BACKGROUND: Comparative transcriptomics between sorted cells identified AGR2 as one of the highest up-regulated genes in cancer. Overexpression in primary tumors was verified by tissue microarray analysis. AGR2 encodes a 19-kDa secreted protein that might be found in urine. METHODS: Monoclonal antibodies were generated against AGR2. One antibody pair, P1G4 (IgG1) to capture and P3A5 (IgG2a) to detect, showed good performance characteristics in a sandwich ELISA. This assay could detect AGR2 at sub ng/ml quantities. RESULTS: AGR2 was detected in tissue digestion media of tumor specimens and culture media of AGR2-secreting prostate cancer cell lines. Additional testings involved frozen section immunohistochemistry, immunoprecipitation, and Western blot analysis. Voided urine samples were collected from pre-operative cancer patients, and urinary protein was desalted and concentrated by filtration. The amount of AGR2 detected was scored as pg/100 µg total protein, and then converted to pg/ml urine. The developed ELISA detected AGR2 protein, ranging from 3.6 to 181 pg/ml, in an initial cohort of samples. AGR2 was not detected in the urine of non-cancer and a bladder cancer patient. CONCLUSIONS: For prostate cancer, an AGR2 urine test could be used for diagnosis. The data, although derived from a small number of samples assayed, showed that developing such a test for clinical application is viable because AGR2 is specific to cancer cells, and apparently secreted into urine.
BACKGROUND: Comparative transcriptomics between sorted cells identified AGR2 as one of the highest up-regulated genes in cancer. Overexpression in primary tumors was verified by tissue microarray analysis. AGR2 encodes a 19-kDa secreted protein that might be found in urine. METHODS: Monoclonal antibodies were generated against AGR2. One antibody pair, P1G4 (IgG1) to capture and P3A5 (IgG2a) to detect, showed good performance characteristics in a sandwich ELISA. This assay could detect AGR2 at sub ng/ml quantities. RESULTS:AGR2 was detected in tissue digestion media of tumor specimens and culture media of AGR2-secreting prostate cancer cell lines. Additional testings involved frozen section immunohistochemistry, immunoprecipitation, and Western blot analysis. Voided urine samples were collected from pre-operative cancerpatients, and urinary protein was desalted and concentrated by filtration. The amount of AGR2 detected was scored as pg/100 µg total protein, and then converted to pg/ml urine. The developed ELISA detected AGR2 protein, ranging from 3.6 to 181 pg/ml, in an initial cohort of samples. AGR2 was not detected in the urine of non-cancer and a bladder cancerpatient. CONCLUSIONS: For prostate cancer, an AGR2 urine test could be used for diagnosis. The data, although derived from a small number of samples assayed, showed that developing such a test for clinical application is viable because AGR2 is specific to cancer cells, and apparently secreted into urine.
Authors: Tujin Shi; Yuqian Gao; Sue Ing Quek; Thomas L Fillmore; Carrie D Nicora; Dian Su; Rui Zhao; Jacob Kagan; Sudhir Srivastava; Karin D Rodland; Tao Liu; Richard D Smith; Daniel W Chan; David G Camp; Alvin Y Liu; Wei-Jun Qian Journal: J Proteome Res Date: 2013-12-03 Impact factor: 4.466
Authors: Sue-Ing Quek; Melissa E Ho; Michelle A Loprieno; William J Ellis; Nathan Elliott; Alvin Y Liu Journal: PLoS One Date: 2012-09-20 Impact factor: 3.240
Authors: Melissa E Ho; Sue-Ing Quek; Lawrence D True; Roland Seiler; Achim Fleischmann; Lora Bagryanova; Sara R Kim; David Chia; Lee Goodglick; Yoshiko Shimizu; Charles J Rosser; Yuqian Gao; Alvin Y Liu Journal: Oncotarget Date: 2016-03-29
Authors: Tujin Shi; Sue-Ing Quek; Yuqian Gao; Carrie D Nicora; Song Nie; Thomas L Fillmore; Tao Liu; Karin D Rodland; Richard D Smith; Robin J Leach; Ian M Thompson; Elizabeth A Vitello; William J Ellis; Alvin Y Liu; Wei-Jun Qian Journal: Oncotarget Date: 2017-10-09
Authors: Melissa E Ho; Sue-Ing Quek; Lawrence D True; Colm Morrissey; Eva Corey; Robert L Vessella; Ruth Dumpit; Peter S Nelson; Erin L Maresh; Vei Mah; Mohammed Alavi; Sara R Kim; Lora Bagryanova; Steve Horvath; David Chia; Lee Goodglick; Alvin Y Liu Journal: Mod Pathol Date: 2013-01-25 Impact factor: 7.842
Authors: Mohammed Alavi; Vei Mah; Erin L Maresh; Lora Bagryanova; Steve Horvath; David Chia; Lee Goodglick; Alvin Y Liu Journal: BMC Cancer Date: 2015-10-06 Impact factor: 4.430