Gaussia Luciferase as a Genetic Fusion Partner with Antibody Fragments for Sensitive Immunoassay Monitoring of Clinical Biomarkers
In this study, we show the utility of Gaussia luciferase (GLuc), which is much smaller than previously found luciferases, as the fusion partner with artificial antibody species for developing sensitive immunoassay systems. As an example, we constructed a bioluminescent enzyme-linked immunosorbent as...
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| Published in | Analytical chemistry (Washington) Vol. 87; no. 24; pp. 12387 - 12395 |
|---|---|
| Main Authors | , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
United States
American Chemical Society
15.12.2015
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0003-2700 1520-6882 1520-6882 |
| DOI | 10.1021/acs.analchem.5b04015 |
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| Abstract | In this study, we show the utility of Gaussia luciferase (GLuc), which is much smaller than previously found luciferases, as the fusion partner with artificial antibody species for developing sensitive immunoassay systems. As an example, we constructed a bioluminescent enzyme-linked immunosorbent assay (BL-ELISA) system determining the major glucocorticoid cortisol. A monoclonal antibody was newly elicited against a cortisol–albumin conjugate, and the genes encoding its variable domains (VH and VL) were cloned and combined to encode a single-chain Fv fragment (scFv). scFv was then linked to the wild-type GLuc gene or that encoding GLuc mutants reported to show improved emission kinetics and expressed in the periplasmic space of several Escherichia coli strains. Notably, the wild-type GLuc fusion protein (scFv-wtGLuc) showed the most suitable luminescent properties for BL-ELISAs. In our system, scFv-wtGLuc was reacted competitively with the analyte and immobilized cortisol moieties, and the bound GLuc activity was monitored with coelenterazine as the substrate. Successful batch-type luminescence detection was achieved using a plate reader without built-in injectors. The midpoint and limit of detection in a typical dose–response curve were 4.1 and 0.26 pg/assay, respectively, thus exhibiting much more sensitivity than conventional cortisol immunoassays. Serum cortisol levels (as the sum with cortisone) for healthy subjects, determined without any pretreatment, were compatible with reported reference ranges. The scFv-wtGLuc probe was stable over a year under storage as periplasmic extracts at −30 °C or with repeated freeze–thawing. These results suggest that GLuc fusions with antibody fragments might serve as useful and highly sensitive immunoassay probes in various clinical settings. |
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| AbstractList | In this study, we show the utility of Gaussia luciferase (GLuc), which is much smaller than previously found luciferases, as the fusion partner with artificial antibody species for developing sensitive immunoassay systems. As an example, we constructed a bioluminescent enzyme-linked immunosorbent assay (BL-ELISA) system determining the major glucocorticoid cortisol. A monoclonal antibody was newly elicited against a cortisol–albumin conjugate, and the genes encoding its variable domains (VH and VL) were cloned and combined to encode a single-chain Fv fragment (scFv). scFv was then linked to the wild-type GLuc gene or that encoding GLuc mutants reported to show improved emission kinetics and expressed in the periplasmic space of several Escherichia coli strains. Notably, the wild-type GLuc fusion protein (scFv-wtGLuc) showed the most suitable luminescent properties for BL-ELISAs. In our system, scFv-wtGLuc was reacted competitively with the analyte and immobilized cortisol moieties, and the bound GLuc activity was monitored with coelenterazine as the substrate. Successful batch-type luminescence detection was achieved using a plate reader without built-in injectors. The midpoint and limit of detection in a typical dose–response curve were 4.1 and 0.26 pg/assay, respectively, thus exhibiting much more sensitivity than conventional cortisol immunoassays. Serum cortisol levels (as the sum with cortisone) for healthy subjects, determined without any pretreatment, were compatible with reported reference ranges. The scFv-wtGLuc probe was stable over a year under storage as periplasmic extracts at −30 °C or with repeated freeze–thawing. These results suggest that GLuc fusions with antibody fragments might serve as useful and highly sensitive immunoassay probes in various clinical settings. In this study, we show the utility of Gaussia luciferase (GLuc), which is much smaller than previously found luciferases, as the fusion partner with artificial antibody species for developing sensitive immunoassay systems. As an example, we constructed a bioluminescent enzyme-linked immunosorbent assay (BL-ELISA) system determining the major glucocorticoid cortisol. A monoclonal antibody was newly elicited against a cortisol-albumin conjugate, and the genes encoding its variable domains (VH and VL) were cloned and combined to encode a single-chain Fv fragment (scFv). scFv was then linked to the wild-type GLuc gene or that encoding GLuc mutants reported to show improved emission kinetics and expressed in the periplasmic space of several Escherichia coli strains. Notably, the wild-type GLuc fusion protein (scFv-wtGLuc) showed the most suitable luminescent properties for BL-ELISAs. In our system, scFv-wtGLuc was reacted competitively