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. 2024 Jun 12;10(12):e32863.
doi: 10.1016/j.heliyon.2024.e32863. eCollection 2024 Jun 30.

Impacts of designed vanillic acid-polymer-magnetic iron oxide nanocomposite on breast cancer cells

Farahnaz Barahuie  1 Dena Dorniani  2 Bullo Saifullah  3 Palanisamy Arulselvan  4 Mohd Zobir Hussein  5 Ravindran Jaganathan  6 Fawzi Mohamed Amin El-Fagaih  7 Ariyati Retno Pratiwi  5
Affiliations

Impacts of designed vanillic acid-polymer-magnetic iron oxide nanocomposite on breast cancer cells

Farahnaz Barahuie et al. Heliyon. .

Abstract

The engineered nano-vehicle was constructed using magnetic iron oxide nanoparticles (MIONs) and chitosan (CTS) to stabilize anticancer agent vanillic acid (VNA) which was loaded on CTS-coated MIONs nanocarrier, and more importantly, to achieve sustained VNA release and subsequent proper anticancer activity. The new thermally stable VNA-CTS- MIONs nanocomposite was spherical with a middle diameter of 6 nm and had a high drug loading of about 11.8 %. The MIONs and resulting nanocomposite were composed of pure magnetite and therefore, were superparamagnetic with saturation magnetizations of 53.3 and 45.7 emu.g-1, respectively. The release profiles of VNA from VNA-CTS-MIONs nanocomposite in different pH values were sustained and showed controlled pH-responsive delivery of the loaded VNA with 89 % and 74 % percentage release within 2354 and 4046 min at pH 5 and 7.4, respectively, as well as were in accordance with the pseudo-second-order model. The VNA-CTS-MIONs nanocomposite treatment at diverse concentrations remarkably decreased the viability and promoted ROS accumulation and apoptosis in the MDA-MB-231 breast cancer cells. Hence, it can be a propitious candidate for the management of breast cancer in the future.

Keywords: Anticancer nano-delivery; Breast cancer; Chitosan; Nanocomposite; Vanillic acid.

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Conflict of interest statement

The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper.

Figures

Fig. 1
Fig. 1
Process description of MIONs, CTS-MIONs, and VNA-CTS-MIONs nanocomposite production.
Fig. 2
Fig. 2
XRD spectra of MIONs (A), VNA-CTS-MIONs nanocomposite (B), and VNA (C).
Fig. 3
Fig. 3
FTIR spectra of MIONs (A), CTS-MIONs (B), VNA-CTS-MIONs nanocomposite (C), and VNA (D).
Fig. 4
Fig. 4
Scheme illustrating of the interaction amid MIONs, CTS, and VNA in the VNA-CTS-MIONs.
Fig. 5
Fig. 5
TGA/DTG curves of VNA (A), MIONs (B), and VNA-CTS-MIONs (C).
Fig. 6
Fig. 6
Magnetization curves of MIONs (A) and VNA-CTS-MIONs nanocomposite (B) measured at room temperature. The inset shows the magnetic behaviour in low magnetic fields.
Fig. 7
Fig. 7
TEM images for MIONs (A) and VNA-CTS-MIONs (B), and particle size dispersal of MIONs (C) and VNA-CTS-MIONs (D).
Fig. 8
Fig. 8
Release curves of a physical mixture of VNA with CTS-MIONs at pH 7.4 and pH 5 (A) and release curves of VNA from VNA-CTS-MIONs at pH 7.4 and pH 5 (B).
Fig. 9
Fig. 9
Suiting of the data for VNA release from VNA-CTS-MIONs in diverse solutions to the first-order, pseudo-second order kinetics and parabolic diffusion model for pH 7.4 (A–C) and pH 5 (D–F).
Fig. 10
Fig. 10
Effect of VNA-CTS-MIONs nanocomposite on the MDA-MB-231 cell growth. The treatment with the diverse concentrations of VNA-CTS-MIONs (2.5–15 μg) was effectively diminished the MDA-MB-231 cell viability. Values are depicted as mean ± SD of triplicate assays.
Fig. 11
Fig. 11
Effect of VNA-CTS-MIONs nanocomposite on the ROS accumulation in the MDA-MB-231 cells. The VNA-CTS-MIONs nanocomposite and DOX treatment remarkably boosted the ROS buildup in the MDA-MB-231 cells.
Fig. 12
Fig. 12
Effect of VNA-CTS-MIONs on the apoptosis in breast cancer cells. The treatment with VNA-CTS-MIONs and DOX led to the high yellow/orange fluorescence that proves the increased occurrence of early and late apoptosis, respectively in the MDA-MB-231 cells. (For interpretation of the references to colour in this figure legend, the reader is referred to the Web version of this article.)
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