Iron nanoparticles from animal blood for cellular imaging and targeted delivery for cancer treatment

Biochimica et Biophysica Acta - General Subjects

Volumn 1830, Issue 4, 2013, Pages 3005-3010

  Chamundeeswari, M ^a   Sastry, T P ^b   Lakhsmi, B S ^c   Senthil, V ^d   Agostinelli, Enzo ^e  

^a ST JOSEPH S COLLEGE OF ENGINEERING   (India)

^b CENTRAL LEATHER RESEARCH INSTITUTE   (India)

^c ANNA UNIVERSITY   (India)

^d Gemini Scans   (India)

^e SAPIENZA UNIVERSITY OF ROME   (Italy)

Author keywords

Breast cancer cell; Chitosan; Folic acid; Iron nanoparticle; MRI scan

Indexed keywords

CHITOSAN; FOLATE RECEPTOR; FOLIC ACID; IRON; IRON NANOPARTICLE; MONOCLONAL ANTIBODY; NANOPARTICLE; UNCLASSIFIED DRUG;

ANIMAL CELL; ARTICLE; BLOOD ANALYSIS; BREAST CANCER; CANCER CELL; CANCER THERAPY; CONTROLLED STUDY; DRUG DELIVERY SYSTEM; EMBRYO; HUMAN; HUMAN CELL; IMAGE ANALYSIS; INCINERATION; INFRARED SPECTROSCOPY; INTERNALIZATION; MOLECULAR IMAGING; MOLECULARLY TARGETED THERAPY; MOUSE; NONHUMAN; NUCLEAR MAGNETIC RESONANCE IMAGING; PARTICLE SIZE; PRIORITY JOURNAL; PROTEIN EXPRESSION; ROENTGEN SPECTROSCOPY; SCANNING ELECTRON MICROSCOPY; TRANSMISSION ELECTRON MICROSCOPY; ZETA POTENTIAL;

ANIMALS; ANTINEOPLASTIC AGENTS; CELL LINE, TUMOR; CHITOSAN; DRUG DELIVERY SYSTEMS; FOLIC ACID; GOATS; HUMANS; IRON; MAGNETIC RESONANCE IMAGING; METAL NANOPARTICLES; MICE; MICROSCOPY, PHASE-CONTRAST; NIH 3T3 CELLS; PARTICLE SIZE; SPECTROSCOPY, FOURIER TRANSFORM INFRARED;

ANIMALIA; CAPRA HIRCUS;

EID: 84873710800     PISSN: 03044165     EISSN: 18728006     Source Type: Journal    
DOI: 10.1016/j.bbagen.2012.12.031     Document Type: Article

References (34)

