Your search keyword '"SENPs"' showing total 264 results

1. Green synthesis and characterization of selenium nanoparticles (Se NPs) from the skin (testa) of Pistacia vera L. (Siirt pistachio) and investigation of antimicrobial and anticancer potentials.

Author

Baran, Mehmet Fırat, Keskin, Cumali, Baran, Ayşe, Kurt, Kadri, İpek, Polat, Eftekhari, Aziz, Khalilov, Rovshan, Fridunbayov, Ismayil, and Cho, William C.

Abstract

Metallic nanoparticles created by ecologically friendly synthesis processes are becoming increasingly useful in a variety of applications. Because of their strong bioactive component qualities, biocompatible architectures, high stability, and low toxicity, green-produced selenium nanoparticles are particularly significant materials for various medicinal applications. Plants include a wealth of essential phytochemicals with therapeutic and medical capabilities. Pistachio vera L. (Siirt pistachio) is a seasonal fruit that is frequently consumed for its nutritional worth and health advantages. However, the outer colored skin of the P. vera (Siirt pistachio) fruit, which is not consumed, contains many biologically active compounds. In this study, plant-mediated synthesis of selenium nanoparticles (SeNPs) was successfully accomplished after adding the sodium selenite solution to the aqueous extract of P. vera colored skin waste. The synthesized Se NPs were characterized with UV–Vis, transmission electron microscopy (TEM), dynamic light scattering (DLS), zeta distribution, atomic force microscope (AFM), Fourier transform infrared spectrum (FTIR), thermogravimetric (TGA) and differential thermal analysis, X-ray diffraction (XRD), and energy-dispersive X-ray spectrum (EDX). Biogenic Pistacia vera (PV) PV-SeNPs were also tested for their ability to suppress the development of various pathogenic bacteria and cancerous cell lines. The UV-visible (UV–Vis) spectra revealed an absorption peak at 325 nm, which reflected the surface plasmon band. The significant selenium signal on the EDX spectrum at 1.5 keV confirmed the creation of Se NPs. The presence of several peaks on the FTIR spectrum of the aqueous extract of Pv and the nanoparticles indicated the presence of some important functional groups such as amines, carbonyl compounds, and phenols, which are important in facilitating the process of capping and bioreduction, as well as conferring stability to nanoparticles. The TEM microphotographs revealed that the nanoparticles were highly distributed, had a spherical morphological form, and were monodisperse below 10 nm. Biogenic Pv-SeNPs exhibited similar antimicrobial activity as standard antibiotics. However, it was determined that the cytotoxic activity of Se-NPs against cancer cell lines was quite high depending on the dose and time. As a result, the Pv-SeNPs are likely to be extremely beneficial in the pharmaceutical and cosmetic sectors, as well as in the food and cosmetic industries, in producing antimicrobial and/or anticancer medications. Graphical Abstract Of Green Synthesis, Characterization, And Biomedical Application of Pv-SeNPs [ABSTRACT FROM AUTHOR]

Published

2024

2. Optimization of fermentation parameters to improve the biosynthesis of selenium nanoparticles by Bacillus licheniformis F1 and its comprehensive application

Author

Zhangqian Wang, Nana Li, Xin Zhou, Shiya Wei, Ying Zhu, Mengjun Li, Jue Gong, Yi He, Xingxing Dong, Chao Gao, and Shuiyuan Cheng

Subjects

Bacillus licheniformis, Sodium selenite, SeNPs, RSM, Microbiology, QR1-502

Abstract

Abstract Background Selenium nanoparticles (SeNPs) are increasingly gaining attention due to its characteristics of low toxicity, high activity, and stability. Additionally, Bacillus licheniformis, as a probiotic, has achieved remarkable research outcomes in diverse fields such as medicine, feed processing, and pesticides, attracting widespread attention. Consequently, evaluating the activity of probiotics and SeNPs is paramount. The utilization of probiotics to synthesize SeNPs, achieving large-scale industrialization, is a current hotspot in the field of SeNPs synthesis and is currently the most promising synthetic method. To minimize production costs and maximize yield of SeNPs, this study selected agricultural by-products that are nutrient-rich, cost-effective, and readily available as culture medium components. This approach not only fulfills industrial production requirements but also mitigates the impact on downstream processes. Results The experimental findings revealed that SeNPs synthesized by B. licheniformis F1 exhibited a spherical morphology with diameters ranging from 110 to 170 nm and demonstrating high stability. Both the secondary metabolites of B. licheniformis F1 and the synthesized SeNPs possessed significant free radical scavenging ability. To provide a more robust foundation for acquiring large quantities of SeNPs via fermentation with B. licheniformis F1, key factors were identified through single-factor experiments and response surface methodology (RSM) include a 2% seed liquid inoculum, a temperature of 37 ℃, and agitation at 180 rpm. Additionally, critical factors during the optimization process were corn powder (11.18 g/L), soybean meal (10.34 g/L), and NaCl (10.68 g/L). Upon validating the optimized conditions and culture medium, B. licheniformis F1 can synthesize nearly 100.00% SeNPs from 5 mmol/L sodium selenite. Subsequently, pilot-scale verification in a 5 L fermentor using the optimized medium resulted in a shortened fermentation time, significantly reducing production costs. Conclusion In this study, the efficient production of SeNPs by the probiotic B. licheniformis F1 was successfully achieved, leading to a significant reduction in fermentation costs. The exploration of the practical applications of this strain holds significant potential and provides valuable guidance for facilitating the industrial-scale implementation of microbial synthesis of SeNPs.

Published

2024

3. Repair spinal cord injury with a versatile anti-oxidant and neural regenerative nanoplatform

Author

Heng Zhou, Ziwei Li, Shuili Jing, Ben Wang, Zhifei Ye, Wei Xiong, Yonghao Liu, Ye Liu, Chun Xu, Tushar Kumeria, Yan He, and Qingsong Ye

Subjects

SeNPs, SeNPs@ZIF-8, Spinal cord injury, Reactive oxygen species, Neural regeneration, Biotechnology, TP248.13-248.65, Medical technology, R855-855.5

Abstract

Abstract Spinal cord injury (SCI) often results in motor and sensory deficits, or even paralysis. Due to the role of the cascade reaction, the effect of excessive reactive oxygen species (ROS) in the early and middle stages of SCI severely damage neurons, and most antioxidants cannot consistently eliminate ROS at non-toxic doses, which leads to a huge compromise in antioxidant treatment of SCI. Selenium nanoparticles (SeNPs) have excellent ROS scavenging bioactivity, but the toxicity control problem limits the therapeutic window. Here, we propose a synergistic therapeutic strategy of SeNPs encapsulated by ZIF-8 (SeNPs@ZIF-8) to obtain synergistic ROS scavenging activity. Three different spatial structures of SeNPs@ZIF-8 were synthesized and coated with ferrostatin-1, a ferroptosis inhibitor (FSZ NPs), to achieve enhanced anti-oxidant and anti-ferroptosis activity without toxicity. FSZ NPs promoted the maintenance of mitochondrial homeostasis, thereby regulating the expression of inflammatory factors and promoting the polarization of macrophages into M2 phenotype. In addition, the FSZ NPs presented strong abilities to promote neuronal maturation and axon growth through activating the WNT4-dependent pathways, while prevented glial scar formation. The current study demonstrates the powerful and versatile bioactive functions of FSZ NPs for SCI treatment and offers inspiration for other neural injury diseases.

Published

2024

4. A review on selenium nanoparticles and their biomedical applications

Author

K.K. Karthik, Binoy Varghese Cheriyan, S. Rajeshkumar, and Meenaloshini Gopalakrishnan

Subjects

SeNPs, Se, Selenoproteins, Nanomedicine, Biological nanoparticles, Biotechnology, TP248.13-248.65, Medical technology, R855-855.5

Abstract

Nanotechnology has enormous promise for a wide range of applications in biology. Nanoparticles (NPs) have the benefit of improving bioactivity, decreasing toxicity, allowing for precision targeting, and modulating the release profile of encapsulated compounds. Nanomaterials' unique qualities, such as their tiny size, biocompatibility, and ability to cross cell membranes for drug administration, make them useful in a variety of biological applications. Selenium (Se), a critical trace element, stands out among these nanoparticles due to its specific bioactivities in nano forms. Selenium is incorporated into Selenoproteins such as selenocysteine (Sec), which play an important role in maintaining physiological redox balance via oxidoreductase activity, a critical enzymatic process. In the field of medication delivery, selenium-based devices have been designed to transport pharmaceuticals to specific locations. Selenium nanoparticles (SeNPs) appear to be a suitable platform for delivering medications to their desired sites. Selenium's medicinal potential has been thoroughly investigated, including its efficacy against various cancer cells, microbial pathogens, viral infections, neuroprotective properties, diabetic control, oxidative stress, and inflammation-mediated illnesses such as rheumatoid arthritis. Notably, due to selenium's extraordinary involvement in immune system regulation, SeNPs have an edge over other nanoparticles. SeNPs phytosynthesis offers an appealing alternative to standard physical and chemical processes, featuring biocompatibility and environmental friendliness. This paper gives an overview of SeNPs' biological uses and emphasizes recent advances in the field.

Published

2024

5. Optimization of fermentation parameters to improve the biosynthesis of selenium nanoparticles by Bacillus licheniformis F1 and its comprehensive application.

Author

Wang, Zhangqian, Li, Nana, Zhou, Xin, Wei, Shiya, Zhu, Ying, Li, Mengjun, Gong, Jue, He, Yi, Dong, Xingxing, Gao, Chao, and Cheng, Shuiyuan

Subjects

*BACILLUS licheniformis, *PROBIOTICS, *AGRICULTURAL wastes, *MICROBIOLOGICAL synthesis, *FERMENTATION, *SELENIUM, *BACILLUS amyloliquefaciens

Abstract

Background: Selenium nanoparticles (SeNPs) are increasingly gaining attention due to its characteristics of low toxicity, high activity, and stability. Additionally, Bacillus licheniformis, as a probiotic, has achieved remarkable research outcomes in diverse fields such as medicine, feed processing, and pesticides, attracting widespread attention. Consequently, evaluating the activity of probiotics and SeNPs is paramount. The utilization of probiotics to synthesize SeNPs, achieving large-scale industrialization, is a current hotspot in the field of SeNPs synthesis and is currently the most promising synthetic method. To minimize production costs and maximize yield of SeNPs, this study selected agricultural by-products that are nutrient-rich, cost-effective, and readily available as culture medium components. This approach not only fulfills industrial production requirements but also mitigates the impact on downstream processes. Results: The experimental findings revealed that SeNPs synthesized by B. licheniformis F1 exhibited a spherical morphology with diameters ranging from 110 to 170 nm and demonstrating high stability. Both the secondary metabolites of B. licheniformis F1 and the synthesized SeNPs possessed significant free radical scavenging ability. To provide a more robust foundation for acquiring large quantities of SeNPs via fermentation with B. licheniformis F1, key factors were identified through single-factor experiments and response surface methodology (RSM) include a 2% seed liquid inoculum, a temperature of 37 ℃, and agitation at 180 rpm. Additionally, critical factors during the optimization process were corn powder (11.18 g/L), soybean meal (10.34 g/L), and NaCl (10.68 g/L). Upon validating the optimized conditions and culture medium, B. licheniformis F1 can synthesize nearly 100.00% SeNPs from 5 mmol/L sodium selenite. Subsequently, pilot-scale verification in a 5 L fermentor using the optimized medium resulted in a shortened fermentation time, significantly reducing production costs. Conclusion: In this study, the efficient production of SeNPs by the probiotic B. licheniformis F1 was successfully achieved, leading to a significant reduction in fermentation costs. The exploration of the practical applications of this strain holds significant potential and provides valuable guidance for facilitating the industrial-scale implementation of microbial synthesis of SeNPs. [ABSTRACT FROM AUTHOR]

