Ultrasmall gold nanorods: synthesis and glycocalyx-related permeability in human endothelial cells

Cheng, Ming; Bal, Nandita N.; Prabakaran, Priya; Kumar, Rajiv; Webster, Thomas J.; Sridhar, Srinivas; Ebong, Eno E.

doi:10.2147/ijn.s184455

Cited by 13 publications

(13 citation statements)

References 61 publications

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“…For example, in critical control experiments, we have confirmed that untreated human umbilical vein endothelial cells (HUVEC; Figure a) highly express GCX components such as those targeted by WGA (Figure b) (Mensah et al, manuscript in review), similar to what we observed in healthy RFPEC (Figure e,f). Other GCX components such as HS show low expression (Figure c) in HUVEC, particularly in the absence of physiological flow stimulation, which is usually required for in vitro human EC studies of the GCX . This was contrary to what we observed in RFPEC where HS expression was prominent without flow stimulation (Figure g).…”

Section: Discussioncontrasting

confidence: 78%

Metastatic cancer cell attachment to endothelium is promoted by endothelial glycocalyx sialic acid degradation

et al. 2019

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While it is known that cancer cell interactions with vascular endothelial cells (ECs) drive metastatic cancer cell extravasation from blood vessels into secondary tumor sites, the mechanisms of action are still poorly understood. Here, we tested the hypothesis that neuraminidase‐induced degradation of EC surface glycocalyx (GCX), particularly the sialic acid (SA) residue components of the GCX, will substantially increase metastatic cancer cell attachment to ECs. To our knowledge, our study is the first to isolate the role of GCX SA residues in cancer cell attachment to the endothelium, which were found to be differentially affected by the presence of neuraminidase and to indeed regulate metastatic cancer cell homing to ECs. We hope that this work will eventually translate to identification of EC GCX‐based cancer markers that can be therapeutically targeted to hinder the progression of metastasis.

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Section: Discussioncontrasting

confidence: 78%

Metastatic cancer cell attachment to endothelium is promoted by endothelial glycocalyx sialic acid degradation

et al. 2019

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“…However, the low yield and unsatisfied size of GNRs synthesized in this original way make it inappropriate for applications (Scarabelli et al, 2015;Allen et al, 2017), so there appears an endless stream of improvements in accordance with the requirements based on GNRs applications in PTT. GNRs suitable for PTT require good monodispersity, small size (An et al, 2017;Cheng et al, 2019), anisotropy, no toxicity, and the need to be produced in high yields. To obtain ideal GNRs, previous studies have discussed the influence of various factors on the synthesis process (Scarabelli et al, 2015) and adopted different improvement methods, including silver-assisted seeded growth (Nikoobakht and El-Sayed 2003), using CTAB-capped seeds instead of citrate-capped ones, etc., which can help grow GNRs to the desired length (He et al, 2017).…”

Section: Seedless Methodsmentioning

confidence: 99%

“…Larger GNRs represent the higher scattering/absorption ratio, allowing scattering-based applications, such as imaging, whereas smaller GNRs exhibit great potential in PTT toward tumors due to their comparably larger absorption cross-sections. However, traditional synthesis methods of ultrasmall GNRs, by increasing the concentration of seeds added in the growth solution, show a lot of inevitable problems, such as the decreased growth yield and the more by-products, such as nanospheres (Tatini et al, 2014;Chang and Murphy 2018;Cheng et al, 2019;Mbalaha et al, 2019). Therefore, new synthesis strategies of small-sized GNRs should be put forward as soon as possible.…”

Section: Control the Size And Shapementioning

confidence: 99%

Improvement of Gold Nanorods in Photothermal Therapy: Recent Progress and Perspective

et al. 2021

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Cancer is a life-threatening disease, and there is a significant need for novel technologies to treat cancer with an effective outcome and low toxicity. Photothermal therapy (PTT) is a noninvasive therapeutic tool that transports nanomaterials into tumors, absorbing light energy and converting it into heat, thus killing tumor cells. Gold nanorods (GNRs) have attracted widespread attention in recent years due to their unique optical and electronic properties and potential applications in biological imaging, molecular detection, and drug delivery, especially in the PTT of cancer and other diseases. This review summarizes the recent progress in the synthesis methods and surface functionalization of GNRs for PTT. The current major synthetic methods of GNRs and recently improved measures to reduce toxicity, increase yield, and control particle size and shape are first introduced, followed by various surface functionalization approaches to construct a controlled drug release system, increase cell uptake, and improve pharmacokinetics and tumor-targeting effect, thus enhancing the photothermal effect of killing the tumor. Finally, a brief outlook for the future development of GNRs modification and functionalization in PTT is proposed.

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“…ECs are covered by endothelial glycocalyx (GCX), which is a complex sugar coat. Due to its unique position, the GCX lines the luminal side of blood vessels and plays an essential role as a vasculoprotective barrier . While there have been numerous studies focusing on DF‐induced endothelial dysfunction, only a few studies have paid attention to DF regulation of the GCX structure and function despite its importance in vascular homeostasis.…”

Section: Introductionmentioning

confidence: 99%

Flow‐regulated endothelial glycocalyx determines metastatic cancer cell activity

et al. 2020

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Cancer metastasis and secondary tumor initiation largely depend on circulating tumor cell (CTC) and vascular endothelial cell (EC) interactions by incompletely understood mechanisms. Endothelial glycocalyx (GCX) dysfunction may play a significant role in this process. GCX structure depends on vascular flow patterns, which are irregular in tumor environments. This work presents evidence that disturbed flow (DF) induces GCX degradation, leading to CTC homing to the endothelium, a first step in secondary tumor formation. A 2‐fold greater attachment of CTCs to human ECs was found to occur under DF conditions, compared to uniform flow (UF) conditions. These results corresponded to an approximately 50% decrease in wheat germ agglutinin (WGA)‐labeled components of the GCX under DF conditions, vs UF conditions, with undifferentiated levels of CTC‐recruiting E‐selectin under DF vs UF conditions. Confirming the role of the GCX, neuraminidase induced the degradation of WGA‐labeled GCX under UF cell culture conditions or in Balb/C mice and led to an over 2‐fold increase in CTC attachment to ECs or Balb/C mouse lungs, respectively, compared to untreated conditions. These experiments confirm that flow‐induced GCX degradation can enable metastatic CTC arrest. This work, therefore, provides new insight into pathways of secondary tumor formation.

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Ultrasmall gold nanorods: synthesis and glycocalyx-related permeability in human endothelial cells

Cited by 13 publications

References 61 publications

Metastatic cancer cell attachment to endothelium is promoted by endothelial glycocalyx sialic acid degradation

Metastatic cancer cell attachment to endothelium is promoted by endothelial glycocalyx sialic acid degradation

Improvement of Gold Nanorods in Photothermal Therapy: Recent Progress and Perspective

Flow‐regulated endothelial glycocalyx determines metastatic cancer cell activity

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