Functionalized fluorescent nanodiamonds for biomedical applications

Nanomedicine

Volumn 4, Issue 1, 2009, Pages 47-55

  Vaijayanthimala, V ^a,b,c   Chang, H C ^a,b  

^a INSTITUTE OF ATOMIC AND MOLECULAR SCIENCES   (Taiwan)

^b ACADEMIA SINICA   (Taiwan)

^c NATIONAL TSING HUA UNIVERSITY   (Taiwan)

Author keywords

Biocompatibility; Biomedical applications; Nanodiamonds; Photoluminescence; Surface modification

Indexed keywords

BUNGAROTOXIN; DNA; NANODIAMOND; NANOPARTICLE; NANOTUBE; POLYLYSINE; UNCLASSIFIED DRUG; DIAMOND; FLUORESCENT DYE; NANOMATERIAL;

BINDING AFFINITY; BIOCOMPATIBILITY; BIOLOGICAL ACTIVITY; BIOTINYLATION; CHEMICAL INTERACTION; CHEMICAL MODIFICATION; COATED PARTICLE; CYTOTOXICITY; DNA BINDING; FLUORESCENCE ANALYSIS; FLUORESCENCE MICROSCOPY; HUMAN; LIGHT SCATTERING; NANOBIOTECHNOLOGY; NANOCHEMISTRY; NANOIMAGING; NANOMEDICINE; NANOTOXICOLOGY; NONHUMAN; PHOTOLUMINESCENCE; PRIORITY JOURNAL; REVIEW; SURFACE CHARGE; SURFACE PROPERTY; ARTICLE; CHEMISTRY; HELA CELL; LUMINESCENCE; OXIDATION REDUCTION REACTION;

BIOTINYLATION; DIAMOND; DNA; FLUORESCENT DYES; HELA CELLS; HUMANS; LUMINESCENCE; NANOSTRUCTURES; OXIDATION-REDUCTION; SURFACE PROPERTIES;

EID: 60249097798     PISSN: 17435889     EISSN: None     Source Type: Journal    
DOI: 10.2217/17435889.4.1.47     Document Type: Review

References (62)

