The application of monoclonal antibodies in cancer diagnosis

Cancer becomes the second leading cause of death in the world. An effective strategy for early diagnosis of the disease is key to reduce the mortality and morbidity. Development of effective monoclonal antibody (mAb)-based assays or diagnostic imaging techniques for detection of antigens and small molecules that are released from cancerous cells will enhance modern diagnostic medicine of cancer significantly. Although mAb technology is still under development, recent advances in preparation of recombinant antigen and antibody engineering techniques have dramatically enhanced the applications of this technology in cancer diagnosis. Compared with other methods, mAb-based assays may provide spatial, temporal, accurate and quantitative measurement for diagnosis of the disease. This review summarizes the progress of the mAb-based assays in the field of molecular diagnosis of cancer.

[1]  A. Partin,et al.  Antibody array profiling reveals serum TSP‐1 as a marker to distinguish benign from malignant prostatic disease , 2007, The Prostate.

[2]  Ruo-Pan Huang,et al.  Enhanced Protein Profiling Arrays with ELISA-Based Amplification for High-Throughput Molecular Changes of Tumor Patients’ Plasma , 2004, Clinical Cancer Research.

[3]  H. Saji,et al.  Miniaturized antibodies for imaging membrane type‐1 matrix metalloproteinase in cancers , 2013, Cancer science.

[4]  A. von Eckardstein,et al.  Antibody Phage Display Assisted Identification of Junction Plakoglobin as a Potential Biomarker for Atherosclerosis , 2012, PloS one.

[5]  R. Vermeulen,et al.  Early diagnostic protein biomarkers for breast cancer: how far have we come? , 2012, Breast Cancer Research and Treatment.

[6]  D. Hricik,et al.  Preferential Benefit of Antibody Induction Therapy in Kidney Recipients With High Pretransplant Frequencies of Donor-Reactive Interferon-γ Enzyme-Linked Immunosorbent Spots , 2008, Transplantation.

[7]  Yoshiki Narimatsu,et al.  CA‐S27: A novel Lewis a associated carbohydrate epitope is diagnostic and prognostic for cholangiocarcinoma , 2013, Cancer science.

[8]  H. Zola,et al.  Monoclonal Antibodies: Diagnostic Uses , 2013 .

[9]  Donald M Cropek,et al.  High affinity peptides for the recognition of the heart disease biomarker troponin I identified using phage display , 2009, Biotechnology and bioengineering.

[10]  G. Adams,et al.  Affinity and avidity in antibody-based tumor targeting. , 2009, Cancer biotherapy & radiopharmaceuticals.

[11]  Yingchun Zhao,et al.  Quantitative proteomics and biomarker discovery in human cancer , 2009, Expert review of proteomics.

[12]  M. Mann,et al.  Mass spectrometry–based proteomics turns quantitative , 2005, Nature chemical biology.

[13]  Metabolic syndrome biomarkers and early breast cancer in Saudi women: evidence for the presence of a systemic stress response and/or a pre-existing metabolic syndrome-related neoplasia risk? , 2013, BMC Cancer.

[14]  Susan M Varnum,et al.  A protein microarray ELISA for screening biological fluids. , 2004, Methods in molecular biology.

[15]  Kalle Levon,et al.  Development of a Biosensor for Detection of Pleural Mesothelioma Cancer Biomarker Using Surface Imprinting , 2013, PloS one.

[16]  Dean Brenner,et al.  Multiplexed analysis of glycan variation on native proteins captured by antibody microarrays , 2007, Nature Methods.

[17]  A. Magener,et al.  Immunoscintigraphy with positron emission tomography: gallium-68 chelate imaging of breast cancer pretargeted with bispecific anti-MUC1/anti-Ga chelate antibodies. , 2001, Cancer research.

[18]  Min Wang,et al.  Screening and evaluating the mimic peptides as a useful serum biomarker of ankylosing spondylitis using a phage display technique , 2011, Rheumatology International.

[19]  Pil Je Park,et al.  The multiplex bead array approach to identifying serum biomarkers associated with breast cancer , 2009, Breast Cancer Research.

[20]  Shaker A Mousa,et al.  Biosensors: the new wave in cancer diagnosis. , 2010, Nanotechnology, science and applications.

[21]  T. Bathen,et al.  Spermine and Citrate as Metabolic Biomarkers for Assessing Prostate Cancer Aggressiveness , 2013, PloS one.

[22]  Gesine Hansen,et al.  Comparative application of antibody and gene array for expression profiling in human squamous cell lung carcinoma. , 2005, Lung cancer.

[23]  Mukesh Verma,et al.  The promise of biomarkers in cancer screening and detection. , 2002, Trends in molecular medicine.

[24]  V. Go,et al.  Determination of protein synthesis in vivo using labeling from deuterated water and analysis of MALDI-TOF spectrum. , 2008, Journal of applied physiology.

[25]  M. Disis,et al.  ELISpot for measuring human immune responses to vaccines , 2011, Expert review of vaccines.

[26]  B. Ramakrishnan,et al.  Multiple site-specific in vitro labeling of single-chain antibody. , 2009, Bioconjugate chemistry.

