Antioxidant and anti-cancer potentials of Ag green-synthesized and encapsulated olive leaves particles on HCT-116 cells.

Water extracts (OLE), whey protein encapsulated extracts (OLE/WPNs), and silver nanoparticles (OLE/Ag-NPs) were prepared from olive leaves of Manzenllie and Picual varieties. These preparations were characterized, and their antioxidant and biological activities on Vero and HCT-116 colorectal cells were assessed. The mechanism of action of the preparations was studied through tumor necrosis factor-α (TNF-α) and cytochrome C oxidase (Cox1) gene expression. OLE/Ag-NPs showed smaller particle sizes (14.23-15.53 nm) than OLE/WPNs (229.83-310.67 nm) and demonstrated lower aggregation due to their high Ƹ-potential of -24.86 to -27.90 mV. None of the preparations affected the viability of Vero cells (IC50 = 192.19-421.01 µg/mL), but they showed cytotoxic effects on HCT-116 cells (IC50 = 50.76-196.54 µg/mL), particularly OLE/WPNs. Moreover, the preparations from the Picual variety (OLE, OLE/WPNs, and OLE/Ag-NPs) showed regulatory effects against colon cancer on treated HCT-116 cells by upregulating Cox1 expression and downregulating TNF-α expression. Consequently, OLE/WPNs and OLE/Ag-NPs could be promising for industrial applications with potential health benefits.

Antiviral Activity of Biosynthesized Silver Nanoparticles from Pomegranate (Punica granatum L.) Peel Extract against Tobacco Mosaic Virus.

Tobacco mosaic virus (TMV) is a major pathogen affecting tomato plants worldwide. The efficacy of silver nanoparticles (Ag-NPs) mediated by Punica granatum biowaste peel extract in mitigating the negative impact of TMV infection on tomato growth and oxidative stress was investigated through scanning electron microscopy (SEM), transmission electron microscopy (TEM), UV-Visible (UV-Vis) spectrophotometer, X-ray Diffraction (XRD), dynamic light scattering (DLS), zeta potential, energy-dispersive X-ray spectroscopy (EDX), and Fourier-transform infrared spectra (FTIR). Results of SEM analysis of green Ag-NPs revealed the presence of condensed spherical or round NPs with diameters ranging between 61 and 97 nm. TEM confirmed the SEM results and showed round-shaped Ag-NPs with an average size of 33.37 ± 12.7 nm. The elemental analysis (EDX) of prepared Ag-NPs revealed the presence of elemental Ag as a major peak (64.43%) at 3-3.5 KeV. The FTIR revealed several functional groups on the prepared Ag-NPs, for which three treatment strategies for Ag-NP applications were evaluated in the greenhouse study and compared to inoculated TMV and control plants: pre-infection treatment (TB), post-infection treatment (TA), and dual treatment (TD). The results showed that the TD strategy is the most effective in improving tomato growth and reducing viral replication, whereas all Ag-NP treatments (TB, TA, and TD) were found to significantly increase expression of the pathogenesis-related (PR) genes PR-1 and PR-2, as well as polyphenolic compounds, HQT, and C4H genes compared to control plants. In contrast, the flavonoid content of tomato plants was not affected by the viral infection, while the phenolic content was significantly reduced in the TMV group. Furthermore, TMV infection led to a significant increase in oxidative stress markers MDA and H2O2, as well as a reduction in the enzymatic activity of the antioxidants PPO, SOD, and POX. Our results clearly showed that the application of Ag-NPs on TMV-infected plants reduces virus accumulation, delays viral replication in all treatments, and greatly enhances the expression of the CHS gene involved in flavonoid biosynthesis. Overall, these findings suggest that treatment with Ag-NPs may be an effective strategy to mitigate the negative impact of TMV infection on tomato plants.

Foliar Application of Nanoclay Promotes Potato (Solanum tuberosum L.) Growth and Induces Systemic Resistance against Potato Virus Y.

