Carbon nanosphere based bifunctional oxidoreductase nano-catalytic agent to mitigate hypoxia in cancer cells

Developing metal-free carbon nanozyme for tumor hypoxia is difficult. In biomedical applications, especially in the case of biomolecular detection, extensive research has been done on nanozymes with enzyme-mimicking catalytic activity. However, there are considerably fewer investigations on targeted...

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Published inInternational journal of biological macromolecules Vol. 233; p. 123466
Main Authors Shukla, Ashish K., Randhawa, Shiwani, Saini, Trilok Chand, Acharya, Amitabha
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier B.V 01.04.2023
Subjects
Carbon - chemistry
Carbon nanozyme
Catalase and peroxidase activity
Humans
Hydrogen Peroxide - chemistry
Hypoxia
Nano catalytic medicine
Nanospheres
Neoplasms - drug therapy
Oxidative stress
Carbon nanozyme
Catalase and peroxidase activity
Oxidative stress
Hypoxia
Nano catalytic medicine
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Abstract Developing metal-free carbon nanozyme for tumor hypoxia is difficult. In biomedical applications, especially in the case of biomolecular detection, extensive research has been done on nanozymes with enzyme-mimicking catalytic activity. However, there are considerably fewer investigations on targeted nano-catalytic tumor therapy. Nano catalytic medicine-enabled chemotherapy is a safe and promising treatment strategy that involves the conversion of excess H2O2 into O2 in a tumor environment. Here we have synthesized carbon nanosphere (CNS) using the Camellia sinensis plant (CS-CNS). Further surface functionalization was achieved via nitrilotriacetic acid conjugation (NTA@CS-CNS). A stability study of synthesized nanozyme in the presence of various cations, anions, and 5 different pH range suggested the robustness of carbon based nanoassembly. The catalytic in vitro study shows that NTA@CS-CNS mimics peroxidase and catalase using TMB and H2O2 as substrates. NTA@CS-CNS showed Km and Vmax values of ~ 193.2 μM and 0.43 μM/s, ~ 413 μM and 1.42 μM/s, and ~ 378 μM and 1.63 μM/s, respectively when H2O2 and TMB was used for CAT and POD activity. Results showed that NTA@CS-CNS in combination with SFN and laser irradiation reduces hypoxia. Hence, our study could pave the path for the development of different non-toxic nano catalytic therapy for tumors in cancerous cells.
AbstractList Developing metal-free carbon nanozyme for tumor hypoxia is difficult. In biomedical applications, especially in the case of biomolecular detection, extensive research has been done on nanozymes with enzyme-mimicking catalytic activity. However, there are considerably fewer investigations on targeted nano-catalytic tumor therapy. Nano catalytic medicine-enabled chemotherapy is a safe and promising treatment strategy that involves the conversion of excess H O into O in a tumor environment. Here we have synthesized carbon nanosphere (CNS) using the Camellia sinensis plant (CS-CNS). Further surface functionalization was achieved via nitrilotriacetic acid conjugation (NTA@CS-CNS). A stability study of synthesized nanozyme in the presence of various cations, anions, and 5 different pH range suggested the robustness of carbon based nanoassembly. The catalytic in vitro study shows that NTA@CS-CNS mimics peroxidase and catalase using TMB and H O as substrates. NTA@CS-CNS showed K and V values of ~ 193.2 μM and 0.43 μM/s, ~ 413 μM and 1.42 μM/s, and ~ 378 μM and 1.63 μM/s, respectively when H O and TMB was used for CAT and POD activity. Results showed that NTA@CS-CNS in combination with SFN and laser irradiation reduces hypoxia. Hence, our study could pave the path for the development of different non-toxic nano catalytic therapy for tumors in cancerous cells.
Developing metal-free carbon nanozyme for tumor hypoxia is difficult. In biomedical applications, especially in the case of biomolecular detection, extensive research has been done on nanozymes with enzyme-mimicking catalytic activity. However, there are considerably fewer investigations on targeted nano-catalytic tumor therapy. Nano catalytic medicine-enabled chemotherapy is a safe and promising treatment strategy that involves the conversion of excess H2O2 into O2 in a tumor environment. Here we have synthesized carbon nanosphere (CNS) using the Camellia sinensis plant (CS-CNS). Further surface functionalization was achieved via nitrilotriacetic acid conjugation (NTA@CS-CNS). A stability study of synthesized nanozyme in the presence of various cations, anions, and 5 different pH range suggested the robustness of carbon based nanoassembly. The catalytic in vitro study shows that NTA@CS-CNS mimics peroxidase and catalase using TMB and H2O2 as substrates. NTA@CS-CNS showed Km and Vmax values of ~ 193.2 μM and 0.43 μM/s, ~ 413 μM and 1.42 μM/s, and ~ 378 μM and 1.63 μM/s, respectively when H2O2 and TMB was used for CAT and POD activity. Results showed that NTA@CS-CNS in combination with SFN and laser irradiation reduces hypoxia. Hence, our study could pave the path for the development of different non-toxic nano catalytic therapy for tumors in cancerous cells.
ArticleNumber 123466
Author Acharya, Amitabha
Shukla, Ashish K.
Saini, Trilok Chand
Randhawa, Shiwani
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CitedBy_id crossref_primary_10_1002_adma_202401619
crossref_primary_10_1007_s11244_024_01910_2
crossref_primary_10_1016_j_colsurfb_2024_114032
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Keywords Carbon nanozyme
Catalase and peroxidase activity
Oxidative stress
Hypoxia
Nano catalytic medicine
Language English
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Snippet Developing metal-free carbon nanozyme for tumor hypoxia is difficult. In biomedical applications, especially in the case of biomolecular detection, extensive...
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StartPage 123466
SubjectTerms Carbon - chemistry
Carbon nanozyme
Catalase and peroxidase activity
Humans
Hydrogen Peroxide - chemistry
Hypoxia
Nano catalytic medicine
Nanospheres
Neoplasms - drug therapy
Oxidative stress
Title Carbon nanosphere based bifunctional oxidoreductase nano-catalytic agent to mitigate hypoxia in cancer cells
URI https://dx.doi.org/10.1016/j.ijbiomac.2023.123466
https://www.ncbi.nlm.nih.gov/pubmed/36739044
https://search.proquest.com/docview/2773123402
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