Your search keyword '"Jimenez, Tania"' showing total 18 results

1. Ultra-Sensitive and Specific Detection of S. aureus Bacterial Cultures Using an Oligonucleotide Probe Integrated in a Lateral Flow-Based Device

Author

Machado, Isabel, Goikoetxea, Garazi, Alday, Enara, Jimenez, Tania, Arias-Moreno, Xabier, Hernandez, Frank, Hernandez, Luiza I, Machado, Isabel, Goikoetxea, Garazi, Alday, Enara, Jimenez, Tania, Arias-Moreno, Xabier, Hernandez, Frank, and Hernandez, Luiza I

Abstract

The identification of pathogens causing infectious diseases is still based on laborious and time-consuming techniques. Therefore, there is an urgent need for the development of novel methods and devices that can considerably reduce detection times, allowing the health professionals to administer the right treatment at the right time. Lateral flow-based systems provide fast, cheap and easy to use alternatives for diagnosis. Herein, we report on a lateral flow approach for specifically detecting S. aureus bacteria within 6 h., Funding Agencies|European Unions Horizon 2020 research and innovation program under CoronaQuick project [961916]; Ministry of Economy, Industry and Competitiveness [PTQ-17-09382]

Published

2021

2. Rational Design and Experimental Analysis of Short-Oligonucleotide Substrate Specificity for Targeting Bacterial Nucleases

Author

Jimenez, Tania, Botero, Juliana, Otaegui, Dorleta, Calvo, Javier, Hernandez, Frank, San Sebastian, Eider, Jimenez, Tania, Botero, Juliana, Otaegui, Dorleta, Calvo, Javier, Hernandez, Frank, and San Sebastian, Eider

Abstract

An undecamer oligonucleotide probe based on a pair of deoxythymidines flanked by several modified nucleotides is a specific and highly efficient biosensor for micrococcal nuclease (MNase), an endonuclease produced by Staphylococcus aureus. Herein, the interaction mode and cleavage process on such oligonucleotide probes are identified and described for the first time. Also, we designed truncated pentamer probes as the minimum-length substrates required for specific and efficient biosensing. By means of computational (virtual docking) and experimental (ultra-performance liquid chromatography-mass spectrometry and matrix-assisted laser desorption ionization time-of-flight) techniques, we perform a sequence/structure-activity relationship analysis, propose a catalytically active substrate-enzyme complex, and elucidate a novel two-step phosphodiester bond hydrolysis mechanism, identifying the cleavage sites and detecting and quantifying the resulting probe fragments. Our results unravel a picture of both the enzyme-biosensor complex and a two-step cleavage/biosensing mechanism, key to the rational oligonucleotide design process., Funding Agencies|Wallenberg Centre for Molecular Medicine (WCMM) Linkoping, Sweden; Swedish Government Strategic Research Area in Materials Science on Advanced Functional Materials at Linkoping University (Faculty grant SFO-Mat-LiU) [2009-00971]; Maria de Maeztu Units of Excellence Program from the Spanish State Research Agency [MDM-2017-0720]; industrial doctorate program (MINECO) [DI-16-08891]; program Torres Quevedo (MINECO) [PTQ-17-09382]

Published

2021

3. Discovery and Proof-of-Concept Study of Nuclease Activity as a Novel Biomarker for Breast Cancer Tumors

Author

Hernandez, Luiza I., Arauzo-Bravo, Marcos J., Gerovska, Daniela, Solaun, Ricardo Rezola, Machado, Isabel, Balian, Alien, Botero, Juliana, Jimenez, Tania, Zuriarrain Bergara, Olaia, Larburu Gurruchaga, Lide, Urruticoechea, Ander, Hernandez, Frank, Hernandez, Luiza I., Arauzo-Bravo, Marcos J., Gerovska, Daniela, Solaun, Ricardo Rezola, Machado, Isabel, Balian, Alien, Botero, Juliana, Jimenez, Tania, Zuriarrain Bergara, Olaia, Larburu Gurruchaga, Lide, Urruticoechea, Ander, and Hernandez, Frank

