Gold nanoparticles synthesis and biological activity estimation in vitro and in vivo

Experimental Oncology

Volumn 34, Issue 1, 2012, Pages 25-28

  Rieznichenko, L S ^a   Dybkova, S M ^a   Gruzina, T G ^a   Ulberg, Z R ^a   Todor, I N ^b   Lukyanova, N Yu ^b   Shpyleva, S I ^b   Chekhun, V F ^b  

^a INSTITUTE OF BIOCOLLOID CHEMISTRY   (Ukraine)

^b R E KAVETSKY INSTITUTE OF EXPERIMENTAL PATHOLOGY   (Ukraine)

Author keywords

Affinity; Biological activity; Gold nanoparticles; Guerin carcinoma; U937 cells

Indexed keywords

ADENOSINE TRIPHOSPHATASE (POTASSIUM SODIUM); GOLD NANOPARTICLE;

ANIMAL EXPERIMENT; ANIMAL MODEL; ARTICLE; ATOMIC ABSORPTION SPECTROMETRY; BIOLOGICAL ACTIVITY; BIOSAFETY; CELL INTERACTION; CELL MEMBRANE; CELL STRAIN U937; COMET ASSAY; CONFOCAL MICROSCOPY; CONTROLLED STUDY; DISPERSION; ENZYME ACTIVITY; FEMALE; GENOTOXICITY; GUERIN TUMOR; HUMAN; HUMAN CELL; IN VITRO STUDY; IN VIVO STUDY; MALE; NONHUMAN; PARTICLE SIZE; RAT; SYNTHESIS; TRANSMISSION ELECTRON MICROSCOPY;

ANIMALS; CELL LINE, TUMOR; FEMALE; GOLD; HUMANS; MALE; METAL NANOPARTICLES; PARTICLE SIZE; RATS; TISSUE DISTRIBUTION;

EID: 84862506031     PISSN: 18129269     EISSN: None     Source Type: Journal    
DOI: None     Document Type: Article

References (34)

