Magnetoferritin enhances T₂ contrast in magnetic resonance imaging of macrophages
Imaging of immune cells has wide implications in understanding disease progression and staging. While optical imaging is limited in penetration depth due to light properties, magnetic resonance (MR) imaging provides a more powerful tool for the imaging of deep tissues where immune cells reside. Due...
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sg-ntu-dr.10356-1607412022-08-02T02:43:07Z Magnetoferritin enhances T₂ contrast in magnetic resonance imaging of macrophages Kumar, Ambrish Nandwana, Vikas Ryoo, Soo-Ryoon Ravishankar, Samyukta Sharma, Bhargy Pervushin, Konstantin Dravid, Vinayak P. Lim, Sierin School of Chemical and Biomedical Engineering School of Biological Sciences NTU-Northwestern Institute for Nanomedicine Engineering::Bioengineering Magnetoferritin Protein Cage Imaging of immune cells has wide implications in understanding disease progression and staging. While optical imaging is limited in penetration depth due to light properties, magnetic resonance (MR) imaging provides a more powerful tool for the imaging of deep tissues where immune cells reside. Due to poor MR signal to noise ratio, tracking of such cells typically requires contrast agents. This report presents an in-depth physical characterization and application of archaeal magnetoferritin for MR imaging of macrophages - an important component of the innate immune system that is the first line of defense and first responder in acute inflammation. Magnetoferritin is synthesized by loading iron in apoferritin in anaerobic condition at 65 °C. The loading method results in one order of magnitude enhancement of r1 and r2 relaxivities compared to standard ferritin synthesized by aerobic loading of iron at room temperature. Detailed characterizations of the magnetoferritin revealed a crystalline core structure that is distinct from previously reported ones indicating magnetite form. The magnetite core is more stable in the presence of reducing agents and has higher peroxidase-like activities compared to the core in standard loading. Co-incubation of macrophage cells with magnetoferritin in-vitro shows significantly higher enhancement in T2-MRI contrast of the immune cells compared to standard ferritin. Nanyang Technological University This work was supported by NTU-Northwestern Institute for Nano-medicine located at the International Institute for Nanotechnology, Northwestern University, USA and the Nanyang Technological Univer-sity, Singapore (Grant No. M4081504.F40.706022). 2022-08-02T02:43:07Z 2022-08-02T02:43:07Z 2021 Journal Article Kumar, A., Nandwana, V., Ryoo, S., Ravishankar, S., Sharma, B., Pervushin, K., Dravid, V. P. & Lim, S. (2021). Magnetoferritin enhances T₂ contrast in magnetic resonance imaging of macrophages. Materials Science and Engineering: C, 128, 112282-. https://dx.doi.org/10.1016/j.msec.2021.112282 0928-4931 https://hdl.handle.net/10356/160741 10.1016/j.msec.2021.112282 34474835 2-s2.0-85110462073 128 112282 en M4081504.F40.706022 Materials Science and Engineering: C © 2021 Elsevier B.V. All rights reserved. |
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Engineering::Bioengineering Magnetoferritin Protein Cage |
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Engineering::Bioengineering Magnetoferritin Protein Cage Kumar, Ambrish Nandwana, Vikas Ryoo, Soo-Ryoon Ravishankar, Samyukta Sharma, Bhargy Pervushin, Konstantin Dravid, Vinayak P. Lim, Sierin Magnetoferritin enhances T₂ contrast in magnetic resonance imaging of macrophages |
| description |
Imaging of immune cells has wide implications in understanding disease progression and staging. While optical imaging is limited in penetration depth due to light properties, magnetic resonance (MR) imaging provides a more powerful tool for the imaging of deep tissues where immune cells reside. Due to poor MR signal to noise ratio, tracking of such cells typically requires contrast agents. This report presents an in-depth physical characterization and application of archaeal magnetoferritin for MR imaging of macrophages - an important component of the innate immune system that is the first line of defense and first responder in acute inflammation. Magnetoferritin is synthesized by loading iron in apoferritin in anaerobic condition at 65 °C. The loading method results in one order of magnitude enhancement of r1 and r2 relaxivities compared to standard ferritin synthesized by aerobic loading of iron at room temperature. Detailed characterizations of the magnetoferritin revealed a crystalline core structure that is distinct from previously reported ones indicating magnetite form. The magnetite core is more stable in the presence of reducing agents and has higher peroxidase-like activities compared to the core in standard loading. Co-incubation of macrophage cells with magnetoferritin in-vitro shows significantly higher enhancement in T2-MRI contrast of the immune cells compared to standard ferritin. |
| author2 |
School of Chemical and Biomedical Engineering |
| author_facet |
School of Chemical and Biomedical Engineering Kumar, Ambrish Nandwana, Vikas Ryoo, Soo-Ryoon Ravishankar, Samyukta Sharma, Bhargy Pervushin, Konstantin Dravid, Vinayak P. Lim, Sierin |
| format |
Article |
| author |
Kumar, Ambrish Nandwana, Vikas Ryoo, Soo-Ryoon Ravishankar, Samyukta Sharma, Bhargy Pervushin, Konstantin Dravid, Vinayak P. Lim, Sierin |
| author_sort |
Kumar, Ambrish |
| title |
Magnetoferritin enhances T₂ contrast in magnetic resonance imaging of macrophages |
| title_short |
Magnetoferritin enhances T₂ contrast in magnetic resonance imaging of macrophages |
| title_full |
Magnetoferritin enhances T₂ contrast in magnetic resonance imaging of macrophages |
| title_fullStr |
Magnetoferritin enhances T₂ contrast in magnetic resonance imaging of macrophages |
| title_full_unstemmed |
Magnetoferritin enhances T₂ contrast in magnetic resonance imaging of macrophages |
| title_sort |
magnetoferritin enhances t₂ contrast in magnetic resonance imaging of macrophages |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/160741 |
| _version_ |
1743119516316991488 |