Quantum dot-based conjugates: Luminous nanotools for cancer research

Nanotechnology has opened a new era in life science research, offering innovative nanotools to understand complex biological processes, such as those associated with cancer. Among the nanosystems, quantum dots (QDs) stand out for their remarkable optical properties, which render them valuable fluore...

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Published in:Biochemical and biophysical research communications 2024-12, Vol.741, p.151052, Article 151052
Main Authors: Henrique, Rafaella B.L., Lima, João V.A., Santos, Ana L.F., Souza, Tiago H.S., Santos, Beate S., Cabral Filho, Paulo E., Fontes, Adriana
Format: Article
Language:English
Subjects:
Animals
Biosensing Techniques - methods
Cancer cells
Conjugation
Fluorescence
Humans
Nanoparticles
Nanotechnology - methods
Neoplasms - diagnosis
Neoplasms - therapy
Quantum Dots - chemistry
Tissues
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container_title Biochemical and biophysical research communications
container_volume 741
creator Henrique, Rafaella B.L.
Lima, João V.A.
Santos, Ana L.F.
Souza, Tiago H.S.
Santos, Beate S.
Cabral Filho, Paulo E.
Fontes, Adriana
description Nanotechnology has opened a new era in life science research, offering innovative nanotools to understand complex biological processes, such as those associated with cancer. Among the nanosystems, quantum dots (QDs) stand out for their remarkable optical properties, which render them valuable fluorescent nanoprobes in biological investigations. Moreover, their chemically active surfaces allow conjugations with (bio)molecules, other nanoparticles (NPs), and electrodes, enabling their use in multimodal site-specific applications and biosensing. The complexity and heterogeneity of cancer present challenges for its early diagnosis and personalized treatments. The conjugation of QDs with biologically relevant molecules can provide versatile nanotools for untangling cell mechanisms and biomarker patterns, thereby advancing the knowledge of cancer biology. This review illustrates the multifaceted capabilities of QDs, particularly in cancer research, drawing from applications at cell and tissue levels involving their conjugation with (i) low molecular weight molecules (e.g., folic acid, boronic acid, and glucose analog), (ii) macromolecules (e.g., holo-transferrin, lectins, and protease inhibitor), and (iii) optical-magnetic nanosystems combining QDs with superparamagnetic iron oxide NPs and holo-transferrin. The review also brings an overview of the fundamentals of QDs and strategies for their conjugation. By synthesizing findings from a range of studies, we hope that this review inspires new applications of QD-based conjugates in cancer biology, gathering knowledge and contributing to developing enhanced diagnostic and therapeutic procedures for this disease.
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subjects Animals
Biosensing Techniques - methods
Cancer cells
Conjugation
Fluorescence
Humans
Nanoparticles
Nanotechnology - methods
Neoplasms - diagnosis
Neoplasms - therapy
Quantum Dots - chemistry
Tissues
title Quantum dot-based conjugates: Luminous nanotools for cancer research
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