1. S. Moudgil, and J. Ying Calcium-doped organosilicate nanoparticles as gene delivery vehicles for bone cells Adv. Mat. 19 2007 3130 3135
2. M. Ferrari Cancer nanotechnology: opportunities and challenges Nat. Rev. Cancer 5 2005 161 171
3. W. Cai, T. Gao, H. Hong, and J. Sun Applications of gold nanoparticles in cancer nanotechnology Nanotechnol. Sci. Appl. 1 2008 17 32
4. S. Kumar, and R.R. Kortum Optical molecular imaging agents for cancer diagnostics and therapeutics Nanomedicine 1 2006 23 30
5. R. Sinha, G.J. Kim, S. Nie, and D.M. Shin Nanotechnology in cancer therapeutics: bioconjugated NPs for drug delivery Mol. Cancer Ther. 5 2006 1909 1917
6. N. Ahmed, H. Fessi, and A. Elaissari Theranostic applications of nanoparticles in cancer Drug Discov. Today 17 2012 928 934
7. S.A. Eccles Monoclonal antibodies targeting cancer: 'magic bullets' or just the trigger Breast Cancer Res. 3 2001 86 90
8. Y. Zhang, M. Yang, N.G. Portney, D. Cui, G. Budak, E. Ozbay, M. Ozkan, and C.S. Ozkan Zeta potential: a surface electrical characteristic to probe the interaction of nanoparticles with normal and cancer human breast epithelial cells Biomed. Microdevices 10 2008 321 328
9. T.K. Indira, and P.K. Lakshmi Magnetic nanoparticles - a review Int. J. Pharm. Sci. Nanotech. 3 2010 1035 1042
10. S. Prijic, and G. Sersa Magnetic nanoparticles as targeted delivery systems in oncology Radiol. Oncol. 45 2011 1 16
11. S.F. Medeiros, A.M. Santos, H. Fessi, and A. Elaissari Thermally-sensitive and magnetic poly(N-Vinylcaprolactam)-based nanogels by inverse miniemulsion polymerization J. Colloid Sci. Biotechnol. 1 2012 99 112
12. S. Sarkar, and M. Mandal Growth factor receptors and apoptosis regulators: signaling pathways, prognosis, chemo sensitivity and treatment outcomes of breast cancer Breast Canc. Basic Clin. Res. 3 2009 47 60
13. K.F. Pirollo, J. Dagata, P. Wang, M. Freedman, A. Vladar, S. Fricke, L. Ileva, Q. Zhou, and E.H. Chang A tumor-targeted nanodelivery system to improve early MRI detection of cancer Mol. Imaging 5 2006 41 52
14. S.E. Burdall, A.M. Hanby, M.R.J. Lansdown, and V. Spiers Breast cancer cell lines: friend or foe? Breast Cancer Res. 5 2003 89 95
15. J.H. Lee, Y.M. Huh, Y.W. Jun, J.W. Seo, J.T. Jang, H.T. Song, S. Kim, E.J. Cho, H.G. Yoon, J.S. Suh, and J. Cheon Artificially engineered magnetic nanoparticles for ultrasensitive molecular imaging Nat. Med. 13 2007 95 99
16. J. Pan, and S.S. Feng Targeting and imaging cancer cells by folate-decorated, quantum dots (QDs)-loaded nanoparticles of biodegradable polymers Biomaterials 30 2009 1176 1183
17. X.H. Jing, L. Yang, X.J. Duan, B. Xie, W. Chen, Z. Li, and H.B. Tan In vivo MR imaging tracking of magnetic iron oxide nanoparticle labeled, engineered, autologous bone marrow mesenchymal stem cells following intra-articular injection Joint Bone Spine 75 2008 432 438
18. F.X. Hu, K.G. Neoh, and E.T. Kang Synthesis and in vitro anticancer evaluation of tamoxifen-loaded magnetite/PLLAcomposite nanoparticles Biomaterials 27 2006 5725 5733
19. C.G. Hadjipanayis, M.J. Bonder, S. Balakrishnan, X. Wang, H. Mao, and C. George Metallic iron nanoparticles for MRI contrast enhancement and local hyperthermia Small 4 2008 1925 1929
20. S. Mornet, S. Vasseur, F. Grasset, and E. Duguet Magnetic nanoparticle design for medical diagnosis and therapy J. Mater. Chem. 14 2004 2161 2175
21. F. Sonvico, S. Mornet, S. Vasseur, C. Dubernet, D. Jaillard, J. Degrouard, J. Hoebeke, E. Duguet, P. Colombo, and P. Couvreur Folate-conjugated iron oxide nanoparticles for solid tumor targeting as potential specific magnetic hyperthermia: synthesis, physicochemical characterization and in vitro experiments Bioconjug. Chem. 16 2005 1181 1188
22. V.R. Sinha, A.K. Singla, S. Wadhawan, R. Kaushik, R. Kumria, K. Bansal, and S. Dhawan Chitosan microspheres as a potential carrier for drugs Int. J. Pharm. 274 2004 1 33
23. M. Chamundeeswari, S.S. Liji, J.P. Justin, M. Ganesh Kumar, M. Pandima Devi, and T.P. Sastry Preparation, characterization and evaluation of a biopolymeric gold nanocomposite with antimicrobial activity Biotechnol. Appl. Biochem. 55 2010 29 35
24. R. Ziba, M.A. Reza, B. Esmaeil, and H.K. Saeed Preparation of magnetic chitosan nanocomposite particles and their susceptibility for cellular separation applications J. Colloid Sci. Biotech. 1 2012 82 88
25. F.G. Shellock, and E. Kanal Safety of MRI contrast agents J. Magn. Reson. Imaging 10 1999 477 484
26. M.E. Bartolinia, J. Pekara, D.R. Chettlea, M.F. Neilla, A. Scottb, J. Sykesc, F.S. Prato, and G.R. Moran An investigation of the toxicity of gadolinium based MRI contrast agents using neutron activation analysis J. Magn. Reson. Imaging 21 2003 541 544
27. H.J. Weinmann, W.R. Press, and H. Gries Tolerance of extracellular contrast agents for magnetic resonance imaging Invest. Radiol. 25 1990 49 50
28. M. Chamundeeswari, V. Senthil, M. Kanagavel, S.M. Chandramohan, and T.P. Sastry Preparation and characterization of nanobiocomposites containing iron nanoparticles prepared from blood and coated with chitosan and gelatin Mater. Res. Bull. 46 2011 901 904
29. N. Kohler, C. Sun, J. Wang, and M.Q. Zhang Methrotrexate-modified super paramagnetic nanoparticles and their intracellular uptake into human cancer cells Langmuir 21 2005 8858 8864
30. V. Zaitsev, D.S. Filimimonov, I.A. Presnyakov, R.J. Gambino, and B.J. Chu Physical and chemical properties of magnetite and magnetite-polymer nanoparticles and their colloidal dispersions Colloid Interface Sci. 212 1999 49 57
31. Y. Ge, Y. Zhang, S. He, F. Nie, G. Teng, and N. Gu Fluorescence modified chitosan-coated magnetic nanoparticles for high-efficient cellular imaging Nanoscale Res. Lett. 4 2009 287 295
32. C.T. Huynh, M.K. Nguyen, and D.S. Lee Dually cationic and anionic pH/temperature-sensitive injectables hydrogels and potential application as a protein carrier Chem. Commun. 48 2012 10951 10953
33. 3) and polyvinyl alcohol Physica B 354 2004 149 153
34. R. Rossin, D. Pan, K. Qi, T.J. Turner, X. Sun, K.L. Wooley, and M.J. Welsch 64Cu-labeled folate-conjugated shell cross-linked nanoparticles for tumor imaging and radiotherapy: synthesis, radiolabeling, and biologic evaluation J. Nucl. Med. 46 2005 1210 1218