A dual functional liposome specifically targets melanoma cells through integrin and ephrin receptors

Abstract Background The formation of blood vessels within solid tumors directly contributes to cancer growth and metastasis. Until recently, tumor vasculature was thought to occur exclusively via endothelial cell (EC) lined structures (i.e. angiogenesis), but a second source of tumor vasculature arises from the cancer cells themselves, a process known as vasculogenic mimicry (VM). While it is generally understood that the function of VM vessels is the same as that of EC-lined vessels (i.e. to supply oxygen and nutrients to the proliferating cancer cells), the molecular mechanisms underpinning VM are yet to be fully elucidated. Methods Human VM-competent melanoma cell lines were examined for their VM potential using the in vitro angiogenesis assays (Matrigel), together with inhibition studies using small interfering RNA and blocking monoclonal antibodies. Invasion assays and adhesion assays were used to examine cancer cell function. Results Herein we demonstrate that CD36, a cell surface glycoprotein known to promote angiogenesis by ECs, also supports VM formation by human melanoma cancer cells. In silico analysis of CD36 expression within the melanoma cohort of The Cancer Genome Atlas suggests that melanoma patients with high expression of CD36 have a poorer clinical outcome. Using in vitro ‘angiogenesis’ assays and CD36-knockdown approaches, we reveal that CD36 supports VM formation by human melanoma cells as well as adhesion to, and invasion through, a cancer derived extracellular matrix substrate. Interestingly, thrombospondin-1 (TSP-1), a ligand for CD36 on ECs that inhibits angiogenesis, has no effect on VM formation. Further investigation revealed a role for laminin, but not collagen or fibronectin, as ligands for CD36 expressing melanoma cells. Conclusions Taken together, this study suggests that CD36 is a novel regulator of VM by melanoma cancer cells that is facilitated, at least in part, via integrin-α3 and laminin. Unlike angiogenesis, VM is not perturbed by the presence of TSP-1, thus providing new information on differences between these two processes of tumor vascularization which may be exploited to combat cancer progression.

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Capsaicin Exerts Therapeutic Effects by targeting tNOX-SIRT1 Axis and Augmenting ROS-Dependent Cytotoxic Autophagy in Melanoma Cancer Cells

10.21203/rs.3.rs-117713/v1 ◽

2020 ◽

Author(s):

Atikul Islam ◽

Pei-Fang Hsieh ◽

Jou-Chun Chou ◽

Jiunn-Wang Liao ◽

Ming-Kun Hsieh ◽

...

Keyword(s):

Malignant Melanoma ◽

Cancer Cells ◽

Nadh Oxidase ◽

Treatment Options ◽

Melanoma Cells ◽

Therapeutic Effects ◽

Melanoma Cancer ◽

Anticancer Properties

Abstract Background: Although considered a rare form of skin cancer, malignant melanoma has steadily increased internationally and is a main cause of cancer-associated death worldwide. The treatment options for malignant melanoma are very limited. Accumulating data suggest that the natural compound, capsaicin, exhibits preferential anticancer properties to act as a nutraceutical agent. Here, we explored the underlying molecular events involved in the inhibitory effects of capsaicin on the growth of melanoma cells.Methods: The cellular thermal shift assay (CETSA) and isothermal dose response fingerprint (ITDRFCETSA) were utilized to validate the binding of capsaicin with the tumor-associated NADH oxidase, tNOX (ENOX2) in melanoma cells. We also assessed the cellular impact of capsaicin-targeting of tNOX on A375 cells by flow cytometry and protein analysis. The essential role of tNOX in tumor- and melanoma-growth limiting abilities of capsaicin was evaluated in C57BL/6 mice.Results: Our data show that capsaicin directly targets cellular tNOX to inhibit its enzymatic activity and enhance protein degradation capacity. The inhibition of tNOX by capsaicin is accompanied by the attenuation of SIRT1, a NAD+-dependent deacetylase that enhances ULK1 acetylation to induce ROS-dependent autophagy in melanoma cells. Capsaicin treatment of mice implanted with melanoma cancer cells suppressed tumor growth by down-regulating tNOX and SIRT1, which was also seen in an in vivo xenograft study with tNOX-depleted melanoma cells. Conclusions: Together, our findings suggest that tNOX expression is important for the growth of melanoma cancer cells both in vitro and in vivo, and that inhibition of the tNOX-SIRT1 axis contributes to inducting cytotoxic ROS-dependent autophagy in melanoma cells.

