A new fluorescent biosensor based on inner filter effect and competitive coordination with the europium ion of non-luminescent Eu-MOF nanosheets for the determination of alkaline phosphatase activity in human serum

A new fluorescent biosensor based on inner filter effect and competitive coordination with the europium ion of non-luminescent Eu-MOF nanosheets for the determination of alkaline phosphatase activity in human serum

The abnormal level of alkaline phosphatase (ALP) in human blood stream indicates health problem. A novel fluorescent sensing system based on competitive coordination with europium ions (Eu3+) integrated in a non-luminescent lanthanide-metal organic framework nanosheets (NO2-Eu-MOF NS) was developed...

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Published in:Sensors and actuators. B, Chemical Vol. 380; p. 133379
Main Authors: Hu, Shuisheng, Liu, Jingyan, Wang, Yong, Liang, Zhiguang, Hu, Bin, Xie, Jiahe, Wong, Wing-Leung, Wong, Kwok-Yin, Qiu, Bin, Peng, Weijie
Format: Journal Article
Language:English
Published: Lausanne Elsevier B.V 01-04-2023
Elsevier Science Ltd
Subjects:
Alkaline phosphatase
Biosensors
Competitive coordination
Coordination
Europium
Fluorescence
Inner filter effect
Metal-organic frameworks
Nanosheets
Nitro-modified lanthanide metal organic framework
Nitrogen dioxide
Nitrophenol
Phosphatase
Substrates
Two-dimensional nanosheet
Two-dimensional nanosheet
Alkaline phosphatase
Competitive coordination
Inner filter effect
Nitro-modified lanthanide metal organic framework
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Abstract The abnormal level of alkaline phosphatase (ALP) in human blood stream indicates health problem. A novel fluorescent sensing system based on competitive coordination with europium ions (Eu3+) integrated in a non-luminescent lanthanide-metal organic framework nanosheets (NO2-Eu-MOF NS) was developed for ALP analysis in human serum. The fluorescence signal is turned-on by the antenna ligand (1,4-phenylenediphosphonic acid (PEPP)) that competitively coordinates with Eu3+ ions from the nanosheet to produce emissive species (Eux(PEPP)y(NO2BDC)z) in-situ. 4-Nitrophenyl phosphate (PNPP) is a substrate of ALP and specifically hydrolyzed into 4-nitrophenol. PNPP exhibits a strong absorption in the UV-Vis region (250–400 nm), which covers the excitation wavelength (280 nm) of Eux(PEPP)y(NO2BDC)z. Therefore, the existing of PNPP causes Eux(PEPP)y(NO2BDC)z non-emissive and, after hydrolysis with ALP, Eux(PEPP)y(NO2BDC)z can be excited and give a detectable fluorescence signal. Based on the fluorescence change, quantitative analysis of ALP activity is thus achievable. This biosensing system was demonstrated in the determination of ALP activity with good linear relationship in the range of 5–1000 U L−1. The limit of detection was 1.1 U L−1 (S/N = 3). The result reveals that the biosensor exhibits excellent sensing performance and anti-interference ability. It could be potentially utilized for clinical routine analysis of ALP activity in human serum. [Display omitted] •Assembly of a novel two-dimensional lanthanide-based metal organic framework nanosheet NO2-Eu-MOF nanosheet.•Turn on the fluorescence of Eu3+ in the non-luminescent NO2-Eu-MOF nanosheet via a new competitive coordination strategy.•Quantitative analysis of alkaline phosphatase (ALP) activity in human serum with NO2-Eu-MOF nanosheet.•Fabrication of ALP activity sensor based on the absorption difference of 4-nitrophenyl phosphate and 4-nitrophenol.
AbstractList The abnormal level of alkaline phosphatase (ALP) in human blood stream indicates health problem. A novel fluorescent sensing system based on competitive coordination with europium ions (Eu3+) integrated in a non-luminescent lanthanide-metal organic framework nanosheets (NO2-Eu-MOF NS) was developed for ALP analysis in human serum. The fluorescence signal is turned-on by the antenna ligand (1,4-phenylenediphosphonic acid (PEPP)) that competitively coordinates with Eu3+ ions from the nanosheet to produce emissive species (Eux(PEPP)y(NO2BDC)z) in-situ. 4-Nitrophenyl phosphate (PNPP) is a substrate of ALP and specifically hydrolyzed into 4-nitrophenol. PNPP exhibits a strong absorption in the UV-Vis region (250–400 nm), which covers the excitation wavelength (280 nm) of Eux(PEPP)y(NO2BDC)z. Therefore, the existing of PNPP causes Eux(PEPP)y(NO2BDC)z non-emissive and, after hydrolysis with ALP, Eux(PEPP)y(NO2BDC)z can be excited and give a detectable fluorescence signal. Based on the fluorescence change, quantitative analysis of ALP activity is thus achievable. This biosensing system was demonstrated in the determination of ALP activity with good linear relationship in the range of 5–1000 U L−1. The limit of detection was 1.1 U L−1 (S/N = 3). The result reveals that the biosensor exhibits excellent sensing performance and anti-interference ability. It could be potentially utilized for clinical routine analysis of ALP activity in human serum.