Abstract

Simple Summary A diagnostic biomarker for the detection of breast cancer remains an unmet clinical need despite decades of intensive research efforts. Herein, we describe, for the first time, the use of nuclease activity as a biomarker to discriminate between healthy and cancer biopsy samples. We have identified a panel of three nucleic acid probes able to target nucleases derived from breast cancer tumors with high sensitivity and specificity. These results are in good agreement with histopathological analysis as the diagnostic gold standard. Moreover, these findings support nuclease activity as a potential adjacent diagnostic tool and shed light on the use of nuclease activity as a detection biomarker in breast cancer. Breast cancer is one of the most common pathologies diagnosed in the clinical practice. Despite major advancements in diagnostic approaches, there is no widely accepted biomarker in the clinical practice that can diagnose breast malignancy. Confirmatory diagnosis still relies on the pathological assessment of tissue biopsies by expert pathologists. Thus, there is an unmet need for new types of biomarkers and novel platform technologies that can be easily and robustly integrated into the clinic and that can assist pathologists. Herein, we show that nuclease activity associated to malignant tumors can be used as a novel biomarker in breast cancer, which can be detected via specific degradation of nucleic acid probes. In this study we have identified a set of three chemically modified nucleic acid probes that can diagnose malignancy in biopsy samples with high accuracy (89%), sensitivity (82%) and specificity (94%). This work represents a breakthrough for the potential clinical use of nuclease activity as biomarker, which can be detected via nucleic acids probes, for the clinical diagnosis of malignancy in breast tissue biopsies. This platform technology could be readily implemented into the clinic as adjunct to histopathological diagnostic., Funding Agencies|Wallenberg Centre for Molecular Medicine (WCMM) Linkoping, Sweden; Swedish Government Strategic Research Area in Materials Science on Advanced Functional Materials at Linkoping University (Faculty Grant SFO-Mat-LiU) [2009-00971]; program Torres Quevedo (MINECO); industrial doctorate program (MINECO)

Published

2021

4. Ultra-Sensitive and Specific Detection of S. aureus Bacterial Cultures Using an Oligonucleotide Probe Integrated in a Lateral Flow-Based Device

Author

Machado, Isabel, Goikoetxea, Garazi, Alday, Enara, Jimenez, Tania, Arias-Moreno, Xabier, Hernandez, Frank, Hernandez, Luiza I, Machado, Isabel, Goikoetxea, Garazi, Alday, Enara, Jimenez, Tania, Arias-Moreno, Xabier, Hernandez, Frank, and Hernandez, Luiza I

Abstract

The identification of pathogens causing infectious diseases is still based on laborious and time-consuming techniques. Therefore, there is an urgent need for the development of novel methods and devices that can considerably reduce detection times, allowing the health professionals to administer the right treatment at the right time. Lateral flow-based systems provide fast, cheap and easy to use alternatives for diagnosis. Herein, we report on a lateral flow approach for specifically detecting S. aureus bacteria within 6 h., Funding Agencies|European Unions Horizon 2020 research and innovation program under CoronaQuick project [961916]; Ministry of Economy, Industry and Competitiveness [PTQ-17-09382]

Published

2021

5. Ultra-Sensitive and Specific Detection of S. aureus Bacterial Cultures Using an Oligonucleotide Probe Integrated in a Lateral Flow-Based Device

Author

Machado, Isabel, Goikoetxea, Garazi, Alday, Enara, Jimenez, Tania, Arias-Moreno, Xabier, Hernandez, Frank, Hernandez, Luiza I, Machado, Isabel, Goikoetxea, Garazi, Alday, Enara, Jimenez, Tania, Arias-Moreno, Xabier, Hernandez, Frank, and Hernandez, Luiza I

Abstract

The identification of pathogens causing infectious diseases is still based on laborious and time-consuming techniques. Therefore, there is an urgent need for the development of novel methods and devices that can considerably reduce detection times, allowing the health professionals to administer the right treatment at the right time. Lateral flow-based systems provide fast, cheap and easy to use alternatives for diagnosis. Herein, we report on a lateral flow approach for specifically detecting S. aureus bacteria within 6 h., Funding Agencies|European Unions Horizon 2020 research and innovation program under CoronaQuick project [961916]; Ministry of Economy, Industry and Competitiveness [PTQ-17-09382]

Published

2021

6. Rational Design and Experimental Analysis of Short-Oligonucleotide Substrate Specificity for Targeting Bacterial Nucleases

Author

Jimenez, Tania, Botero, Juliana, Otaegui, Dorleta, Calvo, Javier, Hernandez, Frank, San Sebastian, Eider, Jimenez, Tania, Botero, Juliana, Otaegui, Dorleta, Calvo, Javier, Hernandez, Frank, and San Sebastian, Eider

