BACKGROUND: The extreme specific activity of the long-lifetime fluorescent europium(III) chelate nanoparticles and the enhanced monovalent binding affinity of multivalent nanoparticle-antibody bioconjugates are attractive for noncompetitive immunoassay. METHODS: We used a noncompetitive, two-step immunoassay design to measure free prostate-specific antigen (PSA). Europium(III) chelate nanoparticles (107 nm in diameter) were coated with a monoclonal anti-PSA antibody (intrinsic affinity, 6 x 10(9) L/mol). The nanoparticle-antibody bioconjugates had an average of 214 active binding sites per particle and a monovalent binding affinity of 7 x 10(10) L/mol. The assay was performed in a low-fluorescence microtitration well passively coated with an another monoclonal anti-PSA antibody (affinity, 2 x 10(10) L/mol), and the europium(III) fluorescence was measured directly from the bottom of the well by a standard time-resolved microtitration plate fluorometer. RESULTS: The detection limit (mean + 2 SD) was 0.040 ng/L (7.3 x 10(5) molecules/mL), and the dynamic detection range covered four orders of magnitude in a 3-h total assay time. The imprecision (CV) over the whole assay range was 2-10%. The detection limit of the assay was limited by the fractional nonspecific binding of the bioconjugate to the solid phase (0.05%), which was higher than the nonspecific binding of the original antibody (<0.01%). CONCLUSIONS: The sensitivity of the new assay is equal to that of the ambient-analyte, microspot immunoassay and will be improved by use of optimized, high binding-site density nanoparticle-antibody bioconjugates with reduced nonspecific binding and improved monovalent binding affinity.
BACKGROUND: The extreme specific activity of the long-lifetime fluorescent europium(III) chelate nanoparticles and the enhanced monovalent binding affinity of multivalent nanoparticle-antibody bioconjugates are attractive for noncompetitive immunoassay. METHODS: We used a noncompetitive, two-step immunoassay design to measure free prostate-specific antigen (PSA). Europium(III) chelate nanoparticles (107 nm in diameter) were coated with a monoclonal anti-PSA antibody (intrinsic affinity, 6 x 10(9) L/mol). The nanoparticle-antibody bioconjugates had an average of 214 active binding sites per particle and a monovalent binding affinity of 7 x 10(10) L/mol. The assay was performed in a low-fluorescence microtitration well passively coated with an another monoclonal anti-PSA antibody (affinity, 2 x 10(10) L/mol), and the europium(III) fluorescence was measured directly from the bottom of the well by a standard time-resolved microtitration plate fluorometer. RESULTS: The detection limit (mean + 2 SD) was 0.040 ng/L (7.3 x 10(5) molecules/mL), and the dynamic detection range covered four orders of magnitude in a 3-h total assay time. The imprecision (CV) over the whole assay range was 2-10%. The detection limit of the assay was limited by the fractional nonspecific binding of the bioconjugate to the solid phase (0.05%), which was higher than the nonspecific binding of the original antibody (<0.01%). CONCLUSIONS: The sensitivity of the new assay is equal to that of the ambient-analyte, microspot immunoassay and will be improved by use of optimized, high binding-site density nanoparticle-antibody bioconjugates with reduced nonspecific binding and improved monovalent binding affinity.
Authors: Oscar R Miranda; Hung-Ting Chen; Chang-Cheng You; David E Mortenson; Xiao-Chao Yang; Uwe H F Bunz; Vincent M Rotello Journal: J Am Chem Soc Date: 2010-04-14 Impact factor: 15.419
Authors: Shixing Tang; Mahtab Moayeri; Zhaochun Chen; Harri Harma; Jiangqin Zhao; Haijing Hu; Robert H Purcell; Stephen H Leppla; Indira K Hewlett Journal: Clin Vaccine Immunol Date: 2009-01-07
Authors: Avinash Bajaj; Oscar R Miranda; Ik-Bum Kim; Ronnie L Phillips; D Joseph Jerry; Uwe H F Bunz; Vincent M Rotello Journal: Proc Natl Acad Sci U S A Date: 2009-06-23 Impact factor: 11.205