The abnormal level of alkaline phosphatase (ALP) in human blood stream indicates health problem. A novel fluorescent sensing system based on competitive coordination with europium ions (Eu3+) integrated in a non-luminescent lanthanide-metal organic framework nanosheets (NO2-Eu-MOF NS) was developed for ALP analysis in human serum. The fluorescence signal is turned-on by the antenna ligand (1,4-phenylenediphosphonic acid (PEPP)) that competitively coordinates with Eu3+ ions from the nanosheet to produce emissive species (Eux(PEPP)y(NO2BDC)z) in-situ. 4-Nitrophenyl phosphate (PNPP) is a substrate of ALP and specifically hydrolyzed into 4-nitrophenol. PNPP exhibits a strong absorption in the UV-Vis region (250–400 nm), which covers the excitation wavelength (280 nm) of Eux(PEPP)y(NO2BDC)z. Therefore, the existing of PNPP causes Eux(PEPP)y(NO2BDC)z non-emissive and, after hydrolysis with ALP, Eux(PEPP)y(NO2BDC)z can be excited and give a detectable fluorescence signal. Based on the fluorescence change, quantitative analysis of ALP activity is thus achievable. This biosensing system was demonstrated in the determination of ALP activity with good linear relationship in the range of 5–1000 U L−1. The limit of detection was 1.1 U L−1 (S/N = 3). The result reveals that the biosensor exhibits excellent sensing performance and anti-interference ability. It could be potentially utilized for clinical routine analysis of ALP activity in human serum. [Display omitted] •Assembly of a novel two-dimensional lanthanide-based metal organic framework nanosheet NO2-Eu-MOF nanosheet.•Turn on the fluorescence of Eu3+ in the non-luminescent NO2-Eu-MOF nanosheet via a new competitive coordination strategy.•Quantitative analysis of alkaline phosphatase (ALP) activity in human serum with NO2-Eu-MOF nanosheet.•Fabrication of ALP activity sensor based on the absorption difference of 4-nitrophenyl phosphate and 4-nitrophenol.
ArticleNumber 133379
Author Hu, Shuisheng
Wong, Wing-Leung
Liang, Zhiguang
Hu, Bin
Qiu, Bin
Wong, Kwok-Yin
Peng, Weijie
Liu, Jingyan
Wang, Yong
Xie, Jiahe
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  givenname: Kwok-Yin
  surname: Wong
  fullname: Wong, Kwok-Yin
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  email: wing.leung.wong@polyu.edu.hk
  organization: Ministry of Education Key Laboratory of Analytical Science of Food Safety and Biology, Fujian Provincial Key Laboratory of Analysis and Detection for Food Safety, Fuzhou University, Fuzhou, Fujian 350108, PR China
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  surname: Peng
  fullname: Peng, Weijie
  email: weijiepeng@126.com
  organization: Key Laboratory of Prevention and Treatment of Cardiovascular and Cerebrovascular Diseases, Ministry of Education, Key Laboratory of Biomaterials and Biofabrication in Tissue Engineering of Jiangxi Province, Key Laboratory of Biomedical Sensors of Ganzhou, School of Medical and Information Engineering, Scientific Research Center, Gannan Medical University, Ganzhou, Jiangxi 341000, PR China
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Keywords Two-dimensional nanosheet
Alkaline phosphatase
Competitive coordination
Inner filter effect
Nitro-modified lanthanide metal organic framework
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Snippet The abnormal level of alkaline phosphatase (ALP) in human blood stream indicates health problem. A novel fluorescent sensing system based on competitive...
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SubjectTerms Alkaline phosphatase
Biosensors
Competitive coordination
Coordination
Europium
Fluorescence
Inner filter effect
Metal-organic frameworks
Nanosheets
Nitro-modified lanthanide metal organic framework
Nitrogen dioxide
Nitrophenol
Phosphatase
Substrates
Two-dimensional nanosheet
Title A new fluorescent biosensor based on inner filter effect and competitive coordination with the europium ion of non-luminescent Eu-MOF nanosheets for the determination of alkaline phosphatase activity in human serum
URI https://dx.doi.org/10.1016/j.snb.2023.133379
https://www.proquest.com/docview/2788457790
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