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CD36 Promotes Vasculogenic Mimicry in Melanoma by Mediating Adhesion to the Extracellular Matrix

10.21203/rs.3.rs-531244/v1 ◽

2021 ◽

Author(s):

Carmela Martini ◽

Mark DeNichilo ◽

Danielle P. King ◽

Michaelia P. Cockshell ◽

Brenton Ebert ◽

...

Keyword(s):

Extracellular Matrix ◽

Cancer Cells ◽

Molecular Mechanisms ◽

Vasculogenic Mimicry ◽

Tumor Vasculature ◽

Melanoma Cells ◽

Human Melanoma ◽

Cell Surface Glycoprotein ◽

Melanoma Cancer

Abstract Background: The formation of blood vessels within solid tumors directly contributes to cancer growth and metastasis. Until recently, tumor vasculature was thought to occur exclusively via endothelial cell (EC) lined structures (i.e. angiogenesis), but a second source of tumor vasculature arises from the cancer cells themselves, a process known as vasculogenic mimicry (VM). While it is generally understood that the function of VM vessels is the same as that of EC-lined vessels (i.e. to supply oxygen and nutrients to the proliferating cancer cells), the molecular mechanisms underpinning VM are yet to be fully elucidated. Methods: Human VM-competent melanoma cell lines were examined for their VM potential using the in vitro angiogenesis assays (Matrigel), together with inhibition studies using small interfering RNA and blocking monoclonal antibodies. Invasion assays and adhesion assays were used to examine cancer cell function. Results: Herein we demonstrate that CD36, a cell surface glycoprotein known to promote angiogenesis by ECs, also supports VM formation by human melanoma cancer cells. In silico analysis of CD36 expression within the melanoma cohort of The Cancer Genome Atlas suggests that melanoma patients with high expression of CD36 have a poorer clinical outcome. Using in vitro ‘angiogenesis’ assays and CD36-knockdown approaches, we reveal that CD36 supports VM formation by human melanoma cells as well as adhesion to, and invasion through, a cancer derived extracellular matrix substrate. Interestingly, thrombospondin-1 (TSP-1), a ligand for CD36 on ECs that inhibits angiogenesis, has no effect on VM formation. Further investigation revealed a role for laminin, but not collagen or fibronectin, as ligands for CD36 expressing melanoma cells. Conclusions: Taken together, this study suggests that CD36 is a novel regulator of VM by melanoma cancer cells that is facilitated, at least in part, via integrin-a3 and laminin. Unlike angiogenesis, VM is not perturbed by the presence of TSP-1, thus providing new information on differences between these two processes of tumor vascularization which may be exploited to combat cancer progression.

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Single-chain antibody-decorated Au nanocages@liposomal layer nanoprobes for targeted SERS imaging and remote-controlled photothermal therapy of melanoma cancer cells

Materials Science and Engineering C ◽

10.1016/j.msec.2021.112086 ◽

2021 ◽

Vol 124 ◽

pp. 112086

Author(s):

Ghazal Farahavar ◽

Samira Sadat Abolmaali ◽

Foroogh Nejatollahi ◽

Amin Safaie ◽

Sanaz Javanmardi ◽

...

Keyword(s):

Cancer Cells ◽

Photothermal Therapy ◽

Single Chain ◽

Single Chain Antibody ◽

Melanoma Cancer ◽

Sers Imaging

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B16 Melanoma Cancer Cells with Higher Metastatic Potential are More Deformable at a Whole-Cell Level

Cellular and Molecular Bioengineering ◽

10.1007/s12195-021-00677-w ◽

2021 ◽

Author(s):

Yoshihiro Ujihara ◽

Daichi Ono ◽

Koki Nishitsuji ◽

Megumi Ito ◽

Shukei Sugita ◽

...

