Gold nanoparticles for in vivo cell tracking

Nanomedicine

Volumn 9, Issue 13, 2014, Pages 2059-2069

  Meir, Rinat ^a   Motiei, Menachem ^a   Popovtzer, Rachela ^a  

^a BAR ILAN UNIVERSITY   (Israel)

Author keywords

cancer; cell therapy; cell tracking; computed tomography; gold nanoparticles; immune cells; in vivo imaging, noninvasive; photoacoustic; stem cells

Indexed keywords

GOLD NANOPARTICLE; CONTRAST MEDIUM; GOLD; METAL NANOPARTICLE;

ALLOPATHY; CANCER THERAPY; CELL LABELING; CELL THERAPY; CELL TRACKING; CLINICAL EFFECTIVENESS; HUMAN; IMMUNOCOMPETENT CELL; IN VIVO STUDY; NONHUMAN; REVIEW; STEM CELL TRANSPLANTATION; DIAGNOSTIC USE; GENE THERAPY; NEOPLASMS; PROCEDURES;

CELL TRACKING; CONTRAST MEDIA; GENETIC THERAPY; GOLD; HUMANS; METAL NANOPARTICLES; NEOPLASMS; STEM CELL TRANSPLANTATION;

EID: 84908297532     PISSN: 17435889     EISSN: 17486963     Source Type: Journal    
DOI: 10.2217/nnm.14.129     Document Type: Review

References (39)

