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3. Unusual location of pleomorphic xanthoastrocytoma: a case report

Author

Sara T. Alharbi, Mona Alrehaili, Ahmed Alhujaily, Aysam Adnan Almashni, and Abdulrahman Almughathawi

Subjects
Pleomorphic xanthoastrocytoma, Periventricular, Magnetic resonance imaging, Neurosurgery, Case report, Medical physics. Medical radiology. Nuclear medicine, R895-920
Abstract

Abstract Background Pleomorphic xanthoastrocytoma is a rare astrocytic tumor often diagnosed at a young age. Typically, they appear as supratentorial cortical tumors, frequently involving the temporal lobe with few reported rare locations. The prognosis is favorable following surgical excision; however, recurrence, dissemination, and anaplastic transformation occurred in some cases. Case presentation A 50-year-old female presented with convulsions and an altered consciousness. Imaging showed a periventricular mixed solid and cystic lesion. Histopathological examination revealed features of pleomorphic xanthoastrocytoma WHO grade 2 without necrosis or mitotic activity. Conclusions This report highlights the classic imaging findings of pleomorphic xanthoastrocytoma but in an atypical periventricular location. Although rare, pleomorphic xanthoastrocytoma should be considered in the differential diagnosis of mixed solid and cystic periventricular lesions.

Published
2024
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6. Novel antimicrobial peptides identified in legume plant, Medicago truncatula

Author

Areej A. Alhhazmi, Sarah S. Alluhibi, Rahaf Alhujaily, Maymona E. Alenazi, Taif L. Aljohani, Al-Anoud T. Al-Jazzar, Ahaad D. Aljabri, Razan Albaqami, Dalal Almutairi, Lujain K. Alhelali, Hibah M. Albasri, Yahya A. Almutawif, Mohammad A. Alturkostani, and Abullah Z. Almutairi

Subjects
antibiotics, antimicrobial peptide, nodule-specific cysteine-rich peptide, Gram-negative bacteria, Medicago truncatula, antimicrobial activity, Microbiology, QR1-502
Abstract

ABSTRACTOne of the major issues in healthcare today is antibiotic resistance. Antimicrobial peptides (AMPs), a subclass of host defense peptides, have been suggested as a viable solution for the multidrug resistance problem. Legume plants express more than 700 nodule-specific cysteine-rich (NCR) peptides. Three NCR peptides (NCR094, NCR888, and NCR992) were predicted to have antimicrobial activity using in silico AMP prediction programs. This study focused on investigating the roles of the NCRs in antimicrobial activity and antibiofilm activity, followed by in vitro toxicity profiling. Different variants were synthesized, i.e., mutated and truncated derivatives. The effect on the growth of Klebsiella pneumoniae and methicillin-resistant Staphylococcus aureus (MRSA) was monitored post-treatment, and survived cells were counted using an in vitro and ex vivo killing assay. The antibiofilm assay was conducted using subinhibitory concentrations of the NCRs and monitoring K. pneumoniae biomass, followed by crystal violet staining. The cytotoxicity profile was evaluated using erythrocyte hemolysis and leukemia (K562) cell line toxicity assays. Out of the NCRs, NCR094 and NCR992 displayed mainly in vitro and ex vivo bactericidal activity on K. pneumoniae. NCR094 wild type (WT) and NCR992 eradicated K. pneumoniae at different potency; NCR094 and NCR992 killed K. pneumoniae completely at 25 and 50 µM, respectively. However, both peptides in the wild type showed negligible bactericidal effect on MRSA in vitro and ex vivo. NCR094 and its derivatives relatively retained the antimicrobial activity on K. pneumoniae in vitro and ex vivo. NCR992 WT lost its antimicrobial activity on K. pneumoniae ex vivo, yet the different truncated and mutated variants retained some of the antimicrobial role ex vivo. All the different variants of NCR094 had no effect on MRSA in vitro and ex vivo. Similarly, NCR992’s variants had a negligible bactericidal role on MRSA in vitro, yet the truncated variants had a significantly high bactericidal effect on MRSA ex vivo. NCR094.3 (cystine replacement variant) and NCR992.1 displayed significant antibiofilm activity more than 90%. NCR992.3 and NCR992.2 displayed more than 50% of antibiofilm activity. All the NCR094 forms had no toxicity, except NCR094.1 (49.38%, SD ± 3.46) and all NCR992 forms (63%–93%), which were above the cutoff (20%). Only NCR992.2 showed low toxicity on K562 (24.8%, SD ± 3.40), yet above the 20% cutoff. This study provided preliminary antimicrobial and safety data for the potential use of these peptides for therapeutical applications.IMPORTANCEThe discovery of new antibiotics is urgently needed, given the global expansion of antibiotic-resistant bacteria and the rising mortality rate. One of the initial lines of defense against microbial infections is antimicrobial peptides (AMPs). Plants can express hundreds of such AMPs as defensins and defensin-like peptides. The nodule-specific cysteine-rich (NCR) peptides are a class of defensin-like peptides that have evolved in rhizobial–legume symbioses. This study screened the antimicrobial activity of a subset of NCR sequences using online computational AMP prediction algorithms. Two novel NCRs, NCR094 and NCR992, with different variants were identified to exhibit antimicrobial activity with various potency on two problematic pathogens, K. pneumoniae and MRSA, using in vitro and ex vivo killing assays. Yet, one variant, NCR094.3, had no toxicity toward human cells and displayed antibiofilm activity, which make it a promising lead for antimicrobial drug development.