with the analyte and immobilized cortisol moieties, and the bound GLuc activity was monitored with coelenterazine as the substrate. Successful batch-type luminescence detection was achieved using a plate reader without built-in injectors. The midpoint and limit of detection in a typical dose-response curve were 4.1 and 0.26 pg/assay, respectively, thus exhibiting much more sensitivity than conventional cortisol immunoassays. Serum cortisol levels (as the sum with cortisone) for healthy subjects, determined without any pretreatment, were compatible with reported reference ranges. The scFv-wtGLuc probe was stable over a year under storage as periplasmic extracts at -30 degree C or with repeated freeze-thawing. These results suggest that GLuc fusions with antibody fragments might serve as useful and highly sensitive immunoassay probes in various clinical settings. In this study, we show the utility of Gaussia luciferase (GLuc), which is much smaller than previously found luciferases, as the fusion partner with artificial antibody species for developing sensitive immunoassay systems. As an example, we constructed a bioluminescent enzyme-linked immunosorbent assay (BL-ELISA) system determining the major glucocorticoid cortisol. A monoclonal antibody was newly elicited against a cortisol-albumin conjugate, and the genes encoding its variable domains (V... and V...) were cloned and combined to encode a single-chain Fv fragment (scFv). scFv was then linked to the wild-type GLuc gene or that encoding GLuc mutants reported to show improved emission kinetics and expressed in the periplasmic space of several Escherichia coli strains. Notably, the wild-type GLuc fusion protein (scFv-wtGLuc) showed the most suitable luminescent properties for BL-ELISAs. In our system, scFv-wtGLuc was reacted competitively with the analyte and immobilized cortisol moieties, and the bound GLuc activity was monitored with coelenterazine as the substrate. Successful batch-type luminescence detection was achieved using a plate reader without built-in injectors. The midpoint and limit of detection in a typical dose-response curve were 4.1 and 0.26 pg/assay, respectively, thus exhibiting much more sensitivity than conventional cortisol immunoassays. Serum cortisol levels (as the sum with cortisone) for healthy subjects, determined without any pretreatment, were compatible with reported reference ranges. The scFv-wtGLuc probe was stable over a year under storage as periplasmic extracts at -30 ...C or with repeated freeze-thawing. These results suggest that GLuc fusions with antibody fragments might serve as useful and highly sensitive immunoassay probes in various clinical settings. (ProQuest: ... denotes formulae/symbols omitted.) In this study, we show the utility of Gaussia luciferase (GLuc), which is much smaller than previously found luciferases, as the fusion partner with artificial antibody species for developing sensitive immunoassay systems. As an example, we constructed a bioluminescent enzyme-linked immunosorbent assay (BL-ELISA) system determining the major glucocorticoid cortisol. A monoclonal antibody was newly elicited against a cortisol-albumin conjugate, and the genes encoding its variable domains (VH and VL) were cloned and combined to encode a single-chain Fv fragment (scFv). scFv was then linked to the wild-type GLuc gene or that encoding GLuc mutants reported to show improved emission kinetics and expressed in the periplasmic space of several Escherichia coli strains. Notably, the wild-type GLuc fusion protein (scFv-wtGLuc) showed the most suitable luminescent properties for BL-ELISAs. In our system, scFv-wtGLuc was reacted competitively with the analyte and immobilized cortisol moieties, and the bound GLuc activity was monitored with coelenterazine as the substrate. Successful batch-type luminescence detection was achieved using a plate reader without built-in injectors. The midpoint and limit of detection in a typical dose-response curve were 4.1 and 0.26 pg/assay, respectively, thus exhibiting much more sensitivity than conventional cortisol immunoassays. Serum cortisol levels (as the sum with cortisone) for healthy subjects, determined without any pretreatment, were compatible with reported reference ranges. The scFv-wtGLuc probe was stable over a year under storage as periplasmic extracts at -30 °C or with repeated freeze-thawing. These results suggest that GLuc fusions with antibody fragments might serve as useful and highly sensitive immunoassay probes in various clinical settings.In this study, we show the utility of Gaussia luciferase (GLuc), which is much smaller than previously found luciferases, as the fusion partner with artificial antibody species for developing sensitive immunoassay systems. As an example, we constructed a bioluminescent enzyme-linked immunosorbent assay (BL-ELISA) system determining the major glucocorticoid cortisol. A monoclonal antibody was newly elicited against a cortisol-albumin conjugate, and the genes encoding its variable domains (VH and VL) were cloned and combined to encode a single-chain Fv fragment (scFv). scFv was then linked to the wild-type GLuc gene or that encoding GLuc mutants reported to show improved emission kinetics and expressed in the periplasmic space of several Escherichia coli strains. Notably, the wild-type GLuc fusion protein (scFv-wtGLuc) showed the most suitable luminescent properties for BL-ELISAs. In our system, scFv-wtGLuc was reacted competitively with the analyte and immobilized cortisol