Superchaotropic Boron Clusters as Membrane Carriers for the Transport of Hydrophilic Cargos

Design of membrane transporters is important in pharmaceutical drug delivery and bioimaging. Traditionally, the amphiphilic transport mechanism has governed the design of membrane carriers over the last 50 years. Recently, Montenegro, Nau and co‐workers discarded classical amphiphilic models and pro...

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Published in	Angewandte Chemie International Edition Vol. 61; no. 26; pp. e202204979 - n/a
Main Authors	Hu, Xin‐Yue, Guo, Dong‐Sheng
Format	Journal Article
Language	English
Published	Germany Wiley Subscription Services, Inc 27.06.2022
Edition	International ed. in English
Subjects	Boron Boron Clusters Carriers Clusters Drug Delivery Drug development Hydrophilicity Medical imaging Membrane Transport Membranes Superchaotropic Carriers Superchaotropic Boron Clusters Drug Delivery Membrane Transport
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Abstract	Design of membrane transporters is important in pharmaceutical drug delivery and bioimaging. Traditionally, the amphiphilic transport mechanism has governed the design of membrane carriers over the last 50 years. Recently, Montenegro, Nau and co‐workers discarded classical amphiphilic models and proposed a new transport principle based on the chaotropic effect. They utilized globular boron clusters as membrane carriers to transport a broad range of hydrophilic cargo. Herein, we highlight this recent pioneering work, which is a landmark for membrane transport. Montenegro, Nau and co‐workers abandoned the typical amphiphilic model of membrane transport and proposed a new chaotrope‐mediated transport principle. They utilized superchaotropic boron clusters as membrane carriers to transport a broad range of hydrophilic cargo. This groundbreaking work is a conceptual innovation and may have a profound impact on cell‐biological, neurobiological, physiological, and pharmaceutical studies.
AbstractList	Design of membrane transporters is important in pharmaceutical drug delivery and bioimaging. Traditionally, the amphiphilic transport mechanism has governed the design of membrane carriers over the last 50 years. Recently, Montenegro, Nau and co‐workers discarded classical amphiphilic models and proposed a new transport principle based on the chaotropic effect. They utilized globular boron clusters as membrane carriers to transport a broad range of hydrophilic cargo. Herein, we highlight this recent pioneering work, which is a landmark for membrane transport. Design of membrane transporters is important in pharmaceutical drug delivery and bioimaging. Traditionally, the amphiphilic transport mechanism has governed the design of membrane carriers over the last 50 years. Recently, Montenegro, Nau and co-workers discarded classical amphiphilic models and proposed a new transport principle based on the chaotropic effect. They utilized globular boron clusters as membrane carriers to transport a broad range of hydrophilic cargo. Herein, we highlight this recent pioneering work, which is a landmark for membrane transport.Design of membrane transporters is important in pharmaceutical drug delivery and bioimaging. Traditionally, the amphiphilic transport mechanism has governed the design of membrane carriers over the last 50 years. Recently, Montenegro, Nau and co-workers discarded classical amphiphilic models and proposed a new transport principle based on the chaotropic effect. They utilized globular boron clusters as membrane carriers to transport a broad range of hydrophilic cargo. Herein, we highlight this recent pioneering work, which is a landmark for membrane transport. Design of membrane transporters is important in pharmaceutical drug delivery and bioimaging. Traditionally, the amphiphilic transport mechanism has governed the design of membrane carriers over the last 50 years. Recently, Montenegro, Nau and co‐workers discarded classical amphiphilic models and proposed a new transport principle based on the chaotropic effect. They utilized globular boron clusters as membrane carriers to transport a broad range of hydrophilic cargo. Herein, we highlight this recent pioneering work, which is a landmark for membrane transport. Montenegro, Nau and co‐workers abandoned the typical amphiphilic model of membrane transport and proposed a new chaotrope‐mediated transport principle. They utilized superchaotropic boron clusters as membrane carriers to transport a broad range of hydrophilic cargo. This groundbreaking work is a conceptual innovation and may have a profound impact on cell‐biological, neurobiological, physiological, and pharmaceutical studies.
Author	Guo, Dong‐Sheng Hu, Xin‐Yue
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SubjectTerms	Boron Boron Clusters Carriers Clusters Drug Delivery Drug development Hydrophilicity Medical imaging Membrane Transport Membranes Superchaotropic
Title	Superchaotropic Boron Clusters as Membrane Carriers for the Transport of Hydrophilic Cargos
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