Published
2024
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8. Exploring the potential impact of applying web-based training program on nurses' knowledge, skills, and attitudes regarding evidence-based practice: A quasi-experimental study.

Author

Rasha A Mohamed, Muhanad Alhujaily, Faransa A Ahmed, Wael G Nouh, and Abeer A Almowafy

Subjects
Medicine, Science
Abstract

Evidence-based practice (EBP) has gained significant importance in clinical practice worldwide, including in nursing. This study aimed to explore the potential impact of applying a web-based training program on nurses' knowledge, skills, and attitudes regarding EBP. A quasi-experimental pretest-posttest research design was utilized with a purposive sample of 64 professional nurses who agreed to participate. The study took place in different hospitals and primary healthcare centers in the Bisha Governorate, Aseer region, Saudi Arabia. A four-week standardized web-based training program was implemented using an online learning approach. Nurses were provided with an online self-rated data collection tool through the Google Forms platform. The findings indicated a highly significant difference in the total knowledge and EBP skills mean scores of the post-intervention (53.08±15.9) and (66.03±8.95), respectively compared to pre-intervention (P

Published
2024
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9. Nurses' experiences and perspectives regarding evidence‐based practice implementation in healthcare context: A qualitative study

Author

Rasha A. Mohamed, Muhanad Alhujaily, Faransa A. Ahmed, Wael G. Nouh, and Abeer A. Almowafy

Subjects
clinical practice, evidence‐based practice, experiences, healthcare, implementation, nurses, Nursing, RT1-120
Abstract

Abstract Aim To explore nurses' experiences and perspectives about evidence‐based practice (EBP) implementation in the healthcare context. Design A qualitative descriptive study design using focus group discussions (FGDs). Method Sixty‐four nurses who purposefully selected and worked at various healthcare organizations in Bisha Governorate, Saudi Arabia, were included. Eight FGDs were used to obtain data using open‐ended questions. The collected data underwent inductive qualitative content analysis. Results Two main categories were extracted: experiences and perspectives towards EBP. The experiences category emerged into four sub‐categories: familiarity with concepts and benefits, steps, dissemination sources of EBP and sources of EBP knowledge, while perspectives towards the EBP category included four sub‐categories: application of EBP in clinical practice, barriers, facilitators and EBP application methods. The participants experienced being in a non‐supportive and non‐encouraging atmosphere which results from a lack of organizational commitment to EBP implementation and illuminates the complexities involved in the integration process. Conclusion The nurses' experience with EBP indicated that there was limited support for the implementation of this approach. Furthermore, they experienced varying barriers to EBP implementation. They viewed EBP as a complex technique as they lacked knowledge and skills related to the formulation of research questions, and retrieving, applying and disseminating of EBP in clinical practice decision‐making. That is due to barriers pertinent to the individual, organizational and patient factors. The key to successfully implementing an EBP in nursing practice is to promote professional development, comprehensive and continuous training, a culture of change, organizational support and motivation. Clinical Relevance Through the construction and provision of ongoing educational interventions and mentoring programmes about EBP, healthcare organizations and nursing leadership may develop a comprehensive strategy to encourage staff nurses' participation in the EBP process. This is to enhance nurses' experiences and perspectives towards the EBP approach and overcome the barriers to effective implementation. No Patient or Public Contribution to this Study Patients or the general public were not involved in the design, analysis or interpretation of the data in this study.

Published
2024
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13. Glyoxalase System in Breast and Ovarian Cancers: Role of MEK/ERK/SMAD1 Pathway

Author

Muhanad Alhujaily

Subjects
glyoxalase system, GLO1 and GLO2 enzymes, methylglyoxal (MGO), breast and ovarian cancer, Microbiology, QR1-502
Abstract

The glyoxalase system, comprising GLO1 and GLO2 enzymes, is integral in detoxifying methylglyoxal (MGO) generated during glycolysis, with dysregulation implicated in various cancer types. The MEK/ERK/SMAD1 signaling pathway, crucial in cellular processes, influences tumorigenesis, metastasis, and angiogenesis. Altered GLO1 expression in cancer showcases its complex role in cellular adaptation and cancer aggressiveness. GLO2 exhibits context-dependent functions, contributing to both proapoptotic and antiapoptotic effects in different cancer scenarios. Research highlights the interconnected nature of these systems, particularly in ovarian cancer and breast cancer. The glyoxalase system’s involvement in drug resistance and its impact on the MEK/ERK/SMAD1 signaling cascade underscore their clinical significance. Furthermore, this review delves into the urgent need for effective biomarkers, exemplified in ovarian cancer, where the RAGE-ligand pathway emerges as a potential diagnostic tool. While therapeutic strategies targeting these pathways hold promise, this review emphasizes the challenges posed by context-dependent effects and intricate crosstalk within the cellular milieu. Insights into the molecular intricacies of these pathways offer a foundation for developing innovative therapeutic approaches, providing hope for enhanced cancer diagnostics and tailored treatment strategies.

Published
2024
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14. Design of a highly efficient heterostructure of transition metal tellurides with outstanding photocatalytic and antimicrobial potential

Author

Misbah Umar, Humayun Ajaz, Mohsin Javed, Sana Mansoor, Shahid Iqbal, Abdul Rauf, Ahmad Alhujaily, Nasser S. Awwad, Hala A. Ibrahium, Randa A. Althobiti, Eman Alzahrani, Abd-ElAziem Farouk, