Microalgae‐Derived Health Supplements to Therapeutic Shifts: Redox‐Based Study Opportunities with AIE‐Based Technologies

Reza, A H M Mohsinul; Zhu, Xiaojun; Qin, Jianguang; Tang, Youhong

doi:10.1002/adhm.202101223

Cited by 7 publications

(1 citation statement)

References 182 publications

(146 reference statements)

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“…Thus, accurate detection and monitoring of these endogenously generated biomarkers is extensively important for precise disease diagnostics and therapeutics at an early stage [ 63 , 64 , 65 ]. According to their nature, reactive species can be divided into reactive oxygen species (ROS) including hydrogen peroxide (H 2 O 2 ), hypochlorite/hypochlorous acid (HOCl/ClO − ), hydroxyl radical ( • OH), superoxide anion radical (O 2 •− ), singlet oxygen ( 1 O 2 ), and peroxy radical (ROO • ); reactive nitrogen species (RNS) including nitric oxide (NO), peroxynitrite (ONOO − ), S -nitrosothiol (RSNO), and S -nitrosoglutathione (GSNO); reactive sulfur species (RSS) including hydrogen sulfide (H 2 S), thiyl radical (RS), thiol (RSH), S -nitrosothiol, sulfenic acid, and sulfite; reactive carbonyl species (RCS) including carbon monoxide (CO), formaldehyde (FA), glyoxal (GO), acrolein, and glucosone [ 66 , 67 , 68 , 69 , 70 , 71 , 72 , 73 , 74 , 75 ]. Reactive species have gained great interest from both fundamental biological scientists and clinical doctors, and more and more new phenomena about their functions have been discovered [ 76 , 77 , 78 ].…”

Section: Introductionmentioning

confidence: 99%

Reactive Species-Activatable AIEgens for Biomedical Applications

Kang

Yin

et al. 2022

Biosensors

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Precision medicine requires highly sensitive and specific diagnostic strategies with high spatiotemporal resolution. Accurate detection and monitoring of endogenously generated biomarkers at the very early disease stage is of extensive importance for precise diagnosis and treatment. Aggregation-induced emission luminogens (AIEgens) have emerged as a new type of excellent optical agents, which show great promise for numerous biomedical applications. In this review, we highlight the recent advances of AIE-based probes for detecting reactive species (including reactive oxygen species (ROS), reactive nitrogen species (RNS), reactive sulfur species (RSS), and reactive carbonyl species (RCS)) and related biomedical applications. The molecular design strategies for increasing the sensitivity, tuning the response wavelength, and realizing afterglow imaging are summarized, and theranostic applications in reactive species-related major diseases such as cancer, inflammation, and vascular diseases are reviewed. The challenges and outlooks for the reactive species-activatable AIE systems for disease diagnostics and therapeutics are also discussed. This review aims to offer guidance for designing AIE-based specifically activatable optical agents for biomedical applications, as well as providing a comprehensive understanding about the structure–property application relationships. We hope it will inspire more interesting researches about reactive species-activatable probes and advance clinical translations.

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Section: Introductionmentioning

confidence: 99%

Reactive Species-Activatable AIEgens for Biomedical Applications

Kang

Yin

et al. 2022

Biosensors

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Engineered Living Materials for Advanced Diseases Therapy

Duan

Pan

et al. 2023

Advanced Materials

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Natural living materials serving as biotherapeutics exhibit great potential for treating various diseases owing their immunoactivity, tissue targeting, and other biological activities. In this review, we summarize the recent developments in engineered living materials, including mammalian cells, bacteria, viruses, fungi, microalgae, plants, and their active derivatives that have been used for treating various diseases. Further, the future perspectives and challenges of such engineered living material‐based biotherapeutics are discussed to provide considerations for future advances in biomedical applications.This article is protected by copyright. All rights reserved

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Enhancement of Growth and Lipid Production in Microalgae Using Aggregation‐Induced Emission Based Luminescent Material for Sustainable Food and Fuel

Ferdewsi Rakhi,

Mohammad Mohsinul Reza,

Wang

et al. 2024

Chemistry An Asian Journal

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AIE based nanomaterials are progressively gaining momentum owing to their evolvement into an interdisciplinary field ranging from biomass and biomolecule yield to image‐guided photodynamic therapy. This study focuses on a novel strategy to enhance growth, lipid accumulation, and in vivo fluorescence visualisation in green microalgae Chlamydomonas reinhardtii using AIE nanoparticles to quantify radical changes. The absorption of AIE photosensitiser, TTMN was recorded from 420 to 570 nm with a peak at 500 nm, and the emission ranged from 550 to 800 nm with a peak at 650 nm. As a ROS molecule, H2O2 generation of TTMN in C. reinhardtii cells was detected with AIE nanoprobes TPE‐BO. H2O2 accumulation increased with the increase of TTMN concentrations. The maximum growth was observed at 10 µM TTMN‐exposed C. reinhardtii cells. Significant lipid accumulation was found in both 10 and 15 µM TTMN‐treated cells. For lipid visualisation, an AIE nanoprobe, 2‐DPAN was used, and superior fluorescence was determined and compared with the traditional BODIPY dye. Cytotoxicity analysis of 10 µM TTMN on the HaCat cell line with 86.2% cell viability revealed its high biocompatibility on living cells. This AIE‐based nanotechnology provides a novel approach for microalgae‐derived sustainable biomass and eco‐friendly biofuel production.

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Microalgae‐Derived Health Supplements to Therapeutic Shifts: Redox‐Based Study Opportunities with AIE‐Based Technologies

Cited by 7 publications

References 182 publications

Reactive Species-Activatable AIEgens for Biomedical Applications

Reactive Species-Activatable AIEgens for Biomedical Applications

Engineered Living Materials for Advanced Diseases Therapy

Enhancement of Growth and Lipid Production in Microalgae Using Aggregation‐Induced Emission Based Luminescent Material for Sustainable Food and Fuel

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