.acceleratingfuture.com/michael/blog/2010/01/our-friend-gadolinium/Contrast Agenthttp://www.nzbri.org/research/labs/mri.phpResearch(1) Caravan P, Ellison JJ, McMurry TJ, Lauffer RB “Gadolinium(III) chelates as MRI contrast agents: structure, dynamics, and applications.”Chem. Rev. 1999, 99, 2293 2352.(2) Bernard, E.D.; Beking, M. A.; Rajamanickam, K.; Tsai, E. C.; DeRosa, M. C.“Target binding improves relaxivity in aptamer–gadolinium conjugates” J. Biol. Inorg. Chem., 2012 DOI: 10.1007/s00775-012-0930-z(3) Tasset, D. M.; Kubik, M. F.; Steiner, W. “Oligonucleotide inhibitors of human thrombin that bind distinct epitopes” J. Mol. Biol. 1997, 272, 688-698.(4) Spuentrup E, Buecker A, Katoh M, Wiethoff AJ, Parsons Jr EC, Botnar RM,Weisskoff RM, Graham PB, Manning WJ, Günther RW “Molecular Magnetic Resonance Imaging of Atrial Clots in a Swine Model” Circulation 2005, 111, 1377-1382.(5) Munshi KN, Dey AK “Absorptiometric study of the chelates formed between thelanthanoids and xylenol orange” Microchim. Acta 1968, 56, 1059-1065.