Cancer biomarker detection in serum samples using surface plasmon resonance and quartz crystal microbalance sensors with nanoparticle signal amplification.

Early detection of cancer is vital for the successful treatment of the disease. Hence, a rapid and sensitive diagnosis is essential before the cancer is spread out to the other body organs. Here we describe the development of a point-of-care immunosensor for the detection of the cancer biomarker (total prostate-specific antigen, tPSA) using surface plasmon resonance (SPR) and quartz crystal microbalance (QCM) sensor platforms in human serum samples. K(D) of the antibody used toward PSA was calculated as 9.46 × 10(-10) M, indicating high affinity of the antibody used in developing the assay. By performing a sandwich assay using antibody-modified nanoparticles concentrations of 2.3 ng mL(-1) (Au, 20 nm) and 0.29 ng mL(-1) (8.5 pM) (Au, 40 nm) tPSA in 75% human serum were detected using the developed assay on an SPR sensor chip. The SPR sensor results were found to be comparable to that achieved using a QCM sensor platform, indicating that both systems can be applied for disease biomarkers screening. The clinical applicability of the developed immunoassay can therefore be successfully applied to patient's serum samples. This demonstrates the high potential of the developed sensor devices as platforms for clinical prostate cancer diagnosis and prognosis.

[1]  K. Yong,et al.  A Review on Functionalized Gold Nanoparticles for Biosensing Applications , 2011 .

[2]  I. Tothill,et al.  Development of a sensitive detection method of cancer biomarkers in human serum (75%) using a quartz crystal microbalance sensor and nanoparticles amplification system. , 2010, Talanta.

[3]  Tianming Yang,et al.  Surface Plasmon Coupling Effect of Gold Nanoparticles with Different Shape and Size on Conventional Surface Plasmon Resonance Signal , 2010 .

[4]  M. Fischer,et al.  Amine coupling through EDC/NHS: a practical approach. , 2010, Methods in molecular biology.

[5]  Jiri Homola,et al.  Surface plasmon resonance biosensing , 2009, CLEO/Europe - EQEC 2009 - European Conference on Lasers and Electro-Optics and the European Quantum Electronics Conference.

[6]  L M Lechuga,et al.  Determination of human growth hormone in human serum samples by surface plasmon resonance immunoassay. , 2009, Talanta.

[7]  Mark E. Cooper,et al.  Label-free biosensors : techniques and applications , 2009 .

[8]  Michael Thompson,et al.  Acoustic Wave-Based Detection in Bioanalytical Chemistry: Competition for Surface Plasmon Resonance? , 2008 .

[9]  Chen Situ,et al.  Reduction of severe bovine serum associated matrix effects on carboxymethylated dextran coated biosensor surfaces. , 2008, Talanta.

[10]  Yong-Hark Jang,et al.  Ultra-sensitive surface plasmon resonance based immunosensor for prostate-specific antigen using gold nanoparticle–antibody complex , 2008 .

[11]  J. Homola Surface plasmon resonance sensors for detection of chemical and biological species. , 2008, Chemical reviews.

[12]  S. Quake,et al.  High density single molecule surface patterning with colloidal epitaxy , 2007 .

[13]  Claude Granier,et al.  Antibody-antigenic peptide interactions monitored by SPR and QCM-D. A model for SPR detection of IA-2 autoantibodies in human serum. , 2007, Biosensors & bioelectronics.

[14]  Matthew A Cooper,et al.  A survey of the 2001 to 2005 quartz crystal microbalance biosensor literature: applications of acoustic physics to the analysis of biomolecular interactions , 2007, Journal of molecular recognition : JMR.

[15]  Sang Jun Sim,et al.  A strategy for sensitivity and specificity enhancements in prostate specific antigen-alpha1-antichymotrypsin detection based on surface plasmon resonance. , 2006, Biosensors & bioelectronics.

[16]  Mingde Zhu,et al.  Kinetic analysis of a high-affinity antibody/antigen interaction performed by multiple Biacore users. , 2006, Analytical biochemistry.

[17]  P. Katsamba,et al.  Analyzing a kinetic titration series using affinity biosensors. , 2006, Analytical biochemistry.

[18]  Jean-Michel Friedt,et al.  Prostate-specific antigen immunosensing based on mixed self-assembled monolayers, camel antibodies and colloidal gold enhanced sandwich assays. , 2005, Biosensors & bioelectronics.

[19]  P. Lange,et al.  PSA in the screening, staging and follow-up of early-stage prostate cancer , 1989, World Journal of Urology.

[20]  Björn Persson,et al.  Surface plasmon fluorescence immunoassay of free prostate-specific antigen in human plasma at the femtomolar level. , 2004, Analytical chemistry.

[21]  R. Kooyman,et al.  Signal amplification on planar and gel-type sensor surfaces in surface plasmon resonance-based detection of prostate-specific antigen. , 2004, Analytical biochemistry.

[22]  J. Kreier Infection, Resistance, and Immunity , 2022 .

[23]  Marcus Textor,et al.  A comparative study of protein adsorption on titanium oxide surfaces using in situ ellipsometry, optical waveguide lightmode spectroscopy, and quartz crystal microbalance/dissipation , 2002 .

[24]  J L West,et al.  Applications of nanotechnology to biotechnology commentary. , 2000, Current opinion in biotechnology.

[25]  I. Melezínek,et al.  The role of prostate specific antigen measurement in the detection and management of prostate cancer. , 2000, Endocrine-related cancer.

[26]  D G Myszka,et al.  Advances in surface plasmon resonance biosensor analysis. , 2000, Current opinion in biotechnology.

[27]  Michael J. Natan,et al.  SURFACE PLASMON RESONANCE OF AU COLLOID-MODIFIED AU FILMS : PARTICLE SIZE DEPENDENCE , 1999 .

[28]  Michael J. Natan,et al.  Surface plasmon resonance of colloidal Au-modified gold films , 1999 .

[29]  E. Diamandis,et al.  Prostate-specific Antigen: Its Usefulness in Clinical Medicine , 1998, Trends in Endocrinology & Metabolism.

[30]  K. Keiji Kanazawa,et al.  Mechanical behaviour of films on the quartz microbalance , 1997 .

[31]  R. Karlsson,et al.  Biospecific interaction analysis using surface plasmon resonance detection applied to kinetic, binding site and concentration analysis. , 1992, Journal of chromatography.

[32]  H. Lilja,et al.  Seminal vesicle-secreted proteins and their reactions during gelation and liquefaction of human semen. , 1987, The Journal of clinical investigation.

[33]  G. Findlay,et al.  Resistance and immunity , 1938 .