Rhenium carbonyl complexes bearing methylated triphenylphosphonium cations as antibody-free mitochondria trackers for X-ray fluorescence imaging
Synchrotron Radiation X-ray Fluorescence (SXRF) imaging is a powerful technique for the visualization of metal complexes in biological systems. However, due to the lack of an endogenous elemental signature for mitochondria, probes for the localization of this organelle are required for colocalizatio...
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sg-ntu-dr.10356-1599982022-07-07T06:13:52Z Rhenium carbonyl complexes bearing methylated triphenylphosphonium cations as antibody-free mitochondria trackers for X-ray fluorescence imaging Schanne, Gabrielle Henry, Lucas Ong, How Chee Somogyi, Andrea Medjoubi, Kadda Delsuc, Nicolas Policar, Clotilde García, Felipe Bertrand, Helene C. School of Physical and Mathematical Sciences Science::Chemistry Core Multimodal Probe Tricarbonyl Complexes Synchrotron Radiation X-ray Fluorescence (SXRF) imaging is a powerful technique for the visualization of metal complexes in biological systems. However, due to the lack of an endogenous elemental signature for mitochondria, probes for the localization of this organelle are required for colocalization studies. In this work, we designed and synthesized rhenium pyta tricarbonyl complexes conjugated to methylated triphenylphosphonium TP*P+ cations as multimodal probes for the visualization of mitochondria, suitable for fluorescence and SXRF imaging and quantification. Accumulation of the methylated triphenylphosphonium TP*P+-based conjugates in cells was observed in fixed A549 cells, and the amount of mitochondrial uptake was linked to the lipophilicity of the TPP+ vector. Our work highlights a convenient rhenium-based multimodal mitochondrial-targeted probe compatible with SXRF nano-imaging. Agency for Science, Technology and Research (A*STAR) Ministry of Education (MOE) Nanyang Technological University We thank the Fondation pour la Recherche Medicale for financial support (contract DIE20151234413, call "Pionniers de la recherche, Etudes physico-chimiques innovantes pour la biologie et la medecine). F. G. would like to thank A*STAR AME IRG A1783c0003, NTU for a start-up grant (M4080552) and MOE Tier 1 grants (RG 11/15 and RG 113/16) for financial support. H. C. would like to thank NTU for NPGS scholarship. 2022-07-07T06:13:52Z 2022-07-07T06:13:52Z 2021 Journal Article Schanne, G., Henry, L., Ong, H. C., Somogyi, A., Medjoubi, K., Delsuc, N., Policar, C., García, F. & Bertrand, H. C. (2021). Rhenium carbonyl complexes bearing methylated triphenylphosphonium cations as antibody-free mitochondria trackers for X-ray fluorescence imaging. Inorganic Chemistry Frontiers, 8(16), 3905-3915. https://dx.doi.org/10.1039/D1QI00542A 2052-1553 https://hdl.handle.net/10356/159998 10.1039/D1QI00542A 16 8 3905 3915 en A1783c0003 M4080552 RG 11/15 RG 113/16 Inorganic Chemistry Frontiers © 2021 the Partner Organisations. All rights reserved. |
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Science::Chemistry Core Multimodal Probe Tricarbonyl Complexes |
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Science::Chemistry Core Multimodal Probe Tricarbonyl Complexes Schanne, Gabrielle Henry, Lucas Ong, How Chee Somogyi, Andrea Medjoubi, Kadda Delsuc, Nicolas Policar, Clotilde García, Felipe Bertrand, Helene C. Rhenium carbonyl complexes bearing methylated triphenylphosphonium cations as antibody-free mitochondria trackers for X-ray fluorescence imaging |
| description |
Synchrotron Radiation X-ray Fluorescence (SXRF) imaging is a powerful technique for the visualization of metal complexes in biological systems. However, due to the lack of an endogenous elemental signature for mitochondria, probes for the localization of this organelle are required for colocalization studies. In this work, we designed and synthesized rhenium pyta tricarbonyl complexes conjugated to methylated triphenylphosphonium TP*P+ cations as multimodal probes for the visualization of mitochondria, suitable for fluorescence and SXRF imaging and quantification. Accumulation of the methylated triphenylphosphonium TP*P+-based conjugates in cells was observed in fixed A549 cells, and the amount of mitochondrial uptake was linked to the lipophilicity of the TPP+ vector. Our work highlights a convenient rhenium-based multimodal mitochondrial-targeted probe compatible with SXRF nano-imaging. |
| author2 |
School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Schanne, Gabrielle Henry, Lucas Ong, How Chee Somogyi, Andrea Medjoubi, Kadda Delsuc, Nicolas Policar, Clotilde García, Felipe Bertrand, Helene C. |
| format |
Article |
| author |
Schanne, Gabrielle Henry, Lucas Ong, How Chee Somogyi, Andrea Medjoubi, Kadda Delsuc, Nicolas Policar, Clotilde García, Felipe Bertrand, Helene C. |
| author_sort |
Schanne, Gabrielle |
| title |
Rhenium carbonyl complexes bearing methylated triphenylphosphonium cations as antibody-free mitochondria trackers for X-ray fluorescence imaging |
| title_short |
Rhenium carbonyl complexes bearing methylated triphenylphosphonium cations as antibody-free mitochondria trackers for X-ray fluorescence imaging |
| title_full |
Rhenium carbonyl complexes bearing methylated triphenylphosphonium cations as antibody-free mitochondria trackers for X-ray fluorescence imaging |
| title_fullStr |
Rhenium carbonyl complexes bearing methylated triphenylphosphonium cations as antibody-free mitochondria trackers for X-ray fluorescence imaging |
| title_full_unstemmed |
Rhenium carbonyl complexes bearing methylated triphenylphosphonium cations as antibody-free mitochondria trackers for X-ray fluorescence imaging |
| title_sort |
rhenium carbonyl complexes bearing methylated triphenylphosphonium cations as antibody-free mitochondria trackers for x-ray fluorescence imaging |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/159998 |
| _version_ |
1738844875237883904 |