Potato virus Y (PVY) is one of the most harmful phytopathogens. It causes big problems for potatoes and other important crops around the world. Nanoclays have been extensively studied for various biomedical applications. However, reports on their interactions with phytopathogens, particularly viral infections, are still limited. In this study, the protective activity of Egyptian nanoclay (CE) and standard nanoclay (CS) against PVY was evaluated on potato (Solanum tuberosum L.) plants. Their physicochemical and morphological properties were examined with scanning electron microscopy (SEM), transmission electron microscopy (TEM), Fourier-transform infrared spectroscopy (FTIR), and energy dispersive spectrometer (EDS). SEM and TEM analyses revealed that CE has a spherical and hexagonal structure ranging from 20 to 80 nm in size, while CS has boulder-like and tubular structures of about 320 nm in size. FTIR and EDS showed that both nanoclay types have different functional groups and contain many vital plant nutrients that are necessary for every stage and process of the plant, including development, productivity, and metabolism. Under greenhouse conditions, a 1% nanoclay foliar application enhanced potato growth, reduced disease symptoms, and reduced PVY accumulation levels compared with non-treated plants. Significant increases in levels of antioxidant enzymes (PPO and POX) and considerable decreases in oxidative stress markers (MDA and H2O2) were also reported. Moreover, a significant increase in the transcriptional levels of defense-related genes (PAL-1, PR-5, and CHI-2) was observed. All experiment and analysis results indicate that the CE type is more effective than the CS type against PVY infection. Based on these results, the foliar applications of nanoclay could be used to manage plant viral infections in a way that is both effective and environmentally friendly. To our knowledge, this is the first report of the antiviral activity of the foliar application of nanoclay against PVY infection.

Architectural distortion outcome: digital breast tomosynthesis-detected versus digital mammography-detected.

OBJECTIVES: To compare the outcome for DBT-detected and DM-detected suspicious AD, to evaluate the risk of malignancy and if is affected by the US or MRI imaging correlation. METHODS: All cases with suspicious AD (ultimately assigned BI-RADS 4 or 5 categories) were retrospectively included. Two radiologists independently reviewed DM and DBT images in two sessions for detection (DM vs. DBT). US and MRI imaging correlation findings were recorded. Pathologic results were compared between DBT-detected and DM-detected AD. RESULTS: Among 137 detected ADs, 103 (75.2%) were DM-detected, and 34 (24.8%) were only DBT-detected (p = 0.01). The malignancy rate was lower for DBT-detected than DM-detected AD (14.7% vs. 45.6%) (p = 0.01). Malignancy rate was higher with US-positive than US-negative correlation at DM-detected AD (49.4% vs. 27.8%) (p = 0.01). Malignancy rate was not different for DBT-detected AD with (16.7%) or without (12.5%) sonographic correlation. NPV based on radiologists' level of suspicion was high (86.2%-97.2%) but not sufficient enough to forgo biopsy. Of 34 sonographically occult ADs, a positive-MRI correlation was identified in 19 (55.9%) ADs (7 were malignant, 12 were benign). A negative-MRI correlation was identified in 15 (44.1%) ADs; all had a benign outcome (p = 0.01). CONCLUSIONS: DBT-detected AD is less likely to represent malignancy than does DM-detected; however, the risk of malignancy is not low enough to forgo biopsy. MRI-negative correlation in sonographically occult AD was significantly associated with benign outcomes and can avoid unnecessary interventions.

Immunohistochemical Evaluation of Leptin Role in Skin Tags.

Skin tags (STs) are common benign dermal connective tissue neoplasms that are mainly composed of loose fibrous tissue. However, their exact etiology is not fully understood. Leptin is a major player in the biology and pathology of the skin and its appendages. It is linked to cell differentiation, proliferation, migration, and survival with pronounced effects on angiogenesis, blood flow, and tissue perfusion. This study aimed at investigating the possible role of leptin in STs pathogenesis and correlating its expression with different clinical and histopathological parameters. Using immunohistochemical techniques, we examined 90 subjects. These included 60 non-obese cases with STs and 30 age-, gender- and Body Mass Index-matched normal subjects as a control group. Leptin was overexpressed in STs compared with normal skin (p < .001). Nuclear and nucleocytoplasmic patterns were significantly associated with cases both in epidermis (p < .04) and dermis (p < .001). Higher epidermal leptin H score was significantly associated with female gender (p = .004) and haphazard collagen arrangement (p < .03). Higher dermal leptin H score was significantly associated with smooth skin tags (p = .01), dilated blood vessels (p = .04), presence of mast cells (MCs) (p = .002), presence of inflammatory cells (p = .004), and haphazard collagen arrangement (p < .001). In conclusion, leptin may play a role in STs pathogenesis through its effects on keratinocytes, fibroblasts and vascular endothelium. Further studies are recommended to clarify the molecular interplay between leptin and MCs in ST pathogenesis. Further studies are also needed to determine the significance of its nuclear expression.