Published

2024

6. Ionomic Profile of Rice Seedlings after Foliar Application of Selenium Nanoparticles.

Author

Freire, Bruna Moreira, Lange, Camila Neves, Cavalcanti, Yasmin Tavares, Seabra, Amedea Barozzi, and Batista, Bruno Lemos

Subjects

BOTANY, PHOTOSYNTHETIC pigments, COPPER, RICE, PLANT growth, PLANT translocation

Abstract

Nanotechnology has been increasingly used in plant sciences, with engineered nanoparticles showing promising results as fertilizers or pesticides. The present study compared the effects in the foliar application of Se nanoparticles (SeNPs) or sodium selenite-Se(IV) on rice seedlings. The degree of plant growth, photosynthetic pigment content, and concentrations of Se, Na, Mg, K, Ca, Mn, Co, Cu, Zn, As, Cd, and Pb were evaluated. The results showed that the application of SeNPs at high concentrations (5 mg L−1), as well as the application of Se(IV), inhibited plant growth and increased the root concentrations of As and Pb. The application of SeNPs at 0.5 mg L−1 significantly increased Se accumulation in the aerial part from 0.161 ± 0.028 mg kg−1 to 0.836 ± 0.097 mg kg−1 without influencing physiological, chemical, or biochemical parameters. When applied to leaves, SeNPs tended to remain in the aerial part, while the application of Se(IV) caused a higher Se translocation from the shoots to the roots. This study provides useful information concerning the uptake, accumulation, and translocation of different Se formulations in rice seedlings and their effect on plant ionomic profiles, thus showing that the foliar application of SeNPs at low concentrations can be an effective and safe alternative for rice biofortification. [ABSTRACT FROM AUTHOR]

Published

2024

7. Antifouling efficiency of polymer coatings with SeNPs-loaded SiO2(rh)-PHMG composite as antimicrobial agent.

Author

Kharchenko, U., Beleneva, I., Arefieva, O., Egorkin, V., Izotov, N., Vyaliy, I., Nguyen, D. A., Sinebrukhov, S., and Gnedenkov, S.

Subjects

ENERGY dispersive X-ray spectroscopy, CONTACT angle, RICE hulls, MODULUS of elasticity, TRANSMISSION electron microscopy, EPOXY coatings

Abstract

Silica from rice husk [SiO2(rh)] was used as a mineral base for sequential loading of biogenic selenium nanoparticles (SeNPs) and polyhexamethylene guanidine (PHMG) hydrochloride. As result a filler for polymer coatings with a wide spectrum of antifouling activity was obtained. The complex filler was characterized by scanning electron microscopy, energy dispersive X-ray analysis, and transmission electron microscopy. The filler was introduced into epoxy (EP), polydimethylsiloxane (PDMS), and epoxy-siloxane (EP-PDMS) polymer matrices at 3 wt% and 5 wt% to evaluate their antifouling performance and effect on the durability characteristics of coatings. Characterization of the coatings was performed including water contact angle, surface free energy, pseudo-barnacle adhesion strength and modulus of elasticity. The in vitro antimicrobial properties of the prepared samples were evaluated using Staphylococcus aureus and Candida albicans. Antifouling properties were evaluated in field tests for 7 months. The incorporation of a complex filler involving SeNPs and PHMG made it possible to increase the coating resistance to fouling by 2–5 times. The best results were observed for the EP-PDMS sample with 5 wt% SiO2(rh)-SeNPs-PHMG characterized by low values of surface free energy (10.3 mN/m) and pseudo-barnacle adhesion strength (0.32 MPa) and acceptable rate of biocidal components release. The results indicate the promising use of the new filler for development of effective antifouling coatings. [ABSTRACT FROM AUTHOR]

Published

2024

8. Repair spinal cord injury with a versatile anti-oxidant and neural regenerative nanoplatform.

Author

Zhou, Heng, Li, Ziwei, Jing, Shuili, Wang, Ben, Ye, Zhifei, Xiong, Wei, Liu, Yonghao, Liu, Ye, Xu, Chun, Kumeria, Tushar, He, Yan, and Ye, Qingsong

Subjects

*SPINAL cord injuries, *REACTIVE oxygen species, *ANTIOXIDANTS, *NERVOUS system regeneration

Abstract

Spinal cord injury (SCI) often results in motor and sensory deficits, or even paralysis. Due to the role of the cascade reaction, the effect of excessive reactive oxygen species (ROS) in the early and middle stages of SCI severely damage neurons, and most antioxidants cannot consistently eliminate ROS at non-toxic doses, which leads to a huge compromise in antioxidant treatment of SCI. Selenium nanoparticles (SeNPs) have excellent ROS scavenging bioactivity, but the toxicity control problem limits the therapeutic window. Here, we propose a synergistic therapeutic strategy of SeNPs encapsulated by ZIF-8 (SeNPs@ZIF-8) to obtain synergistic ROS scavenging activity. Three different spatial structures of SeNPs@ZIF-8 were synthesized and coated with ferrostatin-1, a ferroptosis inhibitor (FSZ NPs), to achieve enhanced anti-oxidant and anti-ferroptosis activity without toxicity. FSZ NPs promoted the maintenance of mitochondrial homeostasis, thereby regulating the expression of inflammatory factors and promoting the polarization of macrophages into M2 phenotype. In addition, the FSZ NPs presented strong abilities to promote neuronal maturation and axon growth through activating the WNT4-dependent pathways, while prevented glial scar formation. The current study demonstrates the powerful and versatile bioactive functions of FSZ NPs for SCI treatment and offers inspiration for other neural injury diseases. [ABSTRACT FROM AUTHOR]

Published

2024

9. Environmentally friendly rapid green synthesis of SeNPs using grapefruit (Citrusparadisi) leaves extract, and their antimicrobial potential.

Author

BARAN, Ayşe

Subjects

*GRAPEFRUIT, *PLANT biomass, *ANTINEOPLASTIC agents, *ANTI-infective agents, *CANCER cells

Abstract

The utilisation of plant biomass in the production of nanoparticles is gaining popularity because of its associated benefits. Selenium nanoparticles (SeNPs) are highly valuable due to their involvement in numerous biological functions. In this study, SeNPs were rapidly synthesized using the environmentally friendly and low-cost green synthesis approach using Citrus paradisi (Grapefruit) leaves extract. The synthesized SeNPs were characterized using TEM, AFM, DLS, UV-vis, XRD, and EDX data. The data revealed that SeNPs had a spherical and uniform shape, with an average size of 45 nm, a surface charge of -20.54 mV, and a peak absorbance wavelength of 326 nm. The inhibitory impact of SeNPs on harmful strains and cancer cells was investigated using the microdilution method. The development of bacteria was effectively inhibited at concentrations ranging from 4 to 16 µg ml-1. [ABSTRACT FROM AUTHOR]

Published

2024

10. Selenium nanoparticles enhance the anti-tumor immune responses of anti-4-1BB antibody and alleviate the adverse effects on mice

Author

Lei zhang, Houru Liu, Jie Shen, Wenting Liu, Dahai Liu, Liansheng Cheng, and Bei Huang

Subjects

Lung tumor, Immunotherapy, Anti-4-1BB antibody, SeNPs, Biology (General), QH301-705.5, Medicine

Abstract

4-1BB agonists for cancer immunotherapy have shown good preliminary efficacy in clinical trials, but several of the first-generation 4-1BB agonistic antibodies entering the clinic have failed due to safety issues. Selenium nanoparticles (SeNPs) exhibit anti-inflammatory, anti-tumor, antioxidant, and immune-modulating properties. In addition, they have been shown to have detoxifying effects and prevent oxidative liver damage. In this study, we used an anti-4-1BB antibody in combination with SeNPs to evaluate the anti-lung cancer effects in in vitro and in vivo experiments and explore the underlying mechanisms by pathological analyses, quantitative PCR, and enzyme-linked immunoassay. We found that 5 μmol·L–1 anti-4-1BB antibody combined with 1 μmol·L–1 SeNPs increased the expression of IFN-γ and promoted the killing effects of peripheral blood mononuclear cells on Lewis lung carcinoma cells, with a lethality rate up to 56.88 %. Experiments in tumor-bearing mice showed that the tumor inhibition rate was 58.61 % after treatment with 3.5 mg/kg anti-4-1BB antibody combined with 0.25 mg/kg SeNPs, and the liver function index returned to normal. When the combined treatment was compared with the antibody treatment alone, detection of immune relevant factors demonstrated that the expression of FOXP3, IL-2, IL-12, and TNF-α in the spleen was downregulated, whereas the expression of IFN-γ in the spleen, serum, and tumor was upregulated, accompanied by increased Fas ligand expression in the tumor tissues. Based on these findings, we get the conclusion that anti-4-1BB antibody combined with SeNPs may alleviate the immunosuppression of regulatory T cells, promote the immune cell proliferation and metastasis to synergistically kill tumor cells. This combination also reduces the inflammatory damage to normal tissues and slows overstimulation of the splenic immune response.

Published

2024

11. Nutritional conditions affecting of selenium nanoparticles synthesized by Fusarium oxysporum (CCASU-2023-F9), and their biological activities against mycotoxin-producing fungi isolated from animal feed

Author

Gharieb, Mohamed M., Hassan, Esraa M., and Soliman, Azza Mahmoud

Published

2024

12. Single-cell ICP-MS for evaluating the Se-protective effect against MeHg+-induced neurotoxicity in human neuroblastoma cell line (SH-SY5Y).

Author

Fernández-Bautista, Tamara, Gómez-Gómez, Beatriz, Vicente-Zurdo, David, and Madrid, Yolanda

Subjects

*CELL lines, *NEUROBLASTOMA, *CYTOTOXINS, *NEUROTOXICOLOGY, *CELL death

Abstract

The protective effect of selenium (Se) against Hg-induced neurotoxicity has been widely investigated; however, the mechanisms behind this interaction have not been fully elucidated yet. In the current work, the role of Se against MeHg+-induced cytotoxicity in the human neuroblastoma cell line (SH-SY5Y) is reported for the first time by tracking Hg uptake and accumulation at the single-cell level by inductively coupled plasma-mass spectrometry in single-cell mode (SC-ICP-MS). The influence of different Se species (SeMet, SeMeSeCys, citrate-SeNPs, and chitosan-SeNPs) on MeHg+ cytotoxicity was evaluated by 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) assays. SeMet and SeMeSeCys exhibited protective effects against MeHg+-induced cell death, particularly at high MeHg+ concentrations (LC50). In addition, chitosan-SeNPs showed greater protection compared to citrate-SeNPs when co-exposed with MeHg+. Interestingly, SC-ICP-MS unveiled the heterogeneous distribution of Hg uptake by SH-SY5Y cells. Co-exposure of SeMet and SeMeSeCys with MeHg+ led to a reduction of the amount of Hg accumulated per individual cell, which decreased the maximum level of Hg per cell by half (from 60 fg Hg cell−1 to 30 fg Hg cell−1) when SeMet was present, along with a decrease in the percentage of cells that accumulated the highest quantity of MeHg+. All these data corroborate the protective role of Se against Hg toxicity at the cellular level. [ABSTRACT FROM AUTHOR]

Published

2024

13. Cytotoxic potential of selenium nanoparticles (SeNPs) derived from leaf extract of Mentha longifolia L.

Author

İPEK, Polat, BARAN, Ayşe, HATİPOĞLU, Abdulkerim, and BARAN, Mehmet Fırat

Subjects

*SELENIUM, *NANOPARTICLES, *SPEARMINT, *PLANT extracts, *ANTINEOPLASTIC agents

Abstract

The search for alternative methods in cancer treatments has been going on for many years. In the current study conducted for this purpose, selenium nanoparticles (ML-SeNPs) were produced from the aqueous leaf extract of Mentha longifolia L. easily and inexpensively, without harming the environment. The anticancer potential of ML-SeNPs on glioblastoma cell (U373), osteosarcoma cell (U2OS), and healthy retinal pigment epithelial cell (RPE-1) lines was determined by MTT (3-(4,5-dimetiltiazol-2-il)-2,5-difeniltetrazolium bromid) test. For the test, ML-SeNPs were applied at 100, 300, and 600 µg/mL levels and interaction was provided for 24 and 48 hours. The survival rates (%) in RPE-1, U373, and U2OS cell lines in the 24-hour application were 107.49-98.89, 97.66-86.82, and 87.81-83.37, respectively. The viability rates (%) of the cells in 48 hours of application were 72.27-87.39, 68.17-73.48, and 81.00-84.67, respectively. In general, it was discovered that the cytotoxic effect of ML-SeNPs on RPE-1, U373, and U2OS cell lines was greater at low doses and increased over time. In-vivo studies that support the antiproliferative action of ML-SeNPs may boost the prospect of using them as therapeutic agents in potential cancer treatment procedures in the following years. [ABSTRACT FROM AUTHOR]

Published

2024

14. Optimization of the Conditions for the Transformation of a Bacillus subtilis Strain L11 to Prepare Nano Selenium and Its Preliminary Application in Sheep Feed.

Author

Guo, Wenxin, Shi, Xinyu, Wang, Lu, Cong, Xin, Cheng, Shuiyuan, Li, Linling, and Cheng, Hua

Subjects

*SHEEP feeding, *BACILLUS subtilis, *SELENIUM, *MOLECULAR biology, *X-ray photoelectron spectroscopy, *NECK muscles

Abstract

Selenium nanoparticles (SeNPs) have greater bioavailability and safety than inorganic selenium, and was widely used in medical, agricultural, nutritional supplements, and antibacterial fields. The present study screened a strain L11 producing SeNPs from a selenium rich dairy cow breeding base in Hubei Province, China. The strain was identified as Bacillus subtilis through physiological, biochemical, and molecular biology analysis. By adjusting the cultivation conditions, the experiment determined the ideal parameters for L11 to efficiently produce SeNPs. These parameters include a pH value of 6, a cultivation temperature of 37 °C, a concentration of 4 mmol/L Na2SeO3, and a cultivation of 48 h. X-ray Photoelectron Spectroscopy (XPS), Scanning Electron Microscope-Energy Dispersive Spectroscopy (SEM-EDS), and Transmission Electron Microscopy (TEM) were used to verify that the Se particles produced by L11 are SeNPs with diameters ranging from 50 to 200 nm. The combination of the protein analysis of different cell components and TEM analysis showed that L11 mainly produces SeNPs through the transformation of the cell's periplasmic space, cell membrane, and cell wall. Adding the L11 SeNPs complex to sheep feed can significantly enhance the antioxidant activity and immunity of sheep, and increase the Se content in the neck muscles, liver, and spleen tissues. [ABSTRACT FROM AUTHOR]

Published

2024

15. Combinational therapy with Myc decoy oligodeoxynucleotides encapsulated in nanocarrier and X-irradiation on breast cancer cells.

Author

JOHARI, BEHROOZ, LEILAN, MILAD PARVINZAD, GHARBAVI, MAHMOUD, MORTAZAVI, YOUSEF, SHARAFI, ALI, and REZAEEJAM, HAMED

Subjects

CANCER cells, BREAST cancer, TRIPLE-negative breast cancer, MYC oncogenes, CELL cycle, RADIOTHERAPY safety

Abstract

The Myc gene is the essential oncogene in triple-negative breast cancer (TNBC). This study investigates the synergistic effects of combining Myc decoy oligodeoxynucleotides-encapsulated niosomes-selenium hybrid nanocarriers with X-irradiation exposure on the MDA-MB-468 cell line. Decoy and scramble ODNs for Myc transcription factor were designed and synthesized based on promoter sequences of the Bcl2 gene. The nanocarriers were synthesized by loading Myc ODNs and selenium into chitosan (Chi-Se-DEC), which was then encapsulated in niosome-nanocarriers (NISM@Chi-Se-DEC). FT-IR, DLS, FESEM, and hemolysis tests were applied to confirm its characterization and physicochemical properties. Moreover, cellular uptake, cellular toxicity, apoptosis, cell cycle, and scratch repair assays were performed to evaluate its anticancer effects on cancer cells. All anticancer assessments were repeated under X-ray irradiation conditions (fractionated 2Gy). Physicochemical characteristics of niosomes containing SeNPs and ODNs showed that it is synthesized appropriately. It revealed that the anticancer effect of NISM@Chi-Se-DEC can be significantly improved in combination with X-ray irradiation treatment. It can be concluded that NISM@Chi-Se-DEC nanocarriers have the potential as a therapeutic agent for cancer treatment, particularly in combination with radiation therapy and in-vivo experiments are necessary to confirm the efficacy of this nano-drug. [ABSTRACT FROM AUTHOR]

Published

2024

16. Biogenic selenium nanoparticles alleviate intestinal barrier injury in mice through TBC1D15/Fis1/Rab7 pathway

Author

Xina Dou, Lei Qiao, Xiaofan Song, Jiajing Chang, Xiaonan Zeng, Lixu Zhu, Tianjing Deng, Ge Yang, and Chunlan Xu

Subjects

Intestinal barrier function, SeNPs, Mitochondria-lysosome crosstalk, TBC1D15/Fis1/Rab7, Therapeutics. Pharmacology, RM1-950

Abstract

Intestinal diseases often stem from a compromised intestinal barrier. This barrier relies on a functional epithelium and proper turnover of intestinal cells, supported by mitochondrial health. Mitochondria and lysosomes play key roles in cellular balance. Our previous researches indicate that biogenic selenium nanoparticles (SeNPs) can alleviate intestinal epithelial barrier damage by enhancing mitochondria-lysosome crosstalk, though the detailed mechanism is unclear. This study aimed to investigate the role of mitochondria-lysosome crosstalk in the protective effect of SeNPs on intestinal barrier function in mice exposed to lipopolysaccharide (LPS). The results showed that LPS exposure increased intestinal permeability in mice, leding to structural and functional damage to mitochondrial and lysosomal. Oral administration of SeNPs significantly upregulated the expression levels of TBC1D15 and Fis1, downregulated the expression levels of Rab7, Caspase-3, Cathepsin B, and MCOLN2, effectively alleviated LPS-induced mitochondrial and lysosomal dysfunction and maintained the intestinal barrier integrity in mice. Furthermore, SeNPs notably inhibited mitophagy caused by adenovirus-associated virus (AAV)-mediated RNA interference the expression of TBC1D15 in the intestine of mice, maintained mitochondrial and lysosomal homeostasis, and effectively alleviated intestinal barrier damage. These results suggested that SeNPs can regulate mitochondria-lysosome crosstalk and inhibit its damage by regulating the TBC1D15/Fis1/Rab7- signaling pathway. thereby alleviating intestinal barrier damage. It lays a theoretical foundation for elucidating the mechanism of mitochondria-lysosome crosstalk in regulating intestinal barrier damage and repair, and provides new ideas and new ways to establish safe and efficient nutritional regulation strategies to prevent and treat intestinal diseases caused by inflammation.

Published

2024

17. Optimization of the Conditions for the Transformation of a Bacillus subtilis Strain L11 to Prepare Nano Selenium and Its Preliminary Application in Sheep Feed

Author

Wenxin Guo, Xinyu Shi, Lu Wang, Xin Cong, Shuiyuan Cheng, Linling Li, and Hua Cheng

Subjects

Bacillus subtilis, SeNPs, subcellular localization, biological activity, immunity, Microbiology, QR1-502

Abstract

Selenium nanoparticles (SeNPs) have greater bioavailability and safety than inorganic selenium, and was widely used in medical, agricultural, nutritional supplements, and antibacterial fields. The present study screened a strain L11 producing SeNPs from a selenium rich dairy cow breeding base in Hubei Province, China. The strain was identified as Bacillus subtilis through physiological, biochemical, and molecular biology analysis. By adjusting the cultivation conditions, the experiment determined the ideal parameters for L11 to efficiently produce SeNPs. These parameters include a pH value of 6, a cultivation temperature of 37 °C, a concentration of 4 mmol/L Na2SeO3, and a cultivation of 48 h. X-ray Photoelectron Spectroscopy (XPS), Scanning Electron Microscope-Energy Dispersive Spectroscopy (SEM-EDS), and Transmission Electron Microscopy (TEM) were used to verify that the Se particles produced by L11 are SeNPs with diameters ranging from 50 to 200 nm. The combination of the protein analysis of different cell components and TEM analysis showed that L11 mainly produces SeNPs through the transformation of the cell’s periplasmic space, cell membrane, and cell wall. Adding the L11 SeNPs complex to sheep feed can significantly enhance the antioxidant activity and immunity of sheep, and increase the Se content in the neck muscles, liver, and spleen tissues.

Published

2024

18. Mechanisms and functions of SUMOylation in health and disease: a review focusing on immune cells

Author

Chien-Hsin Huang, Tsan-Tzu Yang, and Kuo-I Lin

Subjects

SUMOylation, Ubc9, SENPs, Immune cells, Medicine

Abstract

Abstract SUMOylation, which is a type of post-translational modification that involves covalent conjugation of small ubiquitin-like modifier (SUMO) proteins to target substrates, regulates various important molecular and cellular processes, including transcription, the cell cycle, cell signaling, and DNA synthesis and repair. Newly synthesized SUMO is immature and cleaved by the SUMO-specific protease family, resulting in exposure of the C-terminal Gly–Gly motif to become the mature form. In the presence of ATP, mature SUMO is conjugated with the activating enzyme E1 through the cysteine residue of E1, followed by transfer to the cysteine residue of E2-conjugating enzyme Ubc9 in humans that recognizes and modifies the lysine residue of a substrate protein. E3 SUMO ligases promote SUMOylation. SUMOylation is a reversible modification and mediated by SUMO-specific proteases. Cumulative studies have indicated that SUMOylation affects the functions of protein substrates in various manners, including cellular localization and protein stability. Gene knockout studies in mice have revealed that several SUMO cycling machinery proteins are crucial for the development and differentiation of various cell lineages, including immune cells. Aberrant SUMOylation has been implicated in several types of diseases, including cancers, cardiovascular diseases, and autoimmune diseases. This review summarizes the biochemistry of SUMO modification and the general biological functions of proteins involved in SUMOylation. In particular, this review focuses on the molecular mechanisms by which SUMOylation regulates the development, maturation, and functions of immune cells, including T, B, dendritic, and myeloid cells. This review also discusses the underlying relevance of disruption of SUMO cycling and site-specific interruption of SUMOylation on target proteins in immune cells in diseases, including cancers and infectious diseases.