Abstract

An undecamer oligonucleotide probe based on a pair of deoxythymidines flanked by several modified nucleotides is a specific and highly efficient biosensor for micrococcal nuclease (MNase), an endonuclease produced by Staphylococcus aureus. Herein, the interaction mode and cleavage process on such oligonucleotide probes are identified and described for the first time. Also, we designed truncated pentamer probes as the minimum-length substrates required for specific and efficient biosensing. By means of computational (virtual docking) and experimental (ultra-performance liquid chromatography-mass spectrometry and matrix-assisted laser desorption ionization time-of-flight) techniques, we perform a sequence/structure-activity relationship analysis, propose a catalytically active substrate-enzyme complex, and elucidate a novel two-step phosphodiester bond hydrolysis mechanism, identifying the cleavage sites and detecting and quantifying the resulting probe fragments. Our results unravel a picture of both the enzyme-biosensor complex and a two-step cleavage/biosensing mechanism, key to the rational oligonucleotide design process., Funding Agencies|Wallenberg Centre for Molecular Medicine (WCMM) Linkoping, Sweden; Swedish Government Strategic Research Area in Materials Science on Advanced Functional Materials at Linkoping University (Faculty grant SFO-Mat-LiU) [2009-00971]; Maria de Maeztu Units of Excellence Program from the Spanish State Research Agency [MDM-2017-0720]; industrial doctorate program (MINECO) [DI-16-08891]; program Torres Quevedo (MINECO) [PTQ-17-09382]

Published

2021

7. Rational Design and Experimental Analysis of Short-Oligonucleotide Substrate Specificity for Targeting Bacterial Nucleases

Author

Jimenez, Tania, Botero, Juliana, Otaegui, Dorleta, Calvo, Javier, Hernandez, Frank, San Sebastian, Eider, Jimenez, Tania, Botero, Juliana, Otaegui, Dorleta, Calvo, Javier, Hernandez, Frank, and San Sebastian, Eider

Abstract

An undecamer oligonucleotide probe based on a pair of deoxythymidines flanked by several modified nucleotides is a specific and highly efficient biosensor for micrococcal nuclease (MNase), an endonuclease produced by Staphylococcus aureus. Herein, the interaction mode and cleavage process on such oligonucleotide probes are identified and described for the first time. Also, we designed truncated pentamer probes as the minimum-length substrates required for specific and efficient biosensing. By means of computational (virtual docking) and experimental (ultra-performance liquid chromatography-mass spectrometry and matrix-assisted laser desorption ionization time-of-flight) techniques, we perform a sequence/structure-activity relationship analysis, propose a catalytically active substrate-enzyme complex, and elucidate a novel two-step phosphodiester bond hydrolysis mechanism, identifying the cleavage sites and detecting and quantifying the resulting probe fragments. Our results unravel a picture of both the enzyme-biosensor complex and a two-step cleavage/biosensing mechanism, key to the rational oligonucleotide design process., Funding Agencies|Wallenberg Centre for Molecular Medicine (WCMM) Linkoping, Sweden; Swedish Government Strategic Research Area in Materials Science on Advanced Functional Materials at Linkoping University (Faculty grant SFO-Mat-LiU) [2009-00971]; Maria de Maeztu Units of Excellence Program from the Spanish State Research Agency [MDM-2017-0720]; industrial doctorate program (MINECO) [DI-16-08891]; program Torres Quevedo (MINECO) [PTQ-17-09382]

Published

2021

8. Discovery and Proof-of-Concept Study of Nuclease Activity as a Novel Biomarker for Breast Cancer Tumors

Author

Hernandez, Luiza I., Arauzo-Bravo, Marcos J., Gerovska, Daniela, Solaun, Ricardo Rezola, Machado, Isabel, Balian, Alien, Botero, Juliana, Jimenez, Tania, Zuriarrain Bergara, Olaia, Larburu Gurruchaga, Lide, Urruticoechea, Ander, Hernandez, Frank, Hernandez, Luiza I., Arauzo-Bravo, Marcos J., Gerovska, Daniela, Solaun, Ricardo Rezola, Machado, Isabel, Balian, Alien, Botero, Juliana, Jimenez, Tania, Zuriarrain Bergara, Olaia, Larburu Gurruchaga, Lide, Urruticoechea, Ander, and Hernandez, Frank