1. Sahoo SK, Parveen S, Panda JJ. The present and future of nanotechnology in human health care. Nanomedicine 2007; 3: 20-31. (Pubitemid 46428187)
2. Chen PC, Mwakwari SC, Oyelere AK. Gold nanoparticles: from nanomedicine to nanosensing. J Nanotech Sci Appl 2008; 1: 45-66.
3. Bawa R. Nanoparticle-based therapeutics in humans: a survey. NLB 2008; 5: 135-55.
4. West JL, Halas NJ. Application of nanotechnology to biotechnology. Curr Opin Biotechnol 2000; 11: 215-7.
5. Aslan K, Lakowicz JR, Geddes CD. Nanogold-plasmon-resonance-based glucose sensing. Anal Biochem 2004; 330: 145-55. (Pubitemid 38746986)
6. Letfullin RR, Joenathan C, George TF, et al. Laser-induced explosion of gold nanoparticles: potential role for nanophotothermolysis of cancer. Nanomedicine 2006; 1: 473-80.
7. Chah S, Hammond MR, Zare RN. Gold nanoparticles as a colorimetric sensor for protein conformational changes. Chem Biol 2005; 12: 323-8. (Pubitemid 40406279)
8. Li H, Rothberg L. Colorimetric detection of DNA sequences based on electrostatic interactions with unmodified gold nanoparticles. Proc Natl Acad Sci USA 2004; 101: 14036-9. (Pubitemid 39305025)
9. Hainfeld JF, Slatkin DN, Focella TM, Smilowitz HM. Gold nanoparticles: a new X-ray contrast agent. Br J Radiol 2006; 79: 248-53.
10. Connor EE, Mwamuka J, Gole A, et al. Gold nanoparticles are taken up by human cells but do not cause acute cytotoxicity. Small 2005; 1: 325-7. (Pubitemid 43951781)
11. Xu C, Tung GA, Sun S. Size- and concentration effect of gold nanoparticles on X-ray atenuation as measured on computed tomography. Chem Mater 2008; 20: 4167-9.
12. Jahnen-Dechent W, Simon U. Function follows form: shape complementarity and nanoparticle toxicity. Nanomedicine 2008; 3: 601-3.
13. Hu J, Wang Z, Li J. Gold nanoparticles with special shapes: controlled synthesis, surface-enhanced Raman scattering, and the application in biodetection. Sensors 2007; 7: 3299-311.
14. Alkilany AM, Nagaria PK, Hexel CR, et al. Cellular uptake and cytotoxicity of gold nanorods: molecular origin of cytotoxicity and surface effects. Small 2009; 5: 701-8.
15. Skrabalak SE, Chen J, Sun Y, et al. Gold nanocages: synthesis, properties and applications. Acc Chem Res 2008; 41: 1587-95.
16. Paciotti GF, Myer L, Weinreich D, et al. Colloidal gold: novel nanoparticle vector for tumor directed drug delivery. Drug Deliv 2004; 11: 169-83. (Pubitemid 38720414)
17. Chen YH, Tsai CY, Huang PY, et al. Methotrexate conjugated to gold nanoparticles inhibits tumor growth in a syngeneic lung tumor model. Mol Pharmaceutics 2007; 4: 713-22.
18. Pissuwan D, Valenzuela SM, Cortie MB. Therapeutic possibilities of plasmonically heated gold nanoparticles. Trends Biotechnol 2006; 24: 62-7. (Pubitemid 43151977)
19. Cardinal J, Klune JR, Chory E, et al. Noninvasive radiofrequency ablation of cancer targeted by gold nanoparticles. Surgery 2008; 144: 125-32. (Pubitemid 352010312)
20. Huang X, El-Sayed IH, Qian W, El-Sayed MA. Cancer cell imaging and photothermal therapy in the near-infrared region by using gold nanorods. J Am Chem Soc 2006; 128: 2115-20. (Pubitemid 43277351)
21. Alric C, Serduc R, Mandon C, et al. Gold nanoparticles designed for combining dual modality imaging and radiotherapy. Gold Bulletin 2008; 41: 90-7.
22. Kah JCY, Kho KW, Lee CGL, et al. Early diagnosis of oral cancer based on the surface plasmon resonance of gold nanoparticles. Int J Nanomedicine 2007; 2: 785-98.
23. Percov AV. Methodical developments to the training in colloidal chemistry. M: Izd-vo MGU, 1976. 132 p (in Russian).
24. Mayanskiy NA, Blink E, Roos D, Kaypers T. Role of OMI/HTRA2 in caspase-independent cell death of human neutrophils. Cyt Inflam 2004; 2: 47-51 (In Russian).
25. Lowry OH, Rosenbrough NJ, Farr AL, Randall RJ. Protein measurement with the Folin phenol reagent. J Biol Chem 1951; 193: 265-75.
26. Prohorova MI. Methods of biochemical studies (lipid and energetic metabolism). L: Leningr Univ Press, 1982. 272 p (In Russian).
27. Varbanets LD, Zdorovenko GM, Knirel YA. Methods of endotoxins studying. K: "Naukova Dumka", 2006. 237 p (In Russian).
28. Busev AI, Ivanov VM. Gold analytical chemistry. M: Nauka, 1973. 264 p (In Russian).
29. Didenko V. Methods in Molecular Biology. In Situ Detection of DNA Damage. Methods and protocols. Humana Press, 2002. 279 p.
30. Lakin GP. Biometry. M: Vysh sch, 1990. 352p (In Russian).
31. Chekman IS. Nanoparticles: properties and perspectives of using. Ukr Biochem Zh 2009; 81: 122-9 (In Ukrainian).
32. Petrov YI. Clusters and small particles. M: Nauka, 1982. 360 p (In Russian).
33. Dybkova SM, Rieznichenko LS, Gruzina TG, et al. Gold nanoparticles analysis by the method of alkaline gelelectrophoresis of isolated eukaryotic cells. Dopovydi NAS of Ukraine 2010; 3: 166-70 (In Ukrainian).
34. Dybkova SM, Rieznichenko LS, Gruzina TG, Ulberg ZR. Assessment of the in vivo DNA-damaging action of the gold nanoparticles of different sizes. Biotechnology 2010; 3: 66-71 (In Ukrainian).