Published

2024

19. Combining Porous Se@SiO2 Nanocomposites and dECM Enhances the Myogenic Differentiation of Adipose-Derived Stem Cells

Author

Zhang YC, Yang YX, Liu Y, Liu XJ, Dai JH, Gao RS, Hu YY, and Fei WY

Subjects

porous se@sio2 nanocomposite, senps, adipose-derived mesenchymal stem cells, adscs, decellularized extracellular matrix, decm, myogenic differentiation, mitochondria, Medicine (General), R5-920

Abstract

Yu-Cheng Zhang,1,2,* Yu-Xia Yang,2,3,* Yu Liu,4 Xi-Jian Liu,5 Ji-Hang Dai,2 Rang-Shan Gao,2 Yang-Yang Hu,2 Wen-Yong Fei2 1Clinical Medical College, Dalian Medical University, Dalian, 116044, People’s Republic of China; 2Department of Orthopedics and Sports Medicine, Northern Jiangsu People’s Hospital, Affiliated to Yangzhou University, Yangzhou, 225001, People’s Republic of China; 3Clinical Medical College, Yangzhou University, Yangzhou, 225001, People’s Republic of China; 4Department of Orthopedics, Wuxi Ninth People’s Hospital Affiliated to Soochow University, Wuxi, 214062, People’s Republic of China; 5School of Chemistry and Chemical Engineering, Shanghai University of Engineering Science, Shanghai, 201620, People’s Republic of China*These authors contributed equally to this workCorrespondence: Yu Liu, Department of Orthopedics, Wuxi Ninth People’s Hospital Affiliated to Soochow University, Wuxi, 214062, People’s Republic of China, Email 529717824@qq.com Wen-Yong Fei, Department of Orthopedics and Sports medicine, Northern Jiangsu People’s Hospital, Yangzhou, 225001, People’s Republic of China, Tel +86 180 5106 1779, Email sbydyx105@163.comBackground: Volumetric Muscle Loss (VML) denotes the traumatic loss of skeletal muscle, a condition that can result in chronic functional impairment and even disability. While the body can naturally repair injured skeletal muscle within a limited scope, patients experiencing local and severe muscle loss due to VML surpass the compensatory capacity of the muscle itself. Currently, clinical treatments for VML are constrained and demonstrate minimal efficacy. Selenium, a recognized antioxidant, plays a crucial role in regulating cell differentiation, anti-inflammatory responses, and various other physiological functions.Methods: We engineered a porous Se@SiO2 nanocomposite (SeNPs) with the purpose of releasing selenium continuously and gradually. This nanocomposite was subsequently combined with a decellularized extracellular matrix (dECM) to explore their collaborative protective and stimulatory effects on the myogenic differentiation of adipose-derived mesenchymal stem cells (ADSCs). The influence of dECM and NPs on the myogenic level, reactive oxygen species (ROS) production, and mitochondrial respiratory chain (MRC) activity of ADSCs was evaluated using Western Blot, ELISA, and Immunofluorescence assay.Results: Our findings demonstrate that the concurrent application of SeNPs and dECM effectively mitigates the apoptosis and intracellular ROS levels in ADSCs. Furthermore, the combination of dECM with SeNPs significantly upregulated the expression of key myogenic markers, including MYOD, MYOG, Desmin, and myosin heavy chain in ADSCs. Notably, this combination also led to an increase in both the number of mitochondria and the respiratory chain activity in ADSCs.Conclusion: The concurrent application of SeNPs and dECM effectively diminishes ROS production, boosts mitochondrial function, and stimulates the myogenic differentiation of ADSCs. This study lays the groundwork for future treatments of VML utilizing the combination of SeNPs and dECM. Keywords: porous Se@SiO2 nanocomposite, SeNPs, adipose-derived mesenchymal stem cells, ADSCs, decellularized extracellular matrix, dECM, myogenic differentiation, mitochondria

Published

2023

20. Antifouling efficiency of polymer coatings with SeNPs-loaded SiO2(rh)-PHMG composite as antimicrobial agent

Author

Kharchenko, U., Beleneva, I., Arefieva, O., Egorkin, V., Izotov, N., Vyaliy, I., Nguyen, D. A., Sinebrukhov, S., and Gnedenkov, S.

Published

2024

21. Mechanisms and functions of SUMOylation in health and disease: a review focusing on immune cells.

Author

Huang, Chien-Hsin, Yang, Tsan-Tzu, and Lin, Kuo-I

Subjects

*TRANSMISSIBLE tumors, *POST-translational modification, *PROTEIN stability, *DNA synthesis, *GENE knockout, *LYSINE

Abstract

SUMOylation, which is a type of post-translational modification that involves covalent conjugation of small ubiquitin-like modifier (SUMO) proteins to target substrates, regulates various important molecular and cellular processes, including transcription, the cell cycle, cell signaling, and DNA synthesis and repair. Newly synthesized SUMO is immature and cleaved by the SUMO-specific protease family, resulting in exposure of the C-terminal Gly–Gly motif to become the mature form. In the presence of ATP, mature SUMO is conjugated with the activating enzyme E1 through the cysteine residue of E1, followed by transfer to the cysteine residue of E2-conjugating enzyme Ubc9 in humans that recognizes and modifies the lysine residue of a substrate protein. E3 SUMO ligases promote SUMOylation. SUMOylation is a reversible modification and mediated by SUMO-specific proteases. Cumulative studies have indicated that SUMOylation affects the functions of protein substrates in various manners, including cellular localization and protein stability. Gene knockout studies in mice have revealed that several SUMO cycling machinery proteins are crucial for the development and differentiation of various cell lineages, including immune cells. Aberrant SUMOylation has been implicated in several types of diseases, including cancers, cardiovascular diseases, and autoimmune diseases. This review summarizes the biochemistry of SUMO modification and the general biological functions of proteins involved in SUMOylation. In particular, this review focuses on the molecular mechanisms by which SUMOylation regulates the development, maturation, and functions of immune cells, including T, B, dendritic, and myeloid cells. This review also discusses the underlying relevance of disruption of SUMO cycling and site-specific interruption of SUMOylation on target proteins in immune cells in diseases, including cancers and infectious diseases. [ABSTRACT FROM AUTHOR]

Published

2024

22. Biofortification of bok choy with selenium nanoparticles and its inhibitory effects on cadmium accumulation.

Author

Di, Xuerong, Jing, Rui, Xie, Sha, Sun, Yuebing, and Huang, Qingqing

Subjects

*BOK choy, *FOURIER transform infrared spectroscopy, *BIOFORTIFICATION, *SELENIUM, *CADMIUM, *METABOLIC detoxification

Abstract

Background and aims: Cadmium (Cd) contamination poses a potential threat to plant growth and human health. In this study, we aimed to determine the effect of selenium nanoparticles (SeNPs) on Cd and selenium (Se) uptake and accumulation in bok choy, and investigate the detoxification mechanism of SeNPs on bok choy under Cd stress. Methods: A pot culture was performed in Cd–contaminated soil with soil applied and foliar–sprayed SeNPs, including SLow, SHigh, FLow, FHigh, and corresponding control treatment. The soil available Cd content, Cd and Se fractions in soil, elements accumulation, subcellular Cd/Se distribution, MDA content, SOD activity, and Fourier transformed infrared spectroscopy (FTIR) were evaluated. Results: Soil applied SeNPs significantly reduced Cd concentration by 25.9–42.4%, and Cd uptake rate by 33.4–37.8%. Further, soil applied SeNPs had no significant effect on available Cd but did affect Se fractions in soil. Additionally, soil applied SeNPs increased Se concentration by 3.1 − 6.3 times in bok choy and caused a higher Se concentration in root than in shoot, with the residual and organic matter–bound Se mainly affecting Se accumulation in shoot. However, foliar–sprayed SeNPs had no significant effect on Cd uptake but increased Se accumulation by 2.4 − 33.0 times in bok choy. Soil applied and foliar–sprayed SeNPs prompted the distribution of Cd in cell wall and in soluble component in shoot, respectively, which reduced the damage of Cd on organelle. Conclusion: Soil applied SeNPs was an effective method for reducing Cd accumulation and improving Se biofortification and mineral elements accumulation in bok choy. [ABSTRACT FROM AUTHOR]

Published

2024

23. Ascorbic acid and selenium nanoparticles synergistically interplay in chromium stress mitigation in rice seedlings by regulating oxidative stress indicators and antioxidant defense mechanism.

Author

Basit, Farwa, Abbas, Saghir, Zhu, Mengjin, Tanwir, Kashif, El-Keblawy, Ali, Sheteiwy, Mohamed Salah, Raza, Ali, Hu, Jin, Hu, Weimin, and Guan, Yajing

Subjects

VITAMIN C, OXIDATIVE stress, GAS exchange in plants, CHROMIUM, PLANT regulators, SELENIUM, NUTRIENT uptake

Abstract

Ascorbic acid (AsA) and selenium nanoparticles (SeNPs) were versatile plant growth regulators, playing multiple roles in promoting plant growth under heavy metal stresses. This study aimed to evaluate the beneficial role of individual and combined effects of AsA and SeNPs on morpho-physio-biochemical traits of rice with or without chromium (Cr) amendment. The results indicated that Cr negatively affected plant biomass, gas exchange parameters, total soluble sugar, proline, relative water contents, and antioxidant-related gene expression via increasing reactive oxygen species (MDA, H2O2, O2•−) formation, resulting in plant growth reduction. The application of AsA and SeNPs, individually or in combination, decreased the uptake and translocation of Cr in rice seedlings, increased seedlings with tolerance to Cr toxicity, and significantly improved the rice seedling growth. Most notably, AsA + SeNP treatment strengthened the antioxidative defense system through ROS quenching and Cr detoxification. The results collectively suggested that the application of AsA and SeNPs alone or in combination had the potential to alleviate Cr toxicity in rice and possibly other crop species. [ABSTRACT FROM AUTHOR]

Published

2023

24. Novel insights into the synergistic effects of selenium nanoparticles and metformin treatment of letrozole - induced polycystic ovarian syndrome: targeting PI3K/Akt signalling pathway, redox status and mitochondrial dysfunction in ovarian tissue.

Author

Rabah, Hanem M., Mohamed, Darin A., Mariah, Reham A., Abd El-Khalik, Sarah R., Khattab, Haidy A., AbuoHashish, Norhan A., Abdelsattar, Amal M., Raslan, Mohamed A., Farghal, Eman E., and Eltokhy, Amira K.

Subjects

*PI3K/AKT pathway, *MITOCHONDRIAL membranes, *CELLULAR signal transduction, *METFORMIN, *POLYCYSTIC ovary syndrome, *MITOCHONDRIA

Abstract

Polycystic ovary syndrome (PCOS) has a series of reproductive and metabolic consequences. Although the link between PCOS, IR, and obesity, their impact on the pathogenesis of PCOS has yet to be determined. Dysfunction of PI3K/AKT pathway has been reported as the main cause of IR in PCOS. This study purposed to explore the effects of selenium nanoparticles (SeNPs) alone and combined with metformin (MET) in a PCOS-IR rat model. After 3 weeks of treatment with SeNPs and/or MET, biochemical analysis of glycemic & lipid profiles, and serum reproductive hormones was performed. Inflammatory, oxidative stress, and mitochondrial dysfunction markers were determined colormetrically. The expression of PI3K and Akt genes were evaluated by Real-time PCR. Histopathological examination and Immunohistochemical analysis of Ki-67 expression were performed. The results showed that treatment with SeNPs and/or MET significantly attenuated insulin sensitivity, lipid profile, sex hormones levels, inflammatory, oxidative stress and mitochondrial functions markers. Additionally, PI3K and Akt genes expression were significantly upregulated with improved ovarian histopathological changes. Combined SeNPs and MET therapy could be potential therapeutic agent for PCOS-IR model via modulation of the PI3K/Akt pathway, enhancing anti-inflammatory and anti-oxidant properties and altered mitochondrial functions. The strong relationship between obesity, insulin resistance, and polycystic ovarian syndrome. Disturbance of the PI3K/Akt signaling pathway is involved in the progression of polycystic ovary syndrome-insulin resistance (PCOS-IR). In PCOS-IR rats, combined SeNPs and metformin therapy considerably alleviated IR by acting on the PI3K/Akt signaling pathway. The combination of SeNPs and metformin clearly repaired ovarian polycystic pathogenesis and improved hormonal imbalance in PCOS-IR rats. [ABSTRACT FROM AUTHOR]

Published

2023

25. Unveiling the Biological Potential of Mycosynthesized Selenium Nanoparticles from Endophytic Fungus Curvularia sp. LCJ413.