Abstract

Simple Summary A diagnostic biomarker for the detection of breast cancer remains an unmet clinical need despite decades of intensive research efforts. Herein, we describe, for the first time, the use of nuclease activity as a biomarker to discriminate between healthy and cancer biopsy samples. We have identified a panel of three nucleic acid probes able to target nucleases derived from breast cancer tumors with high sensitivity and specificity. These results are in good agreement with histopathological analysis as the diagnostic gold standard. Moreover, these findings support nuclease activity as a potential adjacent diagnostic tool and shed light on the use of nuclease activity as a detection biomarker in breast cancer. Breast cancer is one of the most common pathologies diagnosed in the clinical practice. Despite major advancements in diagnostic approaches, there is no widely accepted biomarker in the clinical practice that can diagnose breast malignancy. Confirmatory diagnosis still relies on the pathological assessment of tissue biopsies by expert pathologists. Thus, there is an unmet need for new types of biomarkers and novel platform technologies that can be easily and robustly integrated into the clinic and that can assist pathologists. Herein, we show that nuclease activity associated to malignant tumors can be used as a novel biomarker in breast cancer, which can be detected via specific degradation of nucleic acid probes. In this study we have identified a set of three chemically modified nucleic acid probes that can diagnose malignancy in biopsy samples with high accuracy (89%), sensitivity (82%) and specificity (94%). This work represents a breakthrough for the potential clinical use of nuclease activity as biomarker, which can be detected via nucleic acids probes, for the clinical diagnosis of malignancy in breast tissue biopsies. This platform technology could be readily implemented into the clinic as adjunct to histopathological diagnostic., Funding Agencies|Wallenberg Centre for Molecular Medicine (WCMM) Linkoping, Sweden; Swedish Government Strategic Research Area in Materials Science on Advanced Functional Materials at Linkoping University (Faculty Grant SFO-Mat-LiU) [2009-00971]; program Torres Quevedo (MINECO); industrial doctorate program (MINECO)

Published

2021

9. Discovery and Proof-of-Concept Study of Nuclease Activity as a Novel Biomarker for Breast Cancer Tumors

Author

Hernandez, Luiza I., Arauzo-Bravo, Marcos J., Gerovska, Daniela, Solaun, Ricardo Rezola, Machado, Isabel, Balian, Alien, Botero, Juliana, Jimenez, Tania, Zuriarrain Bergara, Olaia, Larburu Gurruchaga, Lide, Urruticoechea, Ander, Hernandez, Frank, Hernandez, Luiza I., Arauzo-Bravo, Marcos J., Gerovska, Daniela, Solaun, Ricardo Rezola, Machado, Isabel, Balian, Alien, Botero, Juliana, Jimenez, Tania, Zuriarrain Bergara, Olaia, Larburu Gurruchaga, Lide, Urruticoechea, Ander, and Hernandez, Frank

Abstract

Simple Summary A diagnostic biomarker for the detection of breast cancer remains an unmet clinical need despite decades of intensive research efforts. Herein, we describe, for the first time, the use of nuclease activity as a biomarker to discriminate between healthy and cancer biopsy samples. We have identified a panel of three nucleic acid probes able to target nucleases derived from breast cancer tumors with high sensitivity and specificity. These results are in good agreement with histopathological analysis as the diagnostic gold standard. Moreover, these findings support nuclease activity as a potential adjacent diagnostic tool and shed light on the use of nuclease activity as a detection biomarker in breast cancer. Breast cancer is one of the most common pathologies diagnosed in the clinical practice. Despite major advancements in diagnostic approaches, there is no widely accepted biomarker in the clinical practice that can diagnose breast malignancy. Confirmatory diagnosis still relies on the pathological assessment of tissue biopsies by expert pathologists. Thus, there is an unmet need for new types of biomarkers and novel platform technologies that can be easily and robustly integrated into the clinic and that can assist pathologists. Herein, we show that nuclease activity associated to malignant tumors can be used as a novel biomarker in breast cancer, which can be detected via specific degradation of nucleic acid probes. In this study we have identified a set of three chemically modified nucleic acid probes that can diagnose malignancy in biopsy samples with high accuracy (89%), sensitivity (82%) and specificity (94%). This work represents a breakthrough for the potential clinical use of nuclease activity as biomarker, which can be detected via nucleic acids probes, for the clinical diagnosis of malignancy in breast tissue biopsies. This platform technology could be readily implemented into the clinic as adjunct to histopathological diagnostic., Funding Agencies|Wallenberg Centre for Molecular Medicine (WCMM) Linkoping, Sweden; Swedish Government Strategic Research Area in Materials Science on Advanced Functional Materials at Linkoping University (Faculty Grant SFO-Mat-LiU) [2009-00971]; program Torres Quevedo (MINECO); industrial doctorate program (MINECO)