1. Freitas Jr RA: Nanomedicine (Volume IIA): Biocompatibility. Landes Bioscience, Georgetown, TX, USA (2003).
2. Burns RC, Davies GJ: Properties of Natural and Synthetic Diamond. Field JE (Ed.). Academic Press, London, UK 395-422 (1992).
3. Moustakas TD: Synthetic Diamond: Emerging CVD Science and Technology. Spear KE, Dismukes JP (Eds). John Wiley, New York, USA 145-192 (1994).
4. Dion I, Baquey C, Monties JR: Diamond - the biomaterial of the 21st century? Int. J. Artif. Organs16,623-627 (1993).
5. Dahl JE, Liu SG, Carlson RM: Isolation and structure of higher diamondoids, nanometer-sized diamond molecules. Science299,96-99 (2003).
6. 30). Angew. Chem. Int. Ed.42,2040-2044 (2003).
7. Krueger A: The structure and reactivity of nanoscale diamond. J. Mater. Chem.18,1485-1492 (2008).
8. Yu SJ, Kang MW, Chang HC et al.: Bright fluorescent nanodiamonds: no photobleaching and low cytotoxicity. J. Am. Chem. Soc.127,17604-17605 (2005).
9. Fu CC, Lee HY, Chen K et al.: Characterization and application of single fluorescent nanodiamonds as cellular biomarkers. Proc. Natl Acad. Sci. USA104,727-732 (2007).
10. Chang YR, Lee HY, Chen K et al.: Mass production and dynamic imaging of fluorescent nanodiamonds. Nat. Nanotech.3,284-288 (2008).
11. Schwertfeger H, Fokin AA, Schreiner PR: Diamonds are a chemist's best friend: diamondoid chemistry beyond adamantine. Angew. Chem. Int. Ed.47,1022-1036 (2008).
12. Nebel CE, Shin DC, Rezek B et al.: Diamond and biology. J. R Soc. Interface4,439-461 (2007).
13. Holt KB: Diamond at the nanoscale: Applications of diamond nanoparticles from cellular biomarkers to quantum computing. Phil. Trans. R. Soc. A365,2845-2861 (2007).
14. Krueger A: New carbon materials: biological applications of functionalized nanodiamond materials. Chem. Eur. J.14,1382-1390 (2008).
15. Manilenko VV: Ultrananocrystalline Diamond: Synthesis, Properties and Applications. Shenderova OA, Gruen DM (Eds). William Andrew, New York, USA 335-345(2006).
16. Yang WS, Auciello O, Butler JE et al.: DNA-modified nanocrystalline diamond thin-films as stable, biologically active substrates. Nat. Mater.1,253-257 (2002).
17. Hartl A, Schmich E, Garrido JA et al.: Protein-modified nanocrystalline diamond thin films for biosensor applications. Nat. Mater.3,736-742 (2004).
18. Osawa E: Recent progress and perspectives in single-digit nanodiamond. Diamond Relat. Mater. 16,2018-2022 (2007).
19. Huang H, Pierstorff E, Osawa E et al.: Active nanodiamond hydrogels for chemotherapeutic delivery. Nano Lett.7,3305-3314 (2007).
20. Davies G, Hamer MF: Optical studies of the 1.945 eV vibronic band in diamond. Proc. R. Soc. Lond. A348,285-298 (1976).
21. Lim YT, Kim S, Nakayama A et al.: Selection of quantum dot wavelengths for biomedical assays and imaging. Mol. Imaging2,50-64 (2003).
22. Brannon-Peppas L, Blanchette JO: Nanoparticle and targeted systems for cancer therapy. Adv. Drug Deliv. Rev.56,1649-1659 (2004).
23. Kawasaki ES, Player A: Nanotechnology, nanomedicine, and the development of new, effective therapies for cancer. Nanomed.1,101-109 (2005).
24. Zhang L, Gu FX, Chan JM et al.: Nanoparticles in medicine: Therapeutic applications and developments. Clin. Pharmacol. Ther.83,761-769 (2008).
25. Colvin VL: The potential environmental impact of engineered nanomaterials. Nat. Biotech.21,1166-1170 (2003).
26. Jia G, Wang H, Yan L et al.: Cytotoxicity of carbon nanomaterials: Single-wall nanotube, multi-wall nanotube, and fullerene. Environ. Sci. Technol.39,1378-1383 (2005).
27. Liu KK, Cheng CL, Chang CC et al.: Biocompatible and detectable carboxylated nanodiamond and on human cell. Nanotech.18,325102 (2007).
28. Schrand AM, Huang HJ, Carlson C et al.: Are diamond nanoparticles cytotoxic? J. Phys. Chem. B 111,2-7 (2007).
29. Schrand AM, Dai L, Schlager JJ et al.: Differential biocompatibility of carbon nanotubes and nanodiamonds. Diamond Relat. Mater. 16,2118-2123 (2007).
30. Ushizawa K, Sato Y, Mitsumori T et al.: Covalent immobilization of DNA on diamond and its verification by diffuse reflectance infrared spectroscopy. Chem. Phys. Lett. 351, 105-108 (2002).
31. Huang LCL, Chang HC: Adsorption and immobilization of cytochrorne c on nanodiamonds. Langmuir 20, 5879-5884 (2004).
32. Kruegerx A, Liang YJ, Jarre G et al.: Surface functionatisation of detonation diamonds suitable for biological applications. J. Mater Chem. 16,2322-2328 (2006).
33. Chung PH, Perevedentseva E, TuJS et al.: Spectroscopic study of biofunctionalized nanodiamonds. Diamond Relat. Mater. 12,622-625 (2006).