Author

Kathiravan, Anbarasu, Udayan, Elangovan, Rajeshkumar, Shanmugam, and Gnanadoss, John Joel

Abstract

Selenium nanoparticles (SeNPs) have recently received interest in several biological applications due to their unique role in preventing cellular damage and other serious human diseases. In this study, SeNPs were synthesized using the cell-free extract of the endophytic fungus Curvularia sp. LCJ413 with sodium selenite as the precursor. The mycosynthesized SeNPs were characterized using UV-visible spectrophotometer, Fourier-transform infrared spectroscopy, dynamic light scattering, zeta potential, X-ray diffraction, Scanning electron microscopy, and energy dispersive X-ray analysis. The synthesized SeNPs exhibited a crystalline structure with a predominant rod-like shape, alongside some irregular shapes with an average size of 25–100 nm. The synthesized SeNPs were evaluated for biological activities such as antimicrobial, antioxidant, and anti-inflammatory. The results showed that SeNPs effectively inhibited Staphylococcus aureus growth (19 ± 0.47 mm zone of inhibition) and dose-dependently reduced 2,2-diphenyl-1-picryl-hydrazine-hydrate and hydrogen peroxide radicals, with the highest inhibition percentages of 90.66 ± 3% and 80.16 ± 2.9% at 50 µg/mL respectively. SeNPs demonstrated potential anti-inflammatory activity at 50 µg/mL, with 80.55 ± 2.7% inhibition for bovine serum albumin denaturation and 76.01 ± 3.1% inhibition for egg albumin denaturation assays. Less toxicity of the SeNPs was demonstrated using brine shrimp lethality assay and zebrafish embryonic development, which makes them an ideal candidate for nanomedicine formulations. To the best of our knowledge, this is the first study on the fabrication of SeNPs from the endophytic fungus Curvularia sp. LCJ413 for biological applications. [ABSTRACT FROM AUTHOR]

Published

2023

26. Microplastic-induced NAFLD: Hepatoprotective effects of nanosized selenium

Author

Qi Shen, Yun Jie Liu, Tian Tian Qiu, San Loon k, and DongHai Zhou

Subjects

Polystyrene, Nanoparticle, SeNPs, NAFLD, Liver lipid accumulation, Transcriptome and metabolome, Environmental pollution, TD172-193.5, Environmental sciences, GE1-350

Abstract

Polystyrene microplastics (MPs) are persistent environmental pollutants commonly encountered in daily human life. Numerous studies have demonstrated their ability to induce liver damage, including oxidative stress, inflammation, and lipid accumulation. However, limited information exists regarding preventive measures against this issue. In our study, we investigated the potential preventive role of selenium nanoparticles (YC-3-SeNPs) derived from Yak-derived Bacillus cereus, a novel nanobiomaterial known for its antioxidant properties and lipid metabolism regulation. Using transcriptomic and metabolomic analyses, we identified key genes and metabolites associated with oxidative stress and lipid metabolism imbalance induced by MPs. Upregulated genes (Scd1, Fasn, Irs2, and Lpin) and elevated levels of arachidonic and palmitic acid accumulation were observed in MP-exposed mice, but not in those exposed to SeNPs. Further experiments confirmed that SeNPs significantly attenuated liver lipid accumulation and degeneration caused by MPs. Histological results and pathway screening validated our findings, revealing that MPs suppressed the Pparα pathway and Nrf2 pathway, whereas SeNPs activated both pathways. These findings suggest that MPs may contribute to the development of nonalcoholic fatty liver disease (NAFLD), while SeNPs hold promise as a future nanobio-product for its prevention.

Published

2024

27. Ionomic Profile of Rice Seedlings after Foliar Application of Selenium Nanoparticles

Author

Bruna Moreira Freire, Camila Neves Lange, Yasmin Tavares Cavalcanti, Amedea Barozzi Seabra, and Bruno Lemos Batista

Subjects

SeNPs, sodium selenite, Oryza sativa L., agronomic biofortification, transfer factor, arsenic, Chemical technology, TP1-1185

Abstract

Nanotechnology has been increasingly used in plant sciences, with engineered nanoparticles showing promising results as fertilizers or pesticides. The present study compared the effects in the foliar application of Se nanoparticles (SeNPs) or sodium selenite-Se(IV) on rice seedlings. The degree of plant growth, photosynthetic pigment content, and concentrations of Se, Na, Mg, K, Ca, Mn, Co, Cu, Zn, As, Cd, and Pb were evaluated. The results showed that the application of SeNPs at high concentrations (5 mg L−1), as well as the application of Se(IV), inhibited plant growth and increased the root concentrations of As and Pb. The application of SeNPs at 0.5 mg L−1 significantly increased Se accumulation in the aerial part from 0.161 ± 0.028 mg kg−1 to 0.836 ± 0.097 mg kg−1 without influencing physiological, chemical, or biochemical parameters. When applied to leaves, SeNPs tended to remain in the aerial part, while the application of Se(IV) caused a higher Se translocation from the shoots to the roots. This study provides useful information concerning the uptake, accumulation, and translocation of different Se formulations in rice seedlings and their effect on plant ionomic profiles, thus showing that the foliar application of SeNPs at low concentrations can be an effective and safe alternative for rice biofortification.

Published

2024

28. Green synthesis of selenium nanoparticles from Cassia javanica flowers extract and their medical and agricultural applications

Author

Soliman, Mohamed K.Y., Amin, Mohamed Abdel-Aal, Nowwar, Abdelatti Ibrahim, Hendy, Mahmoud H., and Salem, Salem S.

Published

2024

29. Novel insights into the synergistic effects of selenium nanoparticles and metformin treatment of letrozole - induced polycystic ovarian syndrome: targeting PI3K/Akt signalling pathway, redox status and mitochondrial dysfunction in ovarian tissue

Author

Hanem M. Rabah, Darin A. Mohamed, Reham A. Mariah, Sarah R. Abd El-Khalik, Haidy A. Khattab, Norhan A. AbuoHashish, Amal M. Abdelsattar, Mohamed A. Raslan, Eman E. Farghal, and Amira K. Eltokhy

Subjects

Polycystic ovary syndrome, obesity, insulin resistance, SeNPs, PI3K/Akt pathway, metformin, Pathology, RB1-214, Biology (General), QH301-705.5

Abstract

ABSTRACTPurpose Polycystic ovary syndrome (PCOS) has a series of reproductive and metabolic consequences. Although the link between PCOS, IR, and obesity, their impact on the pathogenesis of PCOS has yet to be determined. Dysfunction of PI3K/AKT pathway has been reported as the main cause of IR in PCOS. This study purposed to explore the effects of selenium nanoparticles (SeNPs) alone and combined with metformin (MET) in a PCOS-IR rat model.Methods After 3 weeks of treatment with SeNPs and/or MET, biochemical analysis of glycemic & lipid profiles, and serum reproductive hormones was performed. Inflammatory, oxidative stress, and mitochondrial dysfunction markers were determined colormetrically. The expression of PI3K and Akt genes were evaluated by Real-time PCR. Histopathological examination and Immunohistochemical analysis of Ki-67 expression were performed.Results The results showed that treatment with SeNPs and/or MET significantly attenuated insulin sensitivity, lipid profile, sex hormones levels, inflammatory, oxidative stress and mitochondrial functions markers. Additionally, PI3K and Akt genes expression were significantly upregulated with improved ovarian histopathological changes.Conclusion Combined SeNPs and MET therapy could be potential therapeutic agent for PCOS-IR model via modulation of the PI3K/Akt pathway, enhancing anti-inflammatory and anti-oxidant properties and altered mitochondrial functions.HighlightsThe strong relationship between obesity, insulin resistance, and polycystic ovarian syndrome.Disturbance of the PI3K/Akt signaling pathway is involved in the progression of polycystic ovary syndrome-insulin resistance (PCOS-IR).In PCOS-IR rats, combined SeNPs and metformin therapy considerably alleviated IR by acting on the PI3K/Akt signaling pathway.The combination of SeNPs and metformin clearly repaired ovarian polycystic pathogenesis and improved hormonal imbalance in PCOS-IR rats.

Published

2023

30. Selenium nanoparticles improve fish sperm quality by enhancing glucose uptake capacity via AMPK activation.

Author

Zhu, Chao, Liu, Qimin, Deng, Yalong, Zheng, Lijuan, Wang, Yang, Zhang, Lijun, Bu, Xianpan, Qi, Meng, Yang, Fangxia, and Dong, Wuzi

Subjects

*AMP-activated protein kinases, *SPERMATOZOA, *GLUCOSE analysis, *SELENIUM, *GLUCOSE, *FISH breeding

Abstract

Appropriate additives can provide a suitable physiological environment for storage of fish sperm and facilitate the large-scale breeding of endangered species and commercial fish. Suitable additives for fish sperm storage in vitro are required for artificial insemination. This study evaluate the effects of 0.1, 0.5, 1.5, and 4.5 mg/L selenium nanoparticles (SeNPs) on the quality of Schizothorax prenanti and Onychostoma macrolepis sperm storage in vitro at 4 °C for 72 h. We found that 0.5 mg/L SeNPs was a suitable concentration for maintaining the normal physiological state of O. macrolepis sperm during storage at 4 °C (p < 0.05). Higher adenosine triphosphate (ATP) content of O. macrolepis sperm before and after activation was present at that concentration. To further explore the potential mechanism of action of SeNPs on O. macrolepis sperm, western blotting and glucose uptake analyses were performed. The results implied that after 24 h of in vitro preservation, 0.5 mg/L SeNPs significantly improved p-AMPK levels and glucose uptake capacity of O. macrolepis sperm, while compound C (CC), the inhibitor of activated AMP-activated protein kinase (p-AMPK), significantly restricted the function of SeNPs on stored sperm. Similar effects of 0.5 mg/L SeNPs were found on Schizothorax prenanti sperm. Our study demonstrates that SeNPs maintained ATP content and O. macrolepis and Schizothorax prenanti sperm function during storage in vitro for 72 h, possibly because SeNPs enhanced the glucose uptake capacity of sperm by maintaining the level of p-AMPK. • Fish sperms could absorb glucose to stabilize ATP content during in vitro storage. • p-AMPK is important in maintaining fertilization ability of fish sperm. • Selenium nanoparticles can maintain ATP content of fish sperm via AMPK activation. • 0.5 mg/L selenium nanoparticles can improve the quality of in vitro stored fish sperm by stabilizing ATP content. [ABSTRACT FROM AUTHOR]

Published

2023

31. Biogenic Selenium Nanoparticles Synthesized by Lactobacillus casei ATCC 393 Alleviate Acute Hypobaric Hypoxia-Induced Intestinal Barrier Dysfunction in C57BL/6 Mice.