Published

2021

10. Ultra-Sensitive and Specific Detection of S. aureus Bacterial Cultures Using an Oligonucleotide Probe Integrated in a Lateral Flow-Based Device

Author

Machado, Isabel, Goikoetxea, Garazi, Alday, Enara, Jimenez, Tania, Arias-Moreno, Xabier, Hernandez, Frank, Hernandez, Luiza I, Machado, Isabel, Goikoetxea, Garazi, Alday, Enara, Jimenez, Tania, Arias-Moreno, Xabier, Hernandez, Frank, and Hernandez, Luiza I

Abstract

The identification of pathogens causing infectious diseases is still based on laborious and time-consuming techniques. Therefore, there is an urgent need for the development of novel methods and devices that can considerably reduce detection times, allowing the health professionals to administer the right treatment at the right time. Lateral flow-based systems provide fast, cheap and easy to use alternatives for diagnosis. Herein, we report on a lateral flow approach for specifically detecting S. aureus bacteria within 6 h., Funding Agencies|European Unions Horizon 2020 research and innovation program under CoronaQuick project [961916]; Ministry of Economy, Industry and Competitiveness [PTQ-17-09382]

Published

2021

11. Rational Design and Experimental Analysis of Short-Oligonucleotide Substrate Specificity for Targeting Bacterial Nucleases

Author

Jimenez, Tania, Botero, Juliana, Otaegui, Dorleta, Calvo, Javier, Hernandez, Frank, San Sebastian, Eider, Jimenez, Tania, Botero, Juliana, Otaegui, Dorleta, Calvo, Javier, Hernandez, Frank, and San Sebastian, Eider

Abstract

An undecamer oligonucleotide probe based on a pair of deoxythymidines flanked by several modified nucleotides is a specific and highly efficient biosensor for micrococcal nuclease (MNase), an endonuclease produced by Staphylococcus aureus. Herein, the interaction mode and cleavage process on such oligonucleotide probes are identified and described for the first time. Also, we designed truncated pentamer probes as the minimum-length substrates required for specific and efficient biosensing. By means of computational (virtual docking) and experimental (ultra-performance liquid chromatography-mass spectrometry and matrix-assisted laser desorption ionization time-of-flight) techniques, we perform a sequence/structure-activity relationship analysis, propose a catalytically active substrate-enzyme complex, and elucidate a novel two-step phosphodiester bond hydrolysis mechanism, identifying the cleavage sites and detecting and quantifying the resulting probe fragments. Our results unravel a picture of both the enzyme-biosensor complex and a two-step cleavage/biosensing mechanism, key to the rational oligonucleotide design process., Funding Agencies|Wallenberg Centre for Molecular Medicine (WCMM) Linkoping, Sweden; Swedish Government Strategic Research Area in Materials Science on Advanced Functional Materials at Linkoping University (Faculty grant SFO-Mat-LiU) [2009-00971]; Maria de Maeztu Units of Excellence Program from the Spanish State Research Agency [MDM-2017-0720]; industrial doctorate program (MINECO) [DI-16-08891]; program Torres Quevedo (MINECO) [PTQ-17-09382]

Published

2021

12. Discovery and Proof-of-Concept Study of Nuclease Activity as a Novel Biomarker for Breast Cancer Tumors

Author

Hernandez, Luiza I., Arauzo-Bravo, Marcos J., Gerovska, Daniela, Solaun, Ricardo Rezola, Machado, Isabel, Balian, Alien, Botero, Juliana, Jimenez, Tania, Zuriarrain Bergara, Olaia, Larburu Gurruchaga, Lide, Urruticoechea, Ander, Hernandez, Frank, Hernandez, Luiza I., Arauzo-Bravo, Marcos J., Gerovska, Daniela, Solaun, Ricardo Rezola, Machado, Isabel, Balian, Alien, Botero, Juliana, Jimenez, Tania, Zuriarrain Bergara, Olaia, Larburu Gurruchaga, Lide, Urruticoechea, Ander, and Hernandez, Frank