34. Osswald S, Yushin G, Mochalin V et al.: Control of sp2/sp3 carbon ratio and surface chemistry of nanodiamond powders by selective oxidation in air. J. Am. Chem. Soc. 128,11635-11642 (2006).
35. Nguyen TTB, Chang HC, Wu VWK: Adsorption and hydrolytic activity of lysozyme on diamond nanocrystallites. Diamond Relat. Mater. 16,872-876 (2007).
36. Kong XL, Huang LCL, Hsu CM et al.: High-affinity capture of proteins by diamond nanoparticles for mass spectrometric analysis. Anal. Chem. 77,259-265 (2005).
37. Chenx WH,, Lee SC, Sabu S et al.: Solid phase extraction and elution on diamond (SPEED): A fast and general platform for proteome analysis with mass spectrometry. Anal. Chem. 78,4228-4234 (2006).
38. Sabu S, Yang FC, Wang YS et al.: Peptide analysis: Solid phase extraction-elution on diamond (SPEED) combined with atmospheric pressure MALDI-FTICR mass spectrometry. Anal. Biochem. 367,190-200 (2007).
39. Tzeng YK, Chang CC, Huang CN et al.: Facile MALDI-MS analysis of neutral glycans in NaOH-doped matrices: microwave-assisted deglycosylation and one-step purification with diamond nanoparticles. Anal. Chem. 80,6809-6814 (2008).
40. Kong XL, Huang LCL, Liau SCV et al.: Polylysine-coated diamond nanocrystals for MALDI-TOF mass analysis of DNA oligonucleotides. Anal. Chem. 77,4273-4277 (2005).
41. Kossovsky N, Gelman A, Hnatyszyn HJ et al.: Surface-modified diamond nanoparticles as antigen delivery vehicles. Bioconjug. Chem. 6,507-511(1995).
42. Cheng CY, Perevedentseva E, TuJS et al.: Direct and in vitro observation of growth hormone receptor molecules in A549 human lung epithelial cells by nanodiamonds labelling. Appl. Phys. Lett. 90,163903 (2007).
43. Vial S, Mansuy C, Sagan S et al.: Peptide-grafted nanodiamonds: preparation, cytotoxicity and uptake in cells. Chembiochem9,2113-2119 (2008).
44. Krueger A, Stegk J, Liang YJ et al.: Biotinylated nanodiamond: simple and efficient functionalization of detonation diamonds. Langmuir 24,4200-4204 (2008)
45. Yeap WS, Tan YY, Loh KP: Using detonation nanodiamond for the specific capture of glycoproteins. Anal. Chem. 80,4659-4665 (2008).
46. Liu KK, Chen MF, Chen PY et al.: α-bungarotoxin binding to target cell in a developing visual system by carboxylated nanodiamonds. Nanotech. 19,205102 (2008).
47. Taton TA: Nanostructure as tailored biological probes. Trends Biotech. 20,277-279 (2002).
48. Giepmans BNG, Adams SR, Ellisman MH et al.: The fluorescent toolbox for assessing protein location and function. Science 312,217-224 (2006).
49. Zhang J, Campbell RE, Ting AY et al.: Creating new fluorescent probes for cell biology. Nat. Rev. Mol. Cell Biol.3,906-918 (2002).
50. Michalet X, Pinaud FF, Bentolila LA et al.: Quantum dots for live cells, in vivo imaging and diagnostics. Science307,538-544 (2005).
51. Derfus AM, Chan WCW, Bhatia SN: Probing the cytotoxicity of semiconductor quantum dots. Nano Lett. 4,11-18 (2004).
52. Cho SJ, Maysinger D, Jain M et al.: Long-term exposure to CdTe quantum dots causes functional impairments in live cells. Langmuir23,1974-1980 (2007).
53. Billinton N, Knight AW: Seeing the wood through the trees: a review of techniques for distinguishing green fluorescent protein from endogenous autofluorescence. Anal. Biochem.291,175-197 (2001).
54. Mansfield JR, Gossage KW, Hoyt CC et al.: Autofluorescence removal, multiplexing, and automated analysis methods for in vivo fluorescence imaging. J. Biomed. Opt. 10,04120 (2005).
55. Treussart F, Jacques V, Wu E et al.: Photoluminescence of single colour defects in 50 nm diamond nanocrystals. Physica B376,926-929 (2006).
56. Neugart F, Zappe A, Jelezko F et al.: Dynamics of diamond nanoparticles in solution and cells. Nano Lett.7,3588-3591 (2007).
57. Wee TL, Mau YW, Fang CY et al.: Preparation and characterization of green fluorescent nanodiamonds for biological applications. Diamond Relat. Mater. doi:10.1016/j.diamond.2008.08.012 (2008) (Epub ahead of print).
58. Davies G, Lawson SC, Collins AI et al.: Vacancy-related centers in diamond. Phys. Rev. B46,13157-13170 (1992).
59. Smith BR, Niebert M, Plakhotnik T et al.: Transfection and imaging of diamond nanoparticles as scattering optical labels. J. Lumin. 127,260-263 (2007).
60. Chao JI, Perevedentseva, E, Chung PH et al.: Nanometer-sized diamond particle as a probe for biolabeling. Biophys. J.93,2199-2208 (2007).
61. Perevedentseva E, Cheng CY, Chung PH et al.: The interaction of protein lysozyme with bacteria E. coli observed using nanodiamond labelling. Nanotech.18,315102 (2007).
62. Sanhai WR, Sakamoto JH, Canady R et al.: Seven challenges for nanomedicine. Nat. Nanotech.3,242-244 (2008).