Molecular imaging of tumour‐associated pathological biomarkers with smart nanoprobe: From “Seeing” to “Measuring”

Zhang, Peisen; Li, Wenyue; Liu, Chuang; Qin, Feng; Lu, Yijie; Qin, Meng; Hou, Yi

doi:10.1002/exp.20230070

Cited by 8 publications

(2 citation statements)

References 153 publications

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“…Utilization of lipid-based nanomaterials will make the repurposed drug more efficient and safe. In the meantime, there is an urgent need for a rapid, high-accuracy tool for lipid-based theranostics to address cancer resistance [ 145 , 146 ] . NanoBodipy, a nitroreductase-responsive dye, was recently invented as a smart optical nanoprobe for non-invasive and real-time tumor-targeted imaging.…”

Section: Perspectivesmentioning

confidence: 99%

Recent advanced lipid-based nanomedicines for overcoming cancer resistance

Dechbumroong,

Hu,

Keaswejjareansuk

et al. 2024

Cancer Drug Resist

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The increasing prevalence of cancer drug resistance not only critically limits the efficiency of traditional therapies but also causes relapses or recurrences of cancer. Consequently, there remains an urgent need to address the intricate landscape of drug resistance beyond traditional cancer therapies. Recently, nanotechnology has played an important role in the field of various drug delivery systems for the treatment of cancer, especially therapy-resistant cancer. Among advanced nanomedicine technologies, lipid-based nanomaterials have emerged as effective drug carriers for cancer treatment, significantly improving therapeutic effects. Due to their biocompatibility, simplicity of preparation, and potential for functionalization, lipid-based nanomaterials are considered powerful competitors for resistant cancer. In this review, an overview of lipid-based nanomaterials for addressing cancer resistance is discussed. We summarize the recent progress in overcoming drug resistance in cancer by these lipid-based nanomaterials, and highlight their potential in future applications to reverse cancer resistance.

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Section: Perspectivesmentioning

confidence: 99%

Recent advanced lipid-based nanomedicines for overcoming cancer resistance

Dechbumroong,

Hu,

Keaswejjareansuk

et al. 2024

Cancer Drug Resist

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“…Artificial biomimetic nanomaterials with enzyme-like activities (i.e., nanozymes) have attracted great concern owing to their superiority to surmount natural enzymes’ limitations like high cost and low stability. − To date, a sea of nanozymes have been reported and used for diverse applications especially colorimetric sensors. − However, different from natural enzymes with pocket-like structures to bind highly to targets, most nanozymes lack such specific recognition abilities and are thus only limited to the assays of H 2 O 2 -producing analytes, which seriously hinders their practical applications. − Therefore, the development of highly selective nanozymes has become crucial to broaden the variety of the analytes. Various strategies have been proposed to endow nanozymes with a specific recognition ability.…”

Section: Introductionmentioning

confidence: 99%

Molecular Network-Bearing Fe–N–C Single-Atom Nanozymes for Monitoring Intracellular Glutathione Fluctuations

Cai,

Chen,

Zhu

et al. 2024

ACS Appl. Nano Mater.

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Nanozymes have drawn much attention owing to their low cost and high stability compared with natural enzymes. However, limited specificity intrinsically presents a challenge to their efficiency in sensing applications. Although specific biorecognition units and molecularly imprinted polymers have been introduced to enhance the specificity of nanozymes, they have some shortcomings like poor stability, high cost, complicated operation, and weakened activity. To address these issues, we developed here a simple and efficient surface engineering strategy to build the target-responsive sensing interface by weaving a molecular network on nanozymes to afford a pocket-like structure. Glutathione (GSH), an important intracellular biothiol, was used as the model target, considering the difficulty in distinguising GSH from other biothiols, especially cysteine (Cys) and homocysteine (Hcy). With high-performance single-atom nanozyme (SAzyme) Fe–N–C as the parent nanozyme, a meshy SAzyme Fe/PSAs-DTSSP containing GSH-cleavable disulfide bonds was fabricated via facile surface modification. Interestingly, the molecular network adhered onto the Fe–N–C surface modulated the peroxidase-like properties, including substrate affinity and catalytic stability under harsh conditions. Moreover, the molecular network could specifically respond to GSH over Cys, Hcy, and other interferents, which suppressed the oxidation of the chromogenic substrate 3,3′,5,5′-tetramethylbenzidine (TMB) due to the reversion of the surface charge property of Fe/PSAs-DTSSP, resulting in a sensitive response identified by the naked eye. The usefulness of this assay was validated by monitoring the fluctuation of the GSH level in cancer cells treated with glucose deprivation or incubated with doxorubicin, showing good accuracy and reliability.

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A Tumor‐Activatable Liposomal Nanoprobe for Selective Visualization of Metastatic Lymph Nodes

Cui,

Xia,

Liu

et al. 2024

Adv Healthcare Materials

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The precise identification of sentinel lymph nodes (SLNs) during surgery and assessment of their benign status is crucial for accurate tumor staging and optimal treatment strategizing. Currently, a deficiency exists in non‐invasive in vivo diagnostic techniques that can accurately pinpoint SLNs during surgery while simultaneously evaluating their benign status. Here, a tumor‐activatable liposomal nanoprobe (nTAL) is developed, remotely loaded with clinically approved photosensitizer, methyl aminolevulinate (MAL), to noninvasively visualize the tumor metastasis lymph nodes (LNs) with precision. Benefited from the highly efficient LNs draining of nanosized liposome and tumor cell‐specific transformation of the non‐fluorescent MAL to fluorescent protoporphyrin IX (PPIX), nTAL succeeded in targeting the SLNs and differentiated the metastatic from the benign ones with a positive correlation between PPIX generation and tumor cell infiltration in LNs. Moreover, the nTAL technology is capable of probing the early metastatic stage with a primary tumor size of 50 mm3. This study provides a new strategy for intraoperative visualization of real‐time sentinel node dissection.

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Molecular imaging of tumour‐associated pathological biomarkers with smart nanoprobe: From “Seeing” to “Measuring”

Cited by 8 publications

References 153 publications

Recent advanced lipid-based nanomedicines for overcoming cancer resistance

Recent advanced lipid-based nanomedicines for overcoming cancer resistance

Molecular Network-Bearing Fe–N–C Single-Atom Nanozymes for Monitoring Intracellular Glutathione Fluctuations

A Tumor‐Activatable Liposomal Nanoprobe for Selective Visualization of Metastatic Lymph Nodes

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