Abstract

Simple Summary A diagnostic biomarker for the detection of breast cancer remains an unmet clinical need despite decades of intensive research efforts. Herein, we describe, for the first time, the use of nuclease activity as a biomarker to discriminate between healthy and cancer biopsy samples. We have identified a panel of three nucleic acid probes able to target nucleases derived from breast cancer tumors with high sensitivity and specificity. These results are in good agreement with histopathological analysis as the diagnostic gold standard. Moreover, these findings support nuclease activity as a potential adjacent diagnostic tool and shed light on the use of nuclease activity as a detection biomarker in breast cancer. Breast cancer is one of the most common pathologies diagnosed in the clinical practice. Despite major advancements in diagnostic approaches, there is no widely accepted biomarker in the clinical practice that can diagnose breast malignancy. Confirmatory diagnosis still relies on the pathological assessment of tissue biopsies by expert pathologists. Thus, there is an unmet need for new types of biomarkers and novel platform technologies that can be easily and robustly integrated into the clinic and that can assist pathologists. Herein, we show that nuclease activity associated to malignant tumors can be used as a novel biomarker in breast cancer, which can be detected via specific degradation of nucleic acid probes. In this study we have identified a set of three chemically modified nucleic acid probes that can diagnose malignancy in biopsy samples with high accuracy (89%), sensitivity (82%) and specificity (94%). This work represents a breakthrough for the potential clinical use of nuclease activity as biomarker, which can be detected via nucleic acids probes, for the clinical diagnosis of malignancy in breast tissue biopsies. This platform technology could be readily implemented into the clinic as adjunct to histopathological diagnostic., Funding Agencies|Wallenberg Centre for Molecular Medicine (WCMM) Linkoping, Sweden; Swedish Government Strategic Research Area in Materials Science on Advanced Functional Materials at Linkoping University (Faculty Grant SFO-Mat-LiU) [2009-00971]; program Torres Quevedo (MINECO); industrial doctorate program (MINECO)

Published

2021

13. Ultra-Sensitive and Specific Detection of S. aureus Bacterial Cultures Using an Oligonucleotide Probe Integrated in a Lateral Flow-Based Device

Author

Machado, Isabel, Goikoetxea, Garazi, Alday, Enara, Jimenez, Tania, Arias-Moreno, Xabier, Hernandez, Frank, Hernandez, Luiza I, Machado, Isabel, Goikoetxea, Garazi, Alday, Enara, Jimenez, Tania, Arias-Moreno, Xabier, Hernandez, Frank, and Hernandez, Luiza I

Abstract

The identification of pathogens causing infectious diseases is still based on laborious and time-consuming techniques. Therefore, there is an urgent need for the development of novel methods and devices that can considerably reduce detection times, allowing the health professionals to administer the right treatment at the right time. Lateral flow-based systems provide fast, cheap and easy to use alternatives for diagnosis. Herein, we report on a lateral flow approach for specifically detecting S. aureus bacteria within 6 h., Funding Agencies|European Unions Horizon 2020 research and innovation program under CoronaQuick project [961916]; Ministry of Economy, Industry and Competitiveness [PTQ-17-09382]

Published

2021

14. Rational Design and Experimental Analysis of Short-Oligonucleotide Substrate Specificity for Targeting Bacterial Nucleases

Author

Jimenez, Tania, Botero, Juliana, Otaegui, Dorleta, Calvo, Javier, Hernandez, Frank, San Sebastian, Eider, Jimenez, Tania, Botero, Juliana, Otaegui, Dorleta, Calvo, Javier, Hernandez, Frank, and San Sebastian, Eider

Abstract

An undecamer oligonucleotide probe based on a pair of deoxythymidines flanked by several modified nucleotides is a specific and highly efficient biosensor for micrococcal nuclease (MNase), an endonuclease produced by Staphylococcus aureus. Herein, the interaction mode and cleavage process on such oligonucleotide probes are identified and described for the first time. Also, we designed truncated pentamer probes as the minimum-length substrates required for specific and efficient biosensing. By means of computational (virtual docking) and experimental (ultra-performance liquid chromatography-mass spectrometry and matrix-assisted laser desorption ionization time-of-flight) techniques, we perform a sequence/structure-activity relationship analysis, propose a catalytically active substrate-enzyme complex, and elucidate a novel two-step phosphodiester bond hydrolysis mechanism, identifying the cleavage sites and detecting and quantifying the resulting probe fragments. Our results unravel a picture of both the enzyme-biosensor complex and a two-step cleavage/biosensing mechanism, key to the rational oligonucleotide design process., Funding Agencies|Wallenberg Centre for Molecular Medicine (WCMM) Linkoping, Sweden; Swedish Government Strategic Research Area in Materials Science on Advanced Functional Materials at Linkoping University (Faculty grant SFO-Mat-LiU) [2009-00971]; Maria de Maeztu Units of Excellence Program from the Spanish State Research Agency [MDM-2017-0720]; industrial doctorate program (MINECO) [DI-16-08891]; program Torres Quevedo (MINECO) [PTQ-17-09382]

