As shown in Figure 6, ?Delta Ct increased monotonically with the concentration of hCG; we estimated the limit of detection (LOD) at 25 pg/ml (signal higher than the no-hCG control plus 3 times the standard deviation of the no-hCG control; 660 fM; 100 l sample volume). (enzyme-linked immunosorbent assay) in which an analyte is captured on the surface of a microplate well by immobilized antibodies and recognized by an antibody conjugated to a signal-generating enzyme reporter. Various technical innovations AS-35 (e.g., miniaturization,2 single-molecule counting,3 microfluidics and automation,4 engineered reporters5,6 and substrates7) have improved the performance of immunoassays. Of particular note is immuno-PCR (iPCR; introduced by Sano et al. in 19928), which combines the versatility and specificity of antibody recognition in immunoassays with the exponential signal-amplifying power of PCR, promising a wide dynamic range and dramatically-enhanced sensitivity.9 Immuno-PCR uses an antibody conjugated to an amplifiable DNA reporter which can be detected very sensitively by PCR, but its great promise has been compromised by various technical difficulties.10 First, naked DNA molecules non-specifically bind to various surfaces11C13 and biomolecules,14C16 increasing iPCR background signal. Second, iPCR requires often-complicated preparation of specific DNA-antibody conjugates.9,17,18 To address these challenges, a variety of alternative biological or chemical nanostructures, including liposomes19 and bacteriophage virus nanoparticles20C22 have been explored in an effort to shield the DNA reporters and reduce nonspecific binding. We have previously explored M13 bacteriophage AS-35 as a reporter in iPCR. 20 Although the no-target background was greatly reduced, we found weak dependence of the signal on analyte concentration, likely due to steric interference of the large viral particles. Another drawback to using naturally-occurring DNA reporter sequences (e.g., M13 gDNA) in iPCR assays is their possible adventitious presence in biological samples. Inspired by an alternative immunoassay reporter with low nonspecific binding, a protein-DNA core-shell nanoparticle,23C26 in which avidin and polyethylene glycol (PEG) are used to condense and stabilize plasmid DNA, we incorporated multiple, designed, repetitive PCR templates into the plasmid DNA and enhanced the PCR detectability of these custom-designed nanoparticles (Figure 1). We also demonstrated the use of these custom-designed iPCR reporter nanoparticles in the detection of human chorionic gonadotropin (hCG), a glycoprotein hormone and a novel biomarker for pregnancy27 and testicular cancer.28 We were able to quantitate hCG as low as 660 fM using our iPCR reporter nanoparticles and standard laboratory equipment. Open in a separate window Figure 1. Schematic of the immuno-nanoparticle PCR assay. A) Assembly of DNA-avidin core-shell nanoparticles. DNA plasmids carrying the synthetic PCR template are sequentially assembled with avidin and biotin-polyethylene glycol (PEG). B) Workflow of immuno-nanoparticle PCR. Target protein molecules are captured by a capture antibody and detected with nanoparticles via a DTT-cleavable-biotin-linked detection antibody. The captured nanoparticles are disassembled by heat to expose the PCR template for PCR amplification (not to scale). EXPERIMENTAL Reagents Synthetic DNA was from Integrated DNA Technologies, Inc. (Coralville, Iowa). Avidin (434401), Pierce? premium grade Sulfo-NHS-SS-Biotin (PG82077), 4-hydroxyazobenzene-2-carboxylic acid (HABA, 28010), Zeba? spin desalting columns (40K MWCO, 0.5 mL, 87766), Dithiothreitol (DTT, R0861), and MediSorp clear flat-bottom immuno nonsterile 96-well plates, 400L, (467320) were purchased from ThermoFisher Scientific. Two-arm PEG-Biotin (10 kDa, PG2A-BN-10K) was from Nanocs (Boston, Massachusetts). Amicon ultra-0.5 centrifugal filter unit (100 kDa, UFC510096), bovine serum albumin (BSA, A7906), and human chorionic gonadotropin (hCG; CG10-1VL, using the conversion factor 9.28 IU/g from the 3rd International Standard) were from Millipore Sigma (Burlington, Massachusetts). Healthy human (male) serum was obtained from Gulf Coast Regional Blood Center, Houston, Texas 77054. Bovine serum albumin (IgG free, BSA-BAF-SMP) from Rocky Mountain Biologicals, Inc. (Missoula, Montana). Anti-hCG beta chain mAb, clone 2 (monoclonal, ABBCG-0402) and Goat anti-hCG alpha chain AS-35 (polyclonal, ABACG-0500) were from Arista Biologicals, Inc. (Allentown, Pennsylvania). Phosphate-buffered saline (PBS) tablets, pH 7.4 were from Takara Bio USA Inc. (Mountainview, CA). Tween? 20, Molecular Biology Grade (H5152) was from Promega (Madison, Wisconsin). Mx3000P optical strip tubes (401428), Mx3000P optical strip caps (401425), and Brilliant III ultra-fast SYBR QPCR master mix (600882) were from Agilent Technologies, Inc. (Santa Clara, California). A synthetic DNA template and primers were designed as previously reported.18 Briefly, the 79-bp synthetic template 5-TGCTGCGAGAGTATTATCTTGCACCTTATGCTACCGTGATTCATCCAGTCTCATCGTGAAACAGACGTACTACTACCTG-3 and the 20 nt primers were designed for both minimum similarity to any reported natural DNA sequence and optimal PCR conditions with high annealing temperature (60 C) Rabbit Polyclonal to MSH2 and short extension time (30 s). DNA primers were (Forward: 5-CAGGTAGTAGTACGTCTGTT-3, Reverse: 5-GTGCTGCGAGAGTATTATCT-3). QIAprep Spin Miniprep Kit (27106) was from Qiagen Inc (Germantown, Maryland). Construction of multi-template plasmid DNA Plasmids containing one to seven repeats of the specific 79-bp PCR target were constructed in pBC, a cloning plasmid with high copy number and chloramphenicol resistance for easy preparation and selection, as follows..