moieties, and the bound GLuc activity was monitored with coelenterazine as the substrate. Successful batch-type luminescence detection was achieved using a plate reader without built-in injectors. The midpoint and limit of detection in a typical dose-response curve were 4.1 and 0.26 pg/assay, respectively, thus exhibiting much more sensitivity than conventional cortisol immunoassays. Serum cortisol levels (as the sum with cortisone) for healthy subjects, determined without any pretreatment, were compatible with reported reference ranges. The scFv-wtGLuc probe was stable over a year under storage as periplasmic extracts at -30 °C or with repeated freeze-thawing. These results suggest that GLuc fusions with antibody fragments might serve as useful and highly sensitive immunoassay probes in various clinical settings. In this study, we show the utility of Gaussia luciferase (GLuc), which is much smaller than previously found luciferases, as the fusion partner with artificial antibody species for developing sensitive immunoassay systems. As an example, we constructed a bioluminescent enzyme-linked immunosorbent assay (BL-ELISA) system determining the major glucocorticoid cortisol. A monoclonal antibody was newly elicited against a cortisol-albumin conjugate, and the genes encoding its variable domains (VH and VL) were cloned and combined to encode a single-chain Fv fragment (scFv). scFv was then linked to the wild-type GLuc gene or that encoding GLuc mutants reported to show improved emission kinetics and expressed in the periplasmic space of several Escherichia coli strains. Notably, the wild-type GLuc fusion protein (scFv-wtGLuc) showed the most suitable luminescent properties for BL-ELISAs. In our system, scFv-wtGLuc was reacted competitively with the analyte and immobilized cortisol moieties, and the bound GLuc activity was monitored with coelenterazine as the substrate. Successful batch-type luminescence detection was achieved using a plate reader without built-in injectors. The midpoint and limit of detection in a typical dose-response curve were 4.1 and 0.26 pg/assay, respectively, thus exhibiting much more sensitivity than conventional cortisol immunoassays. Serum cortisol levels (as the sum with cortisone) for healthy subjects, determined without any pretreatment, were compatible with reported reference ranges. The scFv-wtGLuc probe was stable over a year under storage as periplasmic extracts at -30 °C or with repeated freeze-thawing. These results suggest that GLuc fusions with antibody fragments might serve as useful and highly sensitive immunoassay probes in various clinical settings. |
| Author | Morita, Izumi Kiguchi, Yuki Niwa, Toshifumi Akisada, Tatsuki Kobayashi, Norihiro Moriuchi, Ayaka Oyama, Hiroyuki Miyake, Sayaka |
| AuthorAffiliation | Kobe Pharmaceutical University Tohoku University Department of Medical Technology, School of Health Sciences |
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| Author_xml | – sequence: 1 givenname: Hiroyuki surname: Oyama fullname: Oyama, Hiroyuki – sequence: 2 givenname: Izumi surname: Morita fullname: Morita, Izumi – sequence: 3 givenname: Yuki surname: Kiguchi fullname: Kiguchi, Yuki – sequence: 4 givenname: Sayaka surname: Miyake fullname: Miyake, Sayaka – sequence: 5 givenname: Ayaka surname: Moriuchi fullname: Moriuchi, Ayaka – sequence: 6 givenname: Tatsuki surname: Akisada fullname: Akisada, Tatsuki – sequence: 7 givenname: Toshifumi surname: Niwa fullname: Niwa, Toshifumi – sequence: 8 givenname: Norihiro surname: Kobayashi fullname: Kobayashi, Norihiro email: no-kobay@kobepharma-u.ac.jp |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/26625180$$D View this record in MEDLINE/PubMed |
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| Copyright | Copyright © 2015 American Chemical Society Copyright American Chemical Society Dec 15, 2015 |
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| Snippet | In this study, we show the utility of Gaussia luciferase (GLuc), which is much smaller than previously found luciferases, as the fusion partner with artificial... |
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| SubjectTerms | Animals Antibodies Antibodies, Monoclonal - genetics Antibodies, Monoclonal - immunology Assaying bioluminescence Biomarkers Biomarkers - analysis blood serum cortisol cortisone detection limit dose response E coli Encoding enzyme-linked immunosorbent assay Enzyme-Linked Immunosorbent Assay - methods Escherichia coli Female Fragments Gaussia Genes Hydrocortisone - analysis Immunoassay Immunoassays Immunoglobulin Variable Region - genetics Immunoglobulin Variable Region - immunology injectors luciferase Luciferases - analysis Luciferases - genetics Luciferases - metabolism Luminescence Luminescent Measurements Mice Mice, Inbred BALB C Molecular Structure monitoring Monoclonal antibodies mutants Readers Recombinant Fusion Proteins - genetics Recombinant Fusion Proteins - immunology Recombinant Fusion Proteins - metabolism Thawing |
| Title | Gaussia Luciferase as a Genetic Fusion Partner with Antibody Fragments for Sensitive Immunoassay Monitoring of Clinical Biomarkers |
| URI | http://dx.doi.org/10.1021/acs.analchem.5b04015 https://www.ncbi.nlm.nih.gov/pubmed/26625180 https://www.proquest.com/docview/1752556696 https://www.proquest.com/docview/1749609764 https://www.proquest.com/docview/1793245344 https://www.proquest.com/docview/1859490329 https://www.proquest.com/docview/2000251336 |
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