Author

Dou, Xina, Zhang, Baohua, Qiao, Lei, Song, Xiaofan, Pi, Shanyao, Chang, Jiajing, Zhang, Xinyi, Zeng, Xiaonan, Zhu, Lixu, and Xu, Chunlan

Abstract

Exposure to hypobaric hypoxia at high altitude will cause different tissue and organ damage over a long period of time. Studies have shown that hypobaric hypoxia can cause severe primary intestinal barrier dysfunction, and then cause multiple organ dysfunction. Our previous research showed that selenium nanoparticles (SeNPs) synthesized by Lactobacillus casei ATCC 393 (L. casei ATCC 393) can effectively alleviate intestinal barrier dysfunction caused by oxidative stress and inflammation in mice. This study was conducted to investigate the protective effect of biological SeNPs synthesized by L. casei ATCC 393 on intestinal barrier function in acute hypobaric hypoxic stress mice. The results showed that compared with the hypobaric hypoxic, the SeNPs synthesized by L. casei ATCC 393 by oral administration could effectively alleviate the shortening of intestinal villi, which decreased the level of diamine oxidase (DAO) and myeloperoxidase (MPO), and the expression level of tight junction protein in ileum was increased. In addition, SeNPs significantly increased the activities of superoxide dismutase (SOD), cyclooxygenase (COX-1) and glutathione peroxidase (GPx), and decreased the level of malondialdehyde (MDA), and inhibit the increase of hypoxia related factor. SeNPs effectively regulate the intestinal microecology disorder caused by hypobaric hypoxia stress, and maintain the intestinal microecology balance. In addition, oral administration of SeNPs had better protective effect on intestinal barrier function of mice under hypobaric hypoxia stress. These results suggested that SeNPs synthesized by L. casei ATCC 393 can effectively alleviate the damage of intestinal barrier function under acute hypobaric hypoxic stress, which may be closely related to the antioxidant activity of SeNPs. [ABSTRACT FROM AUTHOR]

Published

2023

32. Single-cell ICP-MS for evaluating the Se-protective effect against MeHg+-induced neurotoxicity in human neuroblastoma cell line (SH-SY5Y)

Author

Fernández-Bautista, Tamara, Gómez-Gómez, Beatriz, Vicente-Zurdo, David, and Madrid, Yolanda

Published

2024

33. Theranostic applications of selenium nanomedicines against lung cancer

Author

Shaowei Liu, Weifeng Wei, Jinlin Wang, and Tianfeng Chen

Subjects

Lung cancer, Selenium (Se), Selenium nanomedicines, Nanotechnology, SeNPs, Theranostic applications, Biotechnology, TP248.13-248.65, Medical technology, R855-855.5

Abstract

Abstract The incidence and mortality rates of lung cancer are among the highest in the world. Traditional treatment methods include surgery, chemotherapy, and radiotherapy. Although rapid progress has been achieved in the past decade, treatment limitations remain. It is therefore imperative to identify safer and more effective therapeutic methods, and research is currently being conducted to identify more efficient and less harmful drugs. In recent years, the discovery of antitumor drugs based on the essential trace element selenium (Se) has provided good prospects for lung cancer treatments. In particular, compared to inorganic Se (Inorg-Se) and organic Se (Org-Se), Se nanomedicine (Se nanoparticles; SeNPs) shows much higher bioavailability and antioxidant activity and lower toxicity. SeNPs can also be used as a drug delivery carrier to better regulate protein and DNA biosynthesis and protein kinase C activity, thus playing a role in inhibiting cancer cell proliferation. SeNPs can also effectively activate antigen-presenting cells to stimulate cell immunity, exert regulatory effects on innate and regulatory immunity, and enhance lung cancer immunotherapy. This review summarizes the application of Se-based species and materials in lung cancer diagnosis, including fluorescence, MR, CT, photoacoustic imaging and other diagnostic methods, as well as treatments, including direct killing, radiosensitization, chemotherapeutic sensitization, photothermodynamics, and enhanced immunotherapy. In addition, the application prospects and challenges of Se-based drugs in lung cancer are examined, as well as their forecasted future clinical applications and sustainable development. Graphical Abstract

Published

2023

34. A Review of the Antibacterial, Fungicidal and Antiviral Properties of Selenium Nanoparticles.

Author

Serov, Dmitry A., Khabatova, Venera V., Vodeneev, Vladimir, Li, Ruibin, and Gudkov, Sergey V.

Subjects

*DRUG resistance in microorganisms, *SELENIUM, *ANTIBACTERIAL agents, *LITERATURE reviews, *NANOPARTICLES, *ANTI-infective agents

Abstract

The resistance of microorganisms to antimicrobial drugs is an important problem worldwide. To solve this problem, active searches for antimicrobial components, approaches and therapies are being carried out. Selenium nanoparticles have high potential for antimicrobial activity. The relevance of their application is indisputable, which can be noted due to the significant increase in publications on the topic over the past decade. This review of research publications aims to provide the reader with up-to-date information on the antimicrobial properties of selenium nanoparticles, including susceptible microorganisms, the mechanisms of action of nanoparticles on bacteria and the effect of nanoparticle properties on their antimicrobial activity. This review describes the most complete information on the antiviral, antibacterial and antifungal effects of selenium nanoparticles. [ABSTRACT FROM AUTHOR]

Published

2023

35. Selenium Nanoparticles Control H1N1 Virus by Inhibiting Inflammatory Response and Cell Apoptosis.

Author

Su, Jingyao, Lai, Jia, Li, Jiali, Li, Chuqing, Liu, Xia, Wang, Chenyang, Zhu, Bing, and Li, Yinghua

Subjects

*INFLUENZA A virus, H1N1 subtype, *VIRUS diseases, *SELENIUM, *INFLAMMATION, *APOPTOTIC bodies

Abstract

The treatment of influenza caused by H1N1 has been the focus of much attention. Selenium nanoparticles (SeNPs) have been used in many aspects of research in the last two decades. They have shown excellent performance in antiviral, anti-inflammatory, and antioxidant functions. Previous anti-H1N1 cell experiments using SeNPs have shown that they have evident antiviral effects and low toxicities. This study focuses on the mechanism of selenium nanoparticles against an H1N1 influenza virus infection in vivo. The results showed that the selenium levels in the body decreased after an H1N1 virus infection, and inflammatory factors in the lung tissues increased abnormally, leading to the onset and aggravation of an inflammatory response. The H1N1 virus infection also led to the excessive activation of apoptotic pathways in the body and induced the apoptosis of tissue cells. In addition, this study found that SeNPs can alleviate this phenomenon. All results showed that SeNPs are promising inhibitors for controlling influenza H1N1 virus infections. [ABSTRACT FROM AUTHOR]

Published

2023

36. 纳米硒的合成技术、 生物学功能及其在畜禽生产中的应用研究进展.

Author

王霞, 谢晓方, 张卓忆, 郭洁平, and 谢旖

Subjects

*LIVESTOCK productivity, *TRACE elements, *SELENIUM, *BOTANY, *BIOAVAILABILITY

Abstract

Selenium is one of the essential trace elements in animals, which has the biological functions of improving immunity, anti-virus, anti-tumor, anti-oxidation and improving intestinal flora. SeNPs is a nano-scale elemental selenium, which has the advantages of stable structure, high bioavailability and low toxicity, and has broad application prospects. The paper reviews the preparation method, biological function and application of SeNPs in animal production, to provide reference for the application of SeNPs as feed additive in livestock and poultry production. [ABSTRACT FROM AUTHOR]

Published

2023

37. IMPACT OF IN- OVO INJECTION WITH SELENIUM NANOPARTICLES AND OR NICOTINAMIDE ON SOME POSTHATCH TRAITS OF BROILER CHICKS.

Author

Sarhan, M. A., Soliman, F. N. K., Elghalid, O. A., Hassan, M. I., and El-Sebai, A. A.

Subjects

*HATCHABILITY of eggs, *LEUKOCYTE count, *CHICKS, *NICOTINAMIDE, *OXIDANT status, *SELENIUM

Abstract

This work aimed to study the effects of selenium nanoparticles and nicotinamide in-ovo injection on hatchability and physiological traits of broiler chicks at hatch day. A total of 500 eggs from Arbor Acres breeder hens were weighed and distributed into five treatments with four replicates for each. At day 18 of incubation, eggs of the first group were non-injected and served as control, while the 2nd group was injected with normal saline at 0.9 % (saline group). But, the 3rd group was injected with selenium nanoparticles (SeNPs) (20 μg SeNPs/ egg) the 4th group was injected with nicotinamide (NAM) (300 mM NAM/ egg) and the 5th group was injected with their mixture (20 μg SeNPs plus 300 mM NAM/ egg). The results showed that chicks of saline and mixture in-ovo injection groups had higher significant weights at hatch compared to all other studied groups. In contrast, eggs of the in-ovo NAM injected group had higher hatch of fertile egg percentage values with insignificant differences with both control and mixture injected groups. The chicks of NAM and mixture in-ovo injected groups had significantly highest WBC values compared to all other studied treatments. The chicks of SeNPs, NAM, and mixture in-ovo injected groups have significantly higher low-density lipoprotein compared to control and saline groups. This suggested that the in-ovo injection with NAM and the mixture groups used in the present study had a considerably positive effect on hatchability percentage, chick weight, relative chick weight, white blood cell count, and blood glucose level and the activity of total antioxidant capacity (TAC). In conclusion, injection of eggs in-ovo of broiler chicks with 300 mM nicotinamide/ egg and mixture between 20 μg SeNPs plus 300 mM NAM/ egg enhanced hatchability and some physiological traits for chicks. [ABSTRACT FROM AUTHOR]

Published

2023

38. Green synthesis of SeNPs using Sonchus maritimus based nanosized metal oxides for in vitro biological applications and in vivo acute toxicity evaluation

Author

Chetehouna Sara, Derouiche Samir, and Réggami Yassine

Subjects

senps, sonchus maritimus, antioxidant, antibacterial, toxicity test, Science

Abstract

This investigation aimed to characterize the green synthesized selenium nanoparticles using Sonchus maritimus L. extract and evaluate their antioxidant and antibacterial properties. Moreover, acute toxicity of nanoparticles was performed in Wistar rats. The synthesis of SeNPs was confirmed by Ultraviolet-visible, Fourier Transform Infrared Spectroscopy, Scanning Electron Microscopy and Energy Dispersive X-ray analysis. Antioxidant activities of S. maritimus and SmE-SeNPs were determined by DPPH and FRAP assays. Antibacterial activities were tested against Gram positive and negative pathogen bacteria. The SEM results showed that SeNPs had a spherule-like structure reaching up to 26.48 nm. In addition, S. maritimus and SmE-SeNPs had DPPH scavenging activity and reducing power. SeNPs exhibited activities against Escherichia coli and Staphylococcus aureus. The intraperitoneal toxicity test of SeNPs showed no mortality and minor behavioral variations. In conclusion, S. maritimus can be considered as biocatalyst stabilizers for the biosynthesis of SeNPs which might be used in several applications due to their biological efficiency.