[27]  D. Warshawsky,et al.  Molecular Carcinogenesis and the Molecular Biology of Human Cancer , 2007 .

[28]  Min Jung Lee,et al.  Human liver carboxylesterase 1 outperforms alpha‐fetoprotein as biomarker to discriminate hepatocellular carcinoma from other liver diseases in Korean patients , 2013, International journal of cancer.

[29]  C. Magi-Galluzzi,et al.  ERG protein expression in human tumors detected with a rabbit monoclonal antibody. , 2012, American journal of clinical pathology.

[30]  T. Matsuda,et al.  Plasma concentrations of VCAM‐1 and PAI‐1: A predictive biomarker for post‐operative recurrence in colorectal cancer , 2010, Cancer science.

[31]  A. Marchetti,et al.  p95HER2 Truncated Form in Resected Non-small Cell Lung Cancer , 2012, Journal of thoracic oncology : official publication of the International Association for the Study of Lung Cancer.

[32]  M. Kloor,et al.  Immune response against frameshift-induced neopeptides in HNPCC patients and healthy HNPCC mutation carriers. , 2008, Gastroenterology.

[33]  E. Kopf,et al.  Antibody arrays--an emerging tool in cancer proteomics. , 2007, The international journal of biochemistry & cell biology.

[34]  K. Wilson Cancer Biomarkers: Analytical Techniques for Discovery , 2007, The Yale Journal of Biology and Medicine.

[35]  Kanghua Li,et al.  Screening serum biomarker of knee osteoarthritis using a phage display technique. , 2012, Clinical biochemistry.

[36]  M. Sánchez-Carbayo,et al.  Identification of Tumor-associated Autoantigens for the Diagnosis of Colorectal Cancer in Serum Using High Density Protein Microarrays* , 2009, Molecular & Cellular Proteomics.

[37]  M. Mann,et al.  Stable Isotope Labeling by Amino Acids in Cell Culture, SILAC, as a Simple and Accurate Approach to Expression Proteomics* , 2002, Molecular & Cellular Proteomics.

[38]  R. Reilly,et al.  Imaging of HER2/neu-positive BT-474 human breast cancer xenografts in athymic mice using (111)In-trastuzumab (Herceptin) Fab fragments. , 2005, Nuclear medicine and biology.

[39]  Anna M Wu,et al.  Antibody vectors for imaging. , 2010, Seminars in nuclear medicine.

[40]  I. Gribbestad,et al.  Metabolic biomarkers for response to PI3K inhibition in basal-like breast cancer , 2013, Breast Cancer Research.

[41]  J. García,et al.  Functional and quantitative proteomics using SILAC in cancer research , 2008 .

[42]  Fazlul H. Sarkar,et al.  Clinical Advances in Molecular Biomarkers for Cancer Diagnosis and Therapy , 2013, International journal of molecular sciences.

[43]  C. Magro,et al.  Expression of soluble adenylyl cyclase in lentigo maligna: use of immunohistochemistry with anti-soluble adenylyl cyclase antibody (R21) in diagnosis of lentigo maligna and assessment of margins. , 2012, Archives of pathology & laboratory medicine.

[44]  Yutaka Kawakami,et al.  CCL2 is critical for immunosuppression to promote cancer metastasis , 2012, Clinical & Experimental Metastasis.

[45]  Guomin Wang,et al.  Development of simultaneous detection of total prostate‐specific antigen (tPSA) and free PSA with rapid bead‐based immunoassay , 2011, Journal of clinical laboratory analysis.

[46]  Hwee Tong Tan,et al.  Serum autoantibodies as biomarkers for early cancer detection , 2009, The FEBS journal.

[47]  A. Misra,et al.  Proteins: emerging carrier for delivery of cancer therapeutics , 2013, Expert opinion on drug delivery.

[48]  R. T. Altstock,et al.  Anti-Glycan Antibodies as Biomarkers for Diagnosis and Prognosis , 2006, Lupus.

[49]  Jinping Li,et al.  HE4 as a biomarker for ovarian and endometrial cancer management , 2009, Expert review of molecular diagnostics.

[50]  P. Schlag,et al.  Circulating MACC1 Transcripts in Colorectal Cancer Patient Plasma Predict Metastasis and Prognosis , 2012, PloS one.

[51]  E. Kubista,et al.  Use of High-Throughput Protein Array for Profiling of Differentially Expressed Proteins in Normal and Malignant Breast Tissue , 2004, Breast Cancer Research and Treatment.

[52]  Xiaoyuan Chen,et al.  Protein-based tumor molecular imaging probes , 2011, Amino Acids.

[53]  J. Marks,et al.  Development of a multimarker assay for early detection of ovarian cancer. , 2010, Journal of clinical oncology : official journal of the American Society of Clinical Oncology.

[54]  Vladimir Tolmachev,et al.  111In-benzyl-DTPA-ZHER2:342, an affibody-based conjugate for in vivo imaging of HER2 expression in malignant tumors. , 2006, Journal of nuclear medicine : official publication, Society of Nuclear Medicine.

