Phosphorylcholine-conjugated gold-molecular clusters improve signal for Lymph Node NIR-II fluorescence imaging in preclinical cancer models

Baghdasaryan, Ani; Wang, Feifei; Ren, Fuqiang; Ma, Zhuoran; Li, Jiachen; Zhou, Xueting; Grigoryan, L. A.; Xu, Chun; Dai, Hongjie

doi:10.1038/s41467-022-33341-6

Cited by 48 publications

(66 citation statements)

References 78 publications

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“…Considering that (i) the Au 1 Ag 24 (SR) 18 nanocluster was composed of an icosahedral Au 1 Ag 12 kernel that was wrapped by six identical Ag 2 (SR) 3 dimeric motif structures and (ii) both Au 1 Ag 24 (SR) 18 and Au 1 Ag 30 (SR) 20 clusters contained the same Au 1 Ag 12 kernel, we proposed that the introduced Ag-SR complexes induced the assembly of the peripheral motif structures of Au 1 Ag 24 (SR) 18 while retaining its Au 1 Ag 12 kernel. Accordingly, some cluster intermediates should exist during the transformation from Au 1 Ag 24 (SR) 18 to Au 1 Ag 30 (SR) 20 . However, given the rapid conversion from Au 1 Ag 24 (SR) 18 to Au 1 Ag 30 (SR) 20 (within 1 min) and the heterogeneous reaction between Au 1 Ag 24 (SR) 18 and Ag-SR complexes (insolubility of Ag-SR complexes), the intermediates were extremely difficult to monitor.…”

Section: ■ Results and Discussionmentioning

confidence: 99%

“…Accordingly, some cluster intermediates should exist during the transformation from Au 1 Ag 24 (SR) 18 to Au 1 Ag 30 (SR) 20 . However, given the rapid conversion from Au 1 Ag 24 (SR) 18 to Au 1 Ag 30 (SR) 20 (within 1 min) and the heterogeneous reaction between Au 1 Ag 24 (SR) 18 and Ag-SR complexes (insolubility of Ag-SR complexes), the intermediates were extremely difficult to monitor. In addition, the reaction between Au 1 Ag 24 (SR) 18 and Ag-SR was challenging to terminate since the solid-state complex continually interacted with the Au 1 Ag 24 (SR) 18 cluster even after termination of the reaction.…”

Section: ■ Results and Discussionmentioning

confidence: 99%

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Slice Visualization for Imaging Nanocluster Transformations

Wei

et al. 2023

J. Am. Chem. Soc.

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Metal nanoclusters have served as an emerging class of modular nanomaterials. Several efficient strategies have been proposed for transforming cluster precursors into new nanoclusters with customized structures and enhanced performance. However, such nanocluster transformations have still been in a “blind box” state, meaning that the existing intermediates were hard to track with atomic precision. Herein, we present a “slice visualization” approach for in-depth imaging of the nanocluster transformation from Au1Ag24(SR)18 to Au1Ag30(SR)20. With this approach, two cluster intermediates, namely, Au1Ag26(SR)19 and Au1Ag28(SR)20, were monitored with atomic precision. The four nanoclusters constituted a correlated Au1Ag24+2n (n = 0, 1, 2, and 3) cluster series with comparable structural featuresthe same Au1Ag12 icosahedral kernel but evolutionary peripheral motif structures. The mechanism of nanocluster structure growth was mapped in detailinsertion of Ag2(SR)1 or Ag-induced assembly of surface subunits. The presented “slice visualization” approach not only contributes an ideal cluster platform for in-depth investigations of structure–property correlations but also hopefully acts as a powerful means for obtaining clear information on nanocluster structure evolution.

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Section: ■ Results and Discussionmentioning

confidence: 99%

Section: ■ Results and Discussionmentioning

confidence: 99%

Slice Visualization for Imaging Nanocluster Transformations

Wei

et al. 2023

J. Am. Chem. Soc.

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“…With the improvement of detector performance and the development of new fluorescent probes, in vivo NIR-II fluorescence imaging has become a research hotspot ( Li et al, 2022a ; Baghdasaryan et al, 2022 ; Niu et al, 2022 ; Xu et al, 2022 ; Liu et al, 2023 ). The first in-vivo NIR-II fluorescence imaging was achieved by Hongjie Dai in 2009 ( Welsher et al, 2009 ).…”

Section: Introductionmentioning

confidence: 99%

Recent progress of second near-infrared (NIR-II) fluorescence microscopy in bioimaging

Chen¹,

Wang²,

Wu³

2023

Front. Physiol.

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Visualizing biological tissues in vivo at a cellular or subcellular resolution to explore molecular signaling and cell behaviors is a crucial direction for research into biological processes. In vivo imaging can provide quantitative and dynamic visualization/mapping in biology and immunology. New microscopy techniques combined with near-infrared region fluorophores provide additional avenues for further progress in vivo bioimaging. Based on the development of chemical materials and physical optoelectronics, new NIR-II microscopy techniques are emerging, such as confocal and multiphoton microscopy, light-sheet fluorescence microscopy (LSFM), and wide-field microscopy. In this review, we introduce the characteristics of in vivo imaging using NIR-II fluorescence microscopy. We also cover the recent advances in NIR-II fluorescence microscopy techniques in bioimaging and the potential for overcoming current challenges.

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“…3 Therefore, sentinel lymph node imaging and biopsy is important for the clinical assessment of cancer metastasis. 4 Lymphadenectomy is the surgical removal of the sentinel lymph node or more lymph nodes that can support accurate staging and evaluation of metastasis. 5 Pre-operative identification of metastatic lymph nodes will avoid unnecessary lymph node dissection, significantly shorten the operation time, and reduce postoperative complications.…”

Section: Introductionmentioning

confidence: 99%

“…4 Lymphadenectomy is the surgical removal of the sentinel lymph node or more lymph nodes that can support accurate staging and evaluation of metastasis. 5 Pre-operative identification of metastatic lymph nodes will avoid unnecessary lymph node dissection, significantly shorten the operation time, and reduce postoperative complications. 6 Therefore, it is essential to find better materials and more preferred imaging methods to detect lymph nodes.…”

Section: Introductionmentioning

confidence: 99%