Published

2021

15. Discovery and Proof-of-Concept Study of Nuclease Activity as a Novel Biomarker for Breast Cancer Tumors

Author

Hernandez, Luiza I., Arauzo-Bravo, Marcos J., Gerovska, Daniela, Solaun, Ricardo Rezola, Machado, Isabel, Balian, Alien, Botero, Juliana, Jimenez, Tania, Zuriarrain Bergara, Olaia, Larburu Gurruchaga, Lide, Urruticoechea, Ander, Hernandez, Frank, Hernandez, Luiza I., Arauzo-Bravo, Marcos J., Gerovska, Daniela, Solaun, Ricardo Rezola, Machado, Isabel, Balian, Alien, Botero, Juliana, Jimenez, Tania, Zuriarrain Bergara, Olaia, Larburu Gurruchaga, Lide, Urruticoechea, Ander, and Hernandez, Frank

Abstract

Simple Summary A diagnostic biomarker for the detection of breast cancer remains an unmet clinical need despite decades of intensive research efforts. Herein, we describe, for the first time, the use of nuclease activity as a biomarker to discriminate between healthy and cancer biopsy samples. We have identified a panel of three nucleic acid probes able to target nucleases derived from breast cancer tumors with high sensitivity and specificity. These results are in good agreement with histopathological analysis as the diagnostic gold standard. Moreover, these findings support nuclease activity as a potential adjacent diagnostic tool and shed light on the use of nuclease activity as a detection biomarker in breast cancer. Breast cancer is one of the most common pathologies diagnosed in the clinical practice. Despite major advancements in diagnostic approaches, there is no widely accepted biomarker in the clinical practice that can diagnose breast malignancy. Confirmatory diagnosis still relies on the pathological assessment of tissue biopsies by expert pathologists. Thus, there is an unmet need for new types of biomarkers and novel platform technologies that can be easily and robustly integrated into the clinic and that can assist pathologists. Herein, we show that nuclease activity associated to malignant tumors can be used as a novel biomarker in breast cancer, which can be detected via specific degradation of nucleic acid probes. In this study we have identified a set of three chemically modified nucleic acid probes that can diagnose malignancy in biopsy samples with high accuracy (89%), sensitivity (82%) and specificity (94%). This work represents a breakthrough for the potential clinical use of nuclease activity as biomarker, which can be detected via nucleic acids probes, for the clinical diagnosis of malignancy in breast tissue biopsies. This platform technology could be readily implemented into the clinic as adjunct to histopathological diagnostic., Funding Agencies|Wallenberg Centre for Molecular Medicine (WCMM) Linkoping, Sweden; Swedish Government Strategic Research Area in Materials Science on Advanced Functional Materials at Linkoping University (Faculty Grant SFO-Mat-LiU) [2009-00971]; program Torres Quevedo (MINECO); industrial doctorate program (MINECO)

Published

2021

16. Rational Design and Experimental Analysis of Short-Oligonucleotide Substrate Specificity for Targeting Bacterial Nucleases

Author

Jimenez, Tania, Botero, Juliana, Otaegui, Dorleta, Calvo, Javier, Hernandez, Frank, San Sebastian, Eider, Jimenez, Tania, Botero, Juliana, Otaegui, Dorleta, Calvo, Javier, Hernandez, Frank, and San Sebastian, Eider

Abstract

An undecamer oligonucleotide probe based on a pair of deoxythymidines flanked by several modified nucleotides is a specific and highly efficient biosensor for micrococcal nuclease (MNase), an endonuclease produced by Staphylococcus aureus. Herein, the interaction mode and cleavage process on such oligonucleotide probes are identified and described for the first time. Also, we designed truncated pentamer probes as the minimum-length substrates required for specific and efficient biosensing. By means of computational (virtual docking) and experimental (ultra-performance liquid chromatography-mass spectrometry and matrix-assisted laser desorption ionization time-of-flight) techniques, we perform a sequence/structure-activity relationship analysis, propose a catalytically active substrate-enzyme complex, and elucidate a novel two-step phosphodiester bond hydrolysis mechanism, identifying the cleavage sites and detecting and quantifying the resulting probe fragments. Our results unravel a picture of both the enzyme-biosensor complex and a two-step cleavage/biosensing mechanism, key to the rational oligonucleotide design process., Funding Agencies|Wallenberg Centre for Molecular Medicine (WCMM) Linkoping, Sweden; Swedish Government Strategic Research Area in Materials Science on Advanced Functional Materials at Linkoping University (Faculty grant SFO-Mat-LiU) [2009-00971]; Maria de Maeztu Units of Excellence Program from the Spanish State Research Agency [MDM-2017-0720]; industrial doctorate program (MINECO) [DI-16-08891]; program Torres Quevedo (MINECO) [PTQ-17-09382]