Keyword(s):

Cancer Cells ◽

Metastatic Potential ◽

B16 Melanoma ◽

Cell Level ◽

Whole Cell ◽

Melanoma Cancer

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Utilizing Edible Agar as a Carrier for Dual Functional Doxorubicin-Fe3O4 Nanotherapy Drugs

Materials ◽

10.3390/ma14081824 ◽

2021 ◽

Vol 14 (8) ◽

pp. 1824

Author(s):

Yu-Jyuan Wang ◽

Pei-Ying Lin ◽

Shu-Ling Hsieh ◽

Rajendranath Kirankumar ◽

Hsin-Yi Lin ◽

...

Keyword(s):

Cancer Cells ◽

Drug Carrier ◽

Fluorescent Microscopy ◽

Controlled Drug Release ◽

Human Colon ◽

Multiple Drug ◽

Human Colon Cancer ◽

Dual Functional ◽

Heating Capacity ◽

Short Period

The purpose of this study was to use agar as a multifunctional encapsulating material to allow drug and ferromagnetism to be jointly delivered in one nanoparticle. We successfully encapsulated both Fe3O4 and doxorubicin (DOX) with agar as the drug carrier to obtain DOX-Fe3O4@agar. The iron oxide nanoparticles encapsulated in the carrier maintained good saturation of magnetization (41.9 emu/g) and had superparamagnetism. The heating capacity test showed that the specific absorption rate (SAR) value was 18.9 ± 0.5 W/g, indicating that the ferromagnetic nanoparticles encapsulated in the gel still maintained good heating capacity. Moreover, the magnetocaloric temperature could reach 43 °C in a short period of five minutes. In addition, DOX-Fe3O4@agar reached a maximum release rate of 85% ± 3% in 56 min under a neutral pH 7.0 to simulate the intestinal environment. We found using fluorescent microscopy that DOX entered HT-29 human colon cancer cells and reduced cell viability by 66%. When hyperthermia was induced with an auxiliary external magnetic field, cancer cells could be further killed, with a viability of only 15.4%. These results show that agar is an efficient multiple-drug carrier, and allows controlled drug release. Thus, this synergic treatment has potential application value for biopharmaceutical carrier materials.

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In PC3 prostate cancer cells ephrin receptors crosstalk to β1-integrins to strengthen adhesion to collagen type I

Scientific Reports ◽

10.1038/srep08206 ◽

2015 ◽

Vol 5 (1) ◽

Cited By ~ 13

Author(s):

Miao Yu ◽

Jinghe Wang ◽

Daniel J. Muller ◽

Jonne Helenius

Keyword(s):

Prostate Cancer ◽

Cancer Cells ◽

Collagen Type ◽

Collagen Type I ◽

Type I ◽

Prostate Cancer Cells ◽

Ephrin Receptors ◽

Β1 Integrins

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Indirect Cold Atmospheric Pressure Plasma treatment on Melanoma and Fibroblast Cells

Letters in Applied NanoBioScience ◽

10.33263/lianbs102.21172125 ◽

2020 ◽

Vol 10 (2) ◽

pp. 2117-2125

Keyword(s):

Plasma Treatment ◽

Cancer Cells ◽

Culture Medium ◽

Atmospheric Pressure Plasma ◽

Control Group ◽

Fibroblast Cells ◽

Alizarin Red ◽

Migration Assay ◽

Melanoma Cancer

Cold atmosphere plasma has been shown as a promising technology for certain cancer treatments. In this paper, we report indirect plasma treatment using CAP discharged in cell culture medium and study the effect of identical plasma stimulated culture medium on melanoma cancer cells and fibroblast cells cultured in vitro. The results of MTT assay, migration assay, ROS detection, and alizarin red assay show that plasma-treated medium can have a strong negative effect on melanoma cancer cells compared with the control group. However, the plasma-treated medium has a less cytotoxic effect on fibroblast cells than that on melanoma cancer cells at the same treatment. This result is attributed to the production of reactive oxygen species in the plasma-treated medium to induce apoptosis and inhibit melanoma cell proliferation and further cell metastasis. According to the results, this study shows the potential of CAP plasma treatment for anti-cancer therapy.

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