1. Janowski M, Bulte JWM, Walczak P. Personalized nanomedicine advancements for stem cell tracking. Adv. Drug Deliv. Rev. 64(13), 1488-1507 (2012).
2. Fodor WL. Tissue engineering and cell based therapies, from the bench to the clinic: The potential to replace, repair and regenerate. Reprod. Biol. Endocrinol. 1, 102 (2003).
3. Srivastava AK, Bulte JWM. Seeing stem cells at work in vivo. Stem Cell Rev. 10(1), 127-144 (2014).
4. Ahrens ET, Bulte JWM. Tracking immune cells in vivo using magnetic resonance imaging. Nat. Rev. Immunol. 13(10), 755-763 (2013).
5. Kaur S, Singhal B. When nano meets stem: The impact of nanotechnology in stem cell biology. J. Biosci. Bioeng. 113(1), 1-4 (2012).
6. Lindvall O, Bjorklund A. Cell therapy in Parkinson's disease. NeuroRx 1(4), 382-393 (2004).
7. Bongso A, Fong C-Y, Gauthaman K. Taking stem cells to the clinic: Major challenges. J. Cell. Biochem. 105(6), 1352-1360 (2008).
8. Stuckey DJ, Carr CA, Martin-Rendon E et al. Iron particles for noninvasive monitoring of bone marrow stromal cell engraftment into, and isolation of viable engrafted donor cells from, the heart. Stem Cells 24(8), 1968-1975 (2006).
9. Phinney DG, Prockop DJ. Concise review: Mesenchymal stem/multipotent stromal cells: The state of transdifferentiation and modes of tissue repair-current views. Stem Cells 25(11), 2896-2902 (2007).
10. Tong L, Zhao H, He Z, Li Z. Current perspectives on molecular imaging for tracking stem cell therapy. In: Medical Imaging in Clinical Practice. Erondu OF (Ed.). InTech, Croatia, 63-79 (2013).
11. Aarntzen EHJG, Srinivas M, Walczak P et al. In vivo tracking techniques for cellular regeneration, replacement, and redirection. J. Nucl. Med. 53(12), 1825-1828 (2012).
12. Jha P, Golovko D, Bains S et al. Monitoring of NK-cell immunotherapy using non-invasive imaging modalities. Cancer Res. 70(15), 6109-6113 (2011).
13. Arifin DR, Long CM, Gilad AA et al. Trimodal gadolinium-gold microcapsules containing pancreatic islet cells restore normoglycemia in diabetic mice and can be tracked by using US, CT, and positive-contrast MR imaging. Radiology 260(3), 790-798 (2011).
14. Cho EC, Zhang Q, Xia Y. The effect of sedimentation and diffusion on cellular uptake of gold nanoparticles. Nat. Nanotechnol. 6(6), 385-391 (2011).
15. Chithrani BD, Ghazani AA, Chan WCW. Determining the size and shape dependence of gold nanoparticle uptake into mammalian cells. Nano Lett. 6(4), 662-668 (2006).
16. Chithrani BD, Stewart J, Allen C, Jaffray DA. Intracellular uptake, transport, and processing of nanostructures in cancer cells. Nanomedicine 5(2), 118-127 (2009).
17. Khan MS, Vishakante GD, Siddaramaiah H. Gold nanoparticles: A paradigm shift in biomedical applications. Adv. Colloid Interface Sci. 199-200, 44-58 (2013).
18. Astolfo A, Schültke E, Menk RH et al. In vivo visualization of gold-loaded cells in mice using x-ray computed tomography. Nanomedicine 9(2), 284-292 (2013).
19. Menk RH, Schültke E, Hall C et al. Gold nanoparticle labeling of cells is a sensitive method to investigate cell distribution and migration in animal models of human disease. Nanomedicine 7(5), 647-654 (2011).
20. Jokerst J V, Thangaraj M, Kempen PJ, Sinclair R, Sanjiv S. Photoacoustic imaging of mesenchymal stem cells in living mice via silica-coated gold nanorods. ACS Nano 6(7), 5920-5930 (2013).
21. Nam SY, Ricles LM, Suggs LJ, Emelianov SY. In vivo ultrasound and photoacoustic monitoring of mesenchymal stem cells labeled with gold nanotracers. PLoS ONE 7(5), e37267 (2012).
22. Bhatnagar P, Li Z, Choi Y et al. Imaging of genetically engineered T cells by PET using gold nanoparticles complexed to copper-64. Integr. Biol. (Camb.) 5(1), 231-238 (2013).
23. Shilo M, Reuveni T, Motiei M, Popovtzer R. Nanoparticles as computed tomography contrast agents: Current status and future perspectives. Nanomedicine (Lond.) 7(2), 257-269 (2012).
24. Yu SB, Watson AD. Metal-based x-ray contrast media. Chem. Rev. 99(9), 2353-2378 (1999).
25. Shilo M, Motiei M, Hana P, Popovtzer R. Transport of nanoparticles through the blood-brain barrier for imaging and therapeutic applications. Nanoscale 6(4), 2146-2152 (2014).
26. Schültke E, Menk R, Pinzer B et al. Single-cell resolution in high-resolution synchrotron x-ray CT imaging with gold nanoparticles. J. Synchrotron Radiat. 21(Pt 1), 242-250 (2014).
27. Astolfo A, Arfelli F, Schültke E, James S, Mancini L, Menk R-H. A detailed study of gold-nanoparticle loaded cells using x-ray based techniques for cell-Tracking applications with single-cell sensitivity. Nanoscale 5(8), 3337-3345 (2013).
28. Brat DJ, Van Meir EG. Vaso-occlusive and prothrombotic mechanisms associated with tumor hypoxia, necrosis, and accelerated growth in glioblastoma. Lab. Invest. 84(4), 397-405 (2004).
29. Kang SK, Shin IS, Ko MS, Jo JY, Ra JC. Journey of mesenchymal stem cells for homing: Strategies to enhance efficacy and safety of stem cell therapy. Stem Cells Int. 2012, 342968 (2012).
30. Nam SY, Ricles LM, Sokolov K, Suggs LJ, Emelianov SY Ultrasound and photoacoustic imaging to monitor mesenchymal stem cells labeled with gold nanoparticles. 7899, 78991Z-1-78991Z-7 (2011).
31. Chung E,, SY, Ricles LM, Emelianov SY, Suggs LJ. Evaluation of gold nanotracers to track adipose-derived stem cells in a PEGylated fibrin gel for dermal tissue engineering applications. Int. J. Nanomedicine 8, 325-336 (2013).
32. Zhang Q, Iwakuma N, Sharma P et al. Gold nanoparticles as a contrast agent for in vivo tumor imaging with photoacoustic tomography. Nanotechnology 20(39), 395102 (2009).
33. Cai X, Paratala BS, Hu S, Sitharaman B, Wang L V. Multiscale photoacoustic microscopy of single-walled carbon nanotube-incorporated tissue engineering scaffolds. Tissue Eng. Part C Methods 18(4), 310-317 (2012).
34. Kreitz S, Dohmen G, Hasken S, Schmitz-Rode T, Mela P, Jockenhoevel S. Nondestructive method to evaluate the collagen content of fibrin-based tissue engineered structures via ultrasound. Tissue Eng. Part Methods 17(10), 1021-1026 (2011).
35. Wang Y, Xu C, Ow H. Commercial nanoparticles for stem cell labeling and tracking. Theranostics 3(8), 544-560 (2013).
36. Ricles LM, , SY, Sokolov K, Emelianov SY, Suggs LJ. Function of mesenchymal stem cells following loading of gold nanotracers. Int. J. Nanomedicine 6, 407-416 (2011).
37. Dekaban GA, Hamilton AM, Fink CA et al. Tracking and evaluation of dendritic cell migration by cellular magnetic resonance imaging. Wiley Interdiscip. Rev. Nanomed. Nanobiotechnol. 5(5), 469-483 (2013).
38. Merhavi-Shoham E, Haga-Friedman A, Cohen CJ. Genetically modulating T-cell function to target cancer. Semin. Cancer Biol. 22(1), 14-22 (2012).
39. Miller JS. Should natural killer cells be expanded in vivo or ex vivo to maximize their therapeutic potential?. Cytotherapy 11(3), 259-260 (2009).