[55]  Dansheng Song,et al.  Protein microarrays and quantum dot probes for early cancer detection. , 2007, Colloids and surfaces. B, Biointerfaces.

[56]  P. Hudson,et al.  Engineered antibody fragments and the rise of single domains , 2005, Nature Biotechnology.

[57]  Hannes Hahne,et al.  Bacterial production and functional characterization of the Fab fragment of the murine IgG1/lambda monoclonal antibody cmHsp70.1, a reagent for tumour diagnostics. , 2010, Protein engineering, design & selection : PEDS.

[58]  W. Cho,et al.  Contribution of oncoproteomics to cancer biomarker discovery , 2007, Molecular Cancer.

[59]  M. Su,et al.  MCM2 expression levels predict diagnosis and prognosis in gastric cardiac cancer. , 2013, Histology and histopathology.

[60]  M. Uhlén,et al.  Antibody suspension bead arrays within serum proteomics. , 2008, Journal of proteome research.

[61]  James C. Johnson,et al.  Detection and Quantification of Protein Biomarkers from Fewer than 10 Cells* , 2006, Molecular & Cellular Proteomics.

[62]  R. Corn,et al.  Detection of protein biomarkers using RNA aptamer microarrays and enzymatically amplified surface plasmon resonance imaging. , 2007, Analytical chemistry.

[63]  M. Sánchez-Carbayo Antibody array-based technologies for cancer protein profiling and functional proteomic analyses using serum and tissue specimens , 2010, Tumor Biology.

[64]  P. Massion,et al.  Early Detection of NSCLC with scFv Selected against IgM Autoantibody , 2013, PloS one.

[65]  Zhixian Gao,et al.  Simultaneous and combined detection of multiple tumor biomarkers for prostate cancer in human serum by suspension array technology. , 2013, Biosensors & bioelectronics.

[66]  Marta Sanchez-Carbayo,et al.  Antibody arrays: technical considerations and clinical applications in cancer. , 2006, Clinical chemistry.

[67]  D. Krag,et al.  Intravenous infusion of phage-displayed antibody library in human cancer patients: enrichment and cancer-specificity of tumor-homing phage-antibodies , 2013, Cancer Immunology, Immunotherapy.

[68]  Ryan Okon,et al.  Evaluating sandwich immunoassays in microarray format in terms of the ambient analyte regime. , 2004, Clinical chemistry.

[69]  Guo-Qiang Lo,et al.  Label-free biosensor based on an electrical tracing-assisted silicon microring resonator with a low-cost broadband source. , 2013, Biosensors & bioelectronics.

[70]  Y. Kitagawa,et al.  Molecular Diagnosis and Translymphatic Chemotherapy Targeting Sentinel Lymph Nodes of Patients with Early Gastrointestinal Cancers , 2010, Digestion.

[71]  S. Choo,et al.  Identification of Serum Monocyte Chemoattractant Protein-1 and Prolactin as Potential Tumor Markers in Hepatocellular Carcinoma , 2013, PloS one.

[72]  E. B. Butler,et al.  Antibody microarray profiling of human prostate cancer sera: Antibody screening and identification of potential biomarkers , 2003, Proteomics.

[73]  R. Recker,et al.  Quantitative proteomics: measuring protein synthesis using 15N amino acid labeling in pancreatic cancer cells. , 2009, Analytical chemistry.

[74]  E. Keeffe,et al.  Diagnosis of hepatocellular carcinoma: role of tumor markers and liver biopsy. , 2011, Clinics in liver disease.

[75]  Troels Z. Kristiansen,et al.  Biomarker Discovery from Pancreatic Cancer Secretome Using a Differential Proteomic Approach*S , 2006, Molecular & Cellular Proteomics.

[76]  C. Fan,et al.  A cancer protein microarray platform using antibody fragments and its clinical applications. , 2007, Molecular bioSystems.

[77]  C. Borrebaeck,et al.  High-throughput proteomics using antibody microarrays: an update , 2007, Expert review of molecular diagnostics.

[78]  Xiaohua Huang,et al.  Multiplexed protein analysis using encoded antibody-conjugated microbeads , 2011, Journal of The Royal Society Interface.

[79]  A. Hui,et al.  Potentially Novel Candidate Biomarkers for Head and Neck Squamous Cell Carcinoma Identified Using an Integrated Cell Line-based Discovery Strategy* , 2012, Molecular & Cellular Proteomics.

[80]  L. Hope-Stone,et al.  Tumour targeting of humanised cross-linked divalent-fab′ antibody fragments: a clinical phase I/II study , 2002, British Journal of Cancer.

[81]  Yajie Wang,et al.  Evaluation of a method for the simultaneous detection of multiple tumor markers using a multiplex suspension bead array. , 2012, Clinical biochemistry.

[82]  K. Anderson,et al.  Autoantibody profiles as biomarkers of breast cancer. , 2010, Cancer biomarkers : section A of Disease markers.

[83]  D. O'Shannessy,et al.  Expression of Folate Receptor-&agr; (FRA) in Gynecologic Malignancies and its Relationship to the Tumor Type , 2013, International journal of gynecological pathology : official journal of the International Society of Gynecological Pathologists.