Published

2021

17. Ultra-Sensitive and Specific Detection of S. aureus Bacterial Cultures Using an Oligonucleotide Probe Integrated in a Lateral Flow-Based Device

Author

Machado, Isabel, Goikoetxea, Garazi, Alday, Enara, Jimenez, Tania, Arias-Moreno, Xabier, Hernandez, Frank, Hernandez, Luiza I, Machado, Isabel, Goikoetxea, Garazi, Alday, Enara, Jimenez, Tania, Arias-Moreno, Xabier, Hernandez, Frank, and Hernandez, Luiza I

Abstract

The identification of pathogens causing infectious diseases is still based on laborious and time-consuming techniques. Therefore, there is an urgent need for the development of novel methods and devices that can considerably reduce detection times, allowing the health professionals to administer the right treatment at the right time. Lateral flow-based systems provide fast, cheap and easy to use alternatives for diagnosis. Herein, we report on a lateral flow approach for specifically detecting S. aureus bacteria within 6 h., Funding Agencies|European Unions Horizon 2020 research and innovation program under CoronaQuick project [961916]; Ministry of Economy, Industry and Competitiveness [PTQ-17-09382]

Published

2021

18. Discovery and Proof-of-Concept Study of Nuclease Activity as a Novel Biomarker for Breast Cancer Tumors

Author

Hernandez, Luiza I., Arauzo-Bravo, Marcos J., Gerovska, Daniela, Solaun, Ricardo Rezola, Machado, Isabel, Balian, Alien, Botero, Juliana, Jimenez, Tania, Zuriarrain Bergara, Olaia, Larburu Gurruchaga, Lide, Urruticoechea, Ander, Hernandez, Frank, Hernandez, Luiza I., Arauzo-Bravo, Marcos J., Gerovska, Daniela, Solaun, Ricardo Rezola, Machado, Isabel, Balian, Alien, Botero, Juliana, Jimenez, Tania, Zuriarrain Bergara, Olaia, Larburu Gurruchaga, Lide, Urruticoechea, Ander, and Hernandez, Frank

Abstract

Simple Summary A diagnostic biomarker for the detection of breast cancer remains an unmet clinical need despite decades of intensive research efforts. Herein, we describe, for the first time, the use of nuclease activity as a biomarker to discriminate between healthy and cancer biopsy samples. We have identified a panel of three nucleic acid probes able to target nucleases derived from breast cancer tumors with high sensitivity and specificity. These results are in good agreement with histopathological analysis as the diagnostic gold standard. Moreover, these findings support nuclease activity as a potential adjacent diagnostic tool and shed light on the use of nuclease activity as a detection biomarker in breast cancer. Breast cancer is one of the most common pathologies diagnosed in the clinical practice. Despite major advancements in diagnostic approaches, there is no widely accepted biomarker in the clinical practice that can diagnose breast malignancy. Confirmatory diagnosis still relies on the pathological assessment of tissue biopsies by expert pathologists. Thus, there is an unmet need for new types of biomarkers and novel platform technologies that can be easily and robustly integrated into the clinic and that can assist pathologists. Herein, we show that nuclease activity associated to malignant tumors can be used as a novel biomarker in breast cancer, which can be detected via specific degradation of nucleic acid probes. In this study we have identified a set of three chemically modified nucleic acid probes that can diagnose malignancy in biopsy samples with high accuracy (89%), sensitivity (82%) and specificity (94%). This work represents a breakthrough for the potential clinical use of nuclease activity as biomarker, which can be detected via nucleic acids probes, for the clinical diagnosis of malignancy in breast tissue biopsies. This platform technology could be readily implemented into the clinic as adjunct to histopathological diagnostic., Funding Agencies|Wallenberg Centre for Molecular Medicine (WCMM) Linkoping, Sweden; Swedish Government Strategic Research Area in Materials Science on Advanced Functional Materials at Linkoping University (Faculty Grant SFO-Mat-LiU) [2009-00971]; program Torres Quevedo (MINECO); industrial doctorate program (MINECO)

Published

2021