Published

2023

39. Multifaceted Role of Phyto-assisted Selenium Nanoparticles (SeNPs) in Biomedical and Human Therapeutics

Author

Gunti, Lokanadhan, Dass, Regina Sharmila, Mahata, Pranab Kumar, El-Ramady, Hassan, Editor-in-Chief, Olle, Margit, Series Editor, Eichler-Löbermann, Bettina, Series Editor, Schnug, Ewald, Series Editor, Hossain, Mohammad Anwar, editor, Ahammed, Golam Jalal, editor, Kolbert, Zsuzsanna, editor, Islam, Md. Tofazzal, editor, and Schiavon, Michela, editor

Published

2022

40. Theranostic applications of selenium nanomedicines against lung cancer.

Author

Liu, Shaowei, Wei, Weifeng, Wang, Jinlin, and Chen, Tianfeng

Subjects

*LUNG cancer, *NANOMEDICINE, *PROTEIN kinase C, *SELENIUM, *CANCER cell proliferation, *SELENOPROTEINS, *ACOUSTIC imaging

Abstract

The incidence and mortality rates of lung cancer are among the highest in the world. Traditional treatment methods include surgery, chemotherapy, and radiotherapy. Although rapid progress has been achieved in the past decade, treatment limitations remain. It is therefore imperative to identify safer and more effective therapeutic methods, and research is currently being conducted to identify more efficient and less harmful drugs. In recent years, the discovery of antitumor drugs based on the essential trace element selenium (Se) has provided good prospects for lung cancer treatments. In particular, compared to inorganic Se (Inorg-Se) and organic Se (Org-Se), Se nanomedicine (Se nanoparticles; SeNPs) shows much higher bioavailability and antioxidant activity and lower toxicity. SeNPs can also be used as a drug delivery carrier to better regulate protein and DNA biosynthesis and protein kinase C activity, thus playing a role in inhibiting cancer cell proliferation. SeNPs can also effectively activate antigen-presenting cells to stimulate cell immunity, exert regulatory effects on innate and regulatory immunity, and enhance lung cancer immunotherapy. This review summarizes the application of Se-based species and materials in lung cancer diagnosis, including fluorescence, MR, CT, photoacoustic imaging and other diagnostic methods, as well as treatments, including direct killing, radiosensitization, chemotherapeutic sensitization, photothermodynamics, and enhanced immunotherapy. In addition, the application prospects and challenges of Se-based drugs in lung cancer are examined, as well as their forecasted future clinical applications and sustainable development. [ABSTRACT FROM AUTHOR]

Published

2023

41. Effect of Selenium Nanoparticles and/or Bee Venom against STZ-Induced Diabetic Cardiomyopathy and Nephropathy.

Author

Lotfy, Mona M., Dowidar, Mohamed F., Ali, Haytham A., Ghonimi, Wael A. M., AL-Farga, Ammar, and Ahmed, Amany I.

Subjects

BEE venom, DIABETIC cardiomyopathy, DIABETIC nephropathies, GENE expression, SELENIUM

Abstract

The main purpose of our study was to examine the role of selenium nanoparticles (SeNPs) and/or bee venom (BV) in ameliorating diabetic cardiomyopathy (DCM) and nephropathy (DN) at the biochemical, histopathological and molecular levels. Fifty male albino rats were used in this experiment, divided into five groups: control, Streptozocin (STZ) diabetic, STZ-diabetic treated with SeNPs, STZ-diabetic treated with BV, and STZ-diabetic treated with SeNPs and BV. Biochemically, STZ injection resulted in a significant increase in serum glucose, BUN, creatinine, CRP, CK-MB, AST, LDH and cardiac troponins with a significant decrease in the serum insulin and albumin concentrations. Histopathologically, STZ injection resulted in diabetes, as revealed by glomerulonephritis, perivascular hemorrhage, inflammatory cell infiltrations and fibrosis, with widening of interstitial spaces of cardiomyocytes, loss of muscle cells continuity and some hyaline degeneration. At the molecular levels, the expression levels of miRNA 328, miRNA-21, TGFβ1, TGFβ1R, JAK1, STST-3, SMAD-1 and NFκβ genes were significantly up-regulated, whereas the expression levels of SMAD-7 were significantly down-regulated. It is concluded that SeNPs and/or BV administration ameliorates the deleterious effects resulting from STZ administration through improving the biochemical, histopathological and molecular effects, suggesting their protective role against the long-term diabetic complications of DCM and DN. [ABSTRACT FROM AUTHOR]

Published

2023

42. Evaluation of Selenium Nanoparticles in Inducing Disease Resistance against Spot Blotch Disease and Promoting Growth in Wheat under Biotic Stress.

Author

Shahbaz, Muhammad, Akram, Abida, Mehak, Asma, Haq, Ehsan ul, Fatima, Noor, Wareen, Gull, Fitriatin, Betty Natalie, Sayyed, R. Z., Ilyas, Noshin, and Sabullah, Mohd Khalizan

Subjects

BLOTCH diseases, SELENIUM, ULTRAVIOLET-visible spectroscopy, FUNGICIDES, SCANNING electron microscopy, FUNGAL growth

Abstract

In the present study, SeNPs were synthesized using Melia azedarach leaf extracts and investigated for growth promotion in wheat under the biotic stress of spot blotch disease. The phytosynthesized SeNPs were characterized using UV-visible spectroscopy, scanning electron microscopy (SEM), energy-dispersive X-ray (EDX), and Fourier-transformed infrared spectroscopy (FTIR). The in vitro efficacy of different concentrations of phytosynthesized SeNPs (i.e., 100 μ g/mL, 150 μ g/mL, 200 μ g/mL, 250 μ g/mL, and 300 μ g/mL) was evaluated using the well diffusion method, which reported that 300 μ g/mL showed maximum fungus growth inhibition. For in vivo study, different concentrations (10, 20, 30, and 40 mg/L) of SeNPs were applied exogenously to evaluate the morphological, physiological, and biochemical parameters under control conditions and determine when infection was induced. Among all treatments, 30 mg/L of SeNPs performed well and increased the plant height by 2.34% compared to the control and 30.7% more than fungus-inoculated wheat. Similarly, fresh plant weight and dry weight increased by 17.35% and 13.43% over the control and 20.34% and 52.48% over the fungus-treated wheat, respectively. In leaf surface area and root length, our findings were 50.11% and 10.37% higher than the control and 40% and 71% higher than diseased wheat, respectively. Plant physiological parameters i.e., chlorophyll a, chlorophyll b, and total chlorophyll content, were increased 14, 133, and 16.1 times over the control and 157, 253, and 42 times over the pathogen-inoculated wheat, respectively. Our findings regarding carotenoid content, relative water content, and the membrane stability index were 29-, 49-, and 81-fold higher than the control and 187-, 63-, and 48-fold higher than the negative control, respectively. In the case of plant biochemical parameters, proline, sugar, flavonoids, and phenolic contents were recorded at 6, 287, 11, and 34 times higher than the control and 32, 107, 33, and 4 times more than fungus-inoculated wheat, respectively. This study is considered the first biocompatible approach to evaluate the potential of green-synthesized SeNPs as growth-promoting substances in wheat under the spot blotch stress and effective management strategy to inhibit fungal growth. [ABSTRACT FROM AUTHOR]

Published

2023

43. Biogenic Selenium Nanoparticles in Biomedical Sciences: Properties, Current Trends, Novel Opportunities and Emerging Challenges in Theranostic Nanomedicine.

Author

Zambonino, Marjorie C., Quizhpe, Ernesto Mateo, Mouheb, Lynda, Rahman, Ashiqur, Agathos, Spiros N., and Dahoumane, Si Amar

Subjects

*MEDICAL sciences, *SELENIUM, *COVID-19 pandemic, *SELENIUM compounds, *NANOPARTICLES, *NANOMEDICINE

Abstract

Selenium is an important dietary supplement and an essential trace element incorporated into selenoproteins with growth-modulating properties and cytotoxic mechanisms of action. However, different compounds of selenium usually possess a narrow nutritional or therapeutic window with a low degree of absorption and delicate safety margins, depending on the dose and the chemical form in which they are provided to the organism. Hence, selenium nanoparticles (SeNPs) are emerging as a novel therapeutic and diagnostic platform with decreased toxicity and the capacity to enhance the biological properties of Se-based compounds. Consistent with the exciting possibilities offered by nanotechnology in the diagnosis, treatment, and prevention of diseases, SeNPs are useful tools in current biomedical research with exceptional benefits as potential therapeutics, with enhanced bioavailability, improved targeting, and effectiveness against oxidative stress and inflammation-mediated disorders. In view of the need for developing eco-friendly, inexpensive, simple, and high-throughput biomedical agents that can also ally with theranostic purposes and exhibit negligible side effects, biogenic SeNPs are receiving special attention. The present manuscript aims to be a reference in its kind by providing the readership with a thorough and comprehensive review that emphasizes the current, yet expanding, possibilities offered by biogenic SeNPs in the biomedical field and the promise they hold among selenium-derived products to, eventually, elicit future developments. First, the present review recalls the physiological importance of selenium as an oligo-element and introduces the unique biological, physicochemical, optoelectronic, and catalytic properties of Se nanomaterials. Then, it addresses the significance of nanosizing on pharmacological activity (pharmacokinetics and pharmacodynamics) and cellular interactions of SeNPs. Importantly, it discusses in detail the role of biosynthesized SeNPs as innovative theranostic agents for personalized nanomedicine-based therapies. Finally, this review explores the role of biogenic SeNPs in the ongoing context of the SARS-CoV-2 pandemic and presents key prospects in translational nanomedicine. [ABSTRACT FROM AUTHOR]

Published

2023

44. Selenium Nanoparticles Synergistically Stabilized by Starch Microgel and EGCG: Synthesis, Characterization, and Bioactivity.

Author

Zhou, Jiaojiao, Liu, Yuantao, Hu, Yili, Zhang, Die, Xu, Wei, Chen, Lei, He, Jiangling, Cheng, Shuiyuan, and Cai, Jie

Subjects

STARCH, SELENIUM, EPIGALLOCATECHIN gallate, REACTIVE oxygen species, CHEMICAL elements, NANOPARTICLES

Abstract

Selenium (Se) is a chemical element essential to human health because of its bioactive properties, including antioxidative, anticancer, and immunomodulating activities. Despite the high therapeutic potential of Se, its intrinsic properties of poor stability, a narrow therapeutic window, and low bioavailability and bioactivity have limited its clinical applications. Selenium nanoparticles (SeNPs) exhibit lower toxicity and higher bioactivity than other Se forms. Herein, we report a green method for the preparation of monodisperse SeNPs with starch microgel (SM) and epigallocatechin gallate (EGCG) through Se-O bonds and polysaccharide–polyphenol interactions (namely, SM-EGCG-SeNPs). SM-EGCG-SeNPs showed higher stability, bioactivities, and cytotoxicity than SeNPs and SM-SeNPs at the equivalent dose. SM-EGCG-SeNPs induced the apoptosis of cancer cells via the activation of several caspases and reactive oxygen species overproduction. This work proposes a facile method for the design and potentiation of structure-bioactive SeNPs via polysaccharide–polyphenol interactions. [ABSTRACT FROM AUTHOR]

Published

2023

45. Antifungal Activity of Selenium Nanoparticles Obtained by Plant-Mediated Synthesis.

Author

Lazcano-Ramírez, Hugo Gerardo, Garza-García, Jorge J. O., Hernández-Díaz, José A., León-Morales, Janet M., Macías-Sandoval, Alejandro S., and García-Morales, Soledad

Subjects

PHYTOPATHOGENIC fungi, PLANT diseases, PHYTOPATHOGENIC microorganisms, PATHOGENIC fungi, NANOPARTICLE size, PLANT productivity, PLANT-fungus relationships

Abstract

The continuous need to satisfy world food demand has led to the search for new alternatives to combat economic losses in agriculture caused by phytopathogenic fungi. These organisms cause plant diseases, reducing their productivity and decreasing fruit quality. Among the new tools being explored is nanotechnology. Nanoparticles with antimicrobial properties could be an excellent alternative to address this problem. In this work, selenium nanoparticles (SeNPs) were obtained using plant extracts of Amphipterygium glaucum leaves (SeNPs-AGL) and Calendula officinalis flowers (SeNPs-COF). Characterization of the SeNPs was performed and their ability as antifungal agents against two commercially relevant plant pathogenic fungi, Fusarium oxysporum and Colletotrichum gloeosporioides, was evaluated. Assays were performed with different concentrations of SeNPs (0, 0.25, 0.5, 1.0, and 1.7 mg/mL). It was observed that both SeNPs had antifungal activity against both plant pathogens at concentrations of 0.25 mg/mL and above. SeNPs-AGL demonstrated better antifungal activity and smaller size (around 8.0 nm) than SeNPs-COF (134.0 nm). FTIR analysis evidenced the existence of different functional groups that constitute both types of SeNPs. There are factors that have to be considered in the antimicrobial activity of SeNPs such as nanoparticle size and phytochemical composition of the plant extracts used, as these may affect their bioavailability. [ABSTRACT FROM AUTHOR]

Published

2023

46. Selenium Nanoparticles Can Influence the Immune Response Due to Interactions with Antibodies and Modulation of the Physiological State of Granulocytes.

