Gehad S. Ghaith’s research while affiliated with Benha University and other places

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Publications (1)

Analysis of the 16S rDNA of Lactobacillus acidophilus strain RBIM phylogenetic tree available in GenBank. The tree suggests that the strain RBIM belongs to the same species as other Lactobacillus acidophilus strains. Furthermore, the phylogenetic tree indicates that the strain RBIM is distinct from other Lactobacillus species
An FTIR spectrum of Lactobacillus acidophilus strain RBIM displays peaks at different wave numbers. Lactobacillus acidophilus strain RBIM exhibited various bands characteristic of AgNPs, which indicates that the AgNPs were highly effective at this specific frequency
Analysis of AgNPs extractions by UV–Vis from lysed Lactobacillus acidophilus strain RBIM cultured in AgNO3 and dispersed in deionized water. The peak is located at 575–585 nm. In this peak, AgNPs were extracted from the solution, indicating that the synthesized AgNPs were successfully extracted
A AgNPs XRD spectrum recorded for Lactobacillus acidophilus. The spectrum presented peaks at 2θ values of 38.2°. These peaks are consistent with the crystalline structure of the AgNPs. This indicates that the AgNPs were successfully synthesized and interacted with the bacteria. B AgNPs micrographed by TEM. Approximately 17 nm in diameter with a standard deviation of 2 nm were the mean sizes of the AgNPs. Throughout the sample, the particles were uniformly distributed and spherical. TEM micrographs revealed that AgNPs were uniformly sized and distributed
A AO/EB fluorescence images for (Ab) Control and (Ab),(AC) 50 μg/ml AgNPs-treated-HepG-2 cells. The arrows indicate that the cells are experiencing apoptosis, which results in chromatin condensation and fragmentation. Early-stage apoptosis is characterized by chromatin condensation, whereas late-stage apoptosis is characterised by chromatin fragmentation. B The amount of M30 in cell extracts. HepG2 cells were given an AgNPs treatment of 50 µg/ml over 24–48 h. The M30 epitope is also detected in HepG2 cells, indicating cell death. A higher level of these molecules was found in AgNPs-treated cells compared to controls, reaching a peak after 24 h. The graphs reveal the results as the mean ± SD of three replicates

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Probiotic-derived silver nanoparticles target mTOR/MMP-9/BCL-2/dependent AMPK activation for hepatic cancer treatment
  • Article
  • Full-text available

April 2024

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14 Citations

Medical Oncology

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Recent advances in nanotechnology have offered novel ways to combat cancer. By utilizing the reducing capabilities of Lactobacillus acidophilus, silver nanoparticles (AgNPs) are synthesized. The anti-cancer properties of AgNPs have been demonstrated in previous studies against several cancer cell lines; it has been hypothesized that these compounds might inhibit AMPK/mTOR signalling and BCL-2 expression. Consequently, the current research used both in vitro and in silico approaches to study whether Lactobacillus acidophilus AgNPs could inhibit cell proliferation autophagy and promote apoptosis in HepG2 cells. The isolated strain was identified as Lactobacillus acidophilus strain RBIM based on 16 s rRNA gene analysis. Based on our research findings, it has been observed that this particular strain can generate increased quantities of AgNPs when subjected to optimal growing conditions. The presence of silanols, carboxylates, phosphonates, and siloxanes on the surface of AgNPs was confirmed using FTIR analysis. AgNPs were configured using UV–visible spectroscopy at 425 nm. In contrast, it was observed that apoptotic cells exhibited orange-coloured bodies due to cellular shrinkage and blebbing initiated by AgNP treatment, compared to non-apoptotic cells. It is worth mentioning that AgNPs exhibited remarkable selectivity in inducing cell death, specifically in HepG2 cells, unlike normal WI-38 cells. The half-maximum inhibitory concentration (IC50) values for HepG2 and WI-38 cells were 4.217 µg/ml and 154.1 µg/ml, respectively. AgNPs induce an upregulation in the synthesis of inflammation-associated cytokines, including (TNF-α and IL-33), within HepG2 cells. AgNPs co-treatment led to higher glutathione levels and activating pro-autophagic genes such as AMPK. Additionally, it resulted in the suppression of mTOR, MMP-9, BCL-2, and α-SMA gene expression. The docking experiments suggest that the binding of AgNPs to the active site of the AMPK enzyme leads to inhibiting its activity. The inhibition of AMPK ultimately results in the suppression of the mechanistic mTOR and triggers apoptosis in HepG2 cells. In conclusion, the results of our study indicate that the utilization of AgNPs may represent a viable strategy for the eradication of liver cancerous cells through the activation of apoptosis and the enhancement of immune system reactions. Supplementary Information The online version contains supplementary material available at 10.1007/s12032-024-02330-8.

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Citations (1)

... Among the various nanoscale drug delivery strategies, AgNPs have emerged as one of the most extensively studied nanotechnology-based structures due to their distinct physicochemical properties [31]. In addition to their role in drug delivery, AgNPs are widely recognized for their antimicrobial, optical, electrical, and catalytic properties. ...

Reference:

Nanotechnology-Based Delivery Systems for Enhanced Targeting of Tyrosine Kinase Inhibitors: Exploring Inorganic and Organic Nanoparticles as Targeted Carriers
Probiotic-derived silver nanoparticles target mTOR/MMP-9/BCL-2/dependent AMPK activation for hepatic cancer treatment

Medical Oncology

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