Author

Khabatova, Venera V., Serov, Dmitriy A., Tikhonova, Irina V., Astashev, Maxim E., Nagaev, Egor I., Sarimov, Ruslan M., Matveyeva, Tatiana A., Simakin, Alexander V., and Gudkov, Sergey V.

Subjects

*IMMUNE response, *CELL culture, *IMMUNOGLOBULINS, *BLOOD cells, *PROGENITOR cells, *SELENIUM, *GRANULOCYTES, *BONE marrow

Abstract

Currently, selenium nanoparticles (SeNPs) are considered potential immunomodulatory agents and as targets for activity modulation are granulocytes, which have the most abundant population of immune blood cells. The present study aims to evaluate the cytotoxic effect and its effect on the functional responses of granulocytes. In addition to the intrinsic activity of SeNPs, we studied the activity of the combination of SeNPs and IgG antibodies. Using laser ablation and fragmentation, we obtained nanoparticles with an average size of 100 nm and a rather narrow size evolution. The resulting nanoparticles do not show acute toxicity to primary cultures of fibroblasts and hepatocytes, epithelial-like cell line L-929 and granulocyte-like culture of HL-60 at a concentration of 109 NPs/mL. SeNPs at a concentration of 1010 NPs/mL reduced the viability of HL-60 cells by no more than 10% and did not affect the viability of the primary culture of mouse granulocytes, and did not have a genotoxic effect on progenitor cells. The addition of SeNPs can affect the production of reactive oxygen species (ROS) by mouse bone marrow granulocytes, modulate the proportion of granulocytes with calcium spikes and enhance fMLF-induced granulocytes degranulation. SeNPs can modulate the effect of IgG on the physiological responses of granulocytes. We studied the expression level of genes associated with inflammation and cell stress. SeNPs increase the expression of catalase, NF-κB, Xrcc5 and some others; antibodies enhance the effect of SeNPs, but IgG without SeNPs decreases the expression level of these genes. This fact can be explained by the interaction between SeNPs and IgG. It has been established that antibodies interact with SeNPs. We showed that antibodies bind to the surface of selenium nanoparticles and are present in aqueous solutions in a bound form from DLS methods, ultraviolet–visible spectroscopy, vibrational–rotational spectrometry, fluorescence spectrometry, and refractometry. At the same time, in a significant part of the antibodies, a partial change in the tertiary and secondary structure is observed. The data obtained will allow a better understanding of the principles of the interaction of immune cells with antibodies and SeNPs and, in the future, may serve to create a new generation of immunomodulators. [ABSTRACT FROM AUTHOR]

Published

2022

47. Effect of Phytosynthesized Selenium and Cerium Oxide Nanoparticles on Wheat (Triticum aestivum L.) against Stripe Rust Disease.

Author

Shahbaz, Muhammad, Fatima, Noor, Mashwani, Zia-ur-Rehman, Akram, Abida, Haq, Ehsan ul, Mehak, Asma, Abasi, Fozia, Ajmal, Maryam, Yousaf, Tayyaba, Raja, Naveed Iqbal, UlHassan, Hammad, and Pérez de la Lastra, José Manuel

Subjects

*CERIUM oxides, *STRIPE rust, *RUST diseases, *WHEAT, *PLANT extracts, *SELENIUM, *ULTRAVIOLET-visible spectroscopy

Abstract

In this study, selenium nanoparticles (SeNPs) and cerium oxide nanoparticles (CeONPs) were synthesized by using the extract of Melia azedarach leaves, and Acorus calamusas rhizomes, respectively, and investigated for the biological and sustainable control of yellow, or stripe rust, disease in wheat. The green synthesized NPs were characterized by UV-Visible spectroscopy, scanning electron microscopy (SEM), energy-dispersive X-ray (EDX), and X-ray diffraction (XRD). The SeNPs and CeONPs, with different concentrations (i.e., 10, 20, 30, and 40 mg/L), were exogenously applied to wheat infected with Puccinia striformis. SeNPs and CeONPs, at a concentration of 30 mg/L, were found to be the most suitable concentrations, which reduced the disease severity and enhanced the morphological (plant height, root length, shoot length, leaf length, and ear length), physiological (chlorophyll and membrane stability index), biochemical (proline, phenolics and flavonoids) and antioxidant (SOD and POD) parameters. The antioxidant activity of SeNPs and CeONPs was also measured. For this purpose, different concentrations (50, 100, 150, 200 and 400 ppm) of both SeNPs and CeONPs were used. The concentration of 400 ppm most promoted the DPPH, ABTS and reducing power activity of both SeNPs and CeONPs. This study is considered the first biocompatible approach to evaluate the potential of green synthesized SeNPs and CeONPs to improve the health of yellow, or stripe rust, infected wheat plants and to provide an effective management strategy to inhibit the growth of Puccinia striformis. [ABSTRACT FROM AUTHOR]

Published

2022

48. Antioxidant and anti‐apoptotic effects of selenium nanoparticles and Lactobacillus casei on mice testis after X‐ray.

Author

Ehghaghi, Alireza, Zokaei, Elham, Modarressi, Mohammad Hossein, Tavoosidana, Gholamreza, Ghafouri‐Fard, Soudeh, Khanali, Faeze, Motevaseli, Elahe, and Noroozi, Zahra

Subjects

*LACTOBACILLUS casei, *IONIZING radiation, *TESTIS, *X-rays, *SYRIANS, *GOAT milk, *CATALASE

Abstract

Radiation can lead to various damages in the process of spermatogenesis that lead to a decrease in the number of sperm, an increase in spermatogenesis disorders, and defective sperm function. Radioprotectors are considered a good approach to reducing the damage caused by radiation. The goal of this work was to study how X‐ray radiation affects testicular tissue and the process of spermatogenesis, as well as the radioprotective effects of selenium nanoparticles (SeNPs) and Lactobacillus casei (L. casei) as probiotic compounds, given alone or together. This study included 64 adult Syrian male mice weighing approximately 20 ± 5 g and aged 10 ± 1 weeks. Animals were randomly divided into eight groups: control group, SeNPs, probiotic, SeNPs and probiotic, X‐ray radiation, SeNPs (X‐ray), probiotic (X‐ray), and SeNPs and probiotic (X‐ray). Histology parameters and levels of oxidative stress biomarkers such as catalase, malondialdehyde, superoxide dismutase, and glutathione peroxidase were examined. In addition, the level of apoptosis was measured in testicular cells that had been treated with SeNPs and L. casei as a probiotic. The results showed that the administration of SeNPs or probiotic diminished the effects of X‐ray radiation. These compounds induced a significant decreased in malondialdehyde, caspase 3, and caspase 9 gene levels and a remarkable increased in catalase, superoxide dismutase, and Catsper gene expression. SeNPs and probiotic exhibited a potent antioxidant effect and elevated the mean number of spermatogonia cells, sperm cell count, spermatogenesis percentage, and sperm motility percentage. The prescribed compound exhibited an ideal radioprotective effect with the ability to reduce the side effects of ionizing radiation and to protect normal tissues. SeNPs and probiotic inhibit testicular injury and improve the antioxidant state in male mice. [ABSTRACT FROM AUTHOR]

Published

2022

49. Chemical free, bio-Intercalation of selenium nanoparticles for highly accelerated photo-responsive of organic contaminants debasement and their in-vitro anti-bacterial agents, anti-oxidants effect, cyto-toxic analysis.

Author

Rajendran, Janani, Jeyaraman, Prasanna, Sakthivel, Elamathi, Almansour, Abdulrahman I., Arumugam, Natarajan, and Raja, Pandian Bothi

Subjects

*ANTIBACTERIAL agents, *MANGROVE plants, *X-ray diffraction, *ANTINEOPLASTIC agents, *POLLUTANTS

Abstract

This study investigates the use of Excoecaria agallocha leaves as a bio-template for the intercalation of Selenium nanoparticles (SeNPs). The synthesized SeNPs were characterized using techniques like SEM-EDX, TEM/HR-TEM, and XRD spectroscopic studies. The study found that SeNPs showed maximum cleaning ability at a dosage of 50 μl/mL, with 95% inhibition of DPPH radicals. However, cellular absorption was limited to 55% at concentrations of 300 μg/L over a 72-h period. The synthesized SeNPs also demonstrated a strong cytotoxic effect on MCF-7 breast cancer cell lines, indicating their potential as anti-cancer agents. Further research is needed to fully explore the potential of these novel nanocomposites. • Bio-template Se NPs were successfully binded using mangrove plant species. • High photo responsive selenium catalyst very short 99% for about 90min. • Selenium catalyst act as multifunctionally role such as photocatalyst, and also biomedicine. • Cellular absorption of Se NPs through living organisms with cell viability was restricted to 55 % in vitro for 72 h. [ABSTRACT FROM AUTHOR]

Published

2024

50. Selenium nanoparticles enhance the anti-tumor immune responses of anti-4-1BB antibody and alleviate the adverse effects on mice.

Author

zhang, Lei, Liu, Houru, Shen, Jie, Liu, Wenting, Liu, Dahai, Cheng, Liansheng, and Huang, Bei

Subjects

*MONONUCLEAR leukocytes, *REGULATORY T cells, *IMMUNE response, *SPLEEN, *LUNG tumors, *IMMUNOASSAY

Abstract

4-1BB agonists for cancer immunotherapy have shown good preliminary efficacy in clinical trials, but several of the first-generation 4-1BB agonistic antibodies entering the clinic have failed due to safety issues. Selenium nanoparticles (SeNPs) exhibit anti-inflammatory, anti-tumor, antioxidant, and immune-modulating properties. In addition, they have been shown to have detoxifying effects and prevent oxidative liver damage. In this study, we used an anti-4-1BB antibody in combination with SeNPs to evaluate the anti-lung cancer effects in in vitro and in vivo experiments and explore the underlying mechanisms by pathological analyses, quantitative PCR, and enzyme-linked immunoassay. We found that 5 μmol·L–1 anti-4-1BB antibody combined with 1 μmol·L–1 SeNPs increased the expression of IFN-γ and promoted the killing effects of peripheral blood mononuclear cells on Lewis lung carcinoma cells, with a lethality rate up to 56.88 %. Experiments in tumor-bearing mice showed that the tumor inhibition rate was 58.61 % after treatment with 3.5 mg/kg anti-4-1BB antibody combined with 0.25 mg/kg SeNPs, and the liver function index returned to normal. When the combined treatment was compared with the antibody treatment alone, detection of immune relevant factors demonstrated that the expression of FOXP3, IL-2, IL-12, and TNF-α in the spleen was downregulated, whereas the expression of IFN-γ in the spleen, serum, and tumor was upregulated, accompanied by increased Fas ligand expression in the tumor tissues. Based on these findings, we get the conclusion that anti-4-1BB antibody combined with SeNPs may alleviate the immunosuppression of regulatory T cells, promote the immune cell proliferation and metastasis to synergistically kill tumor cells. This combination also reduces the inflammatory damage to normal tissues and slows overstimulation of the splenic immune response. [ABSTRACT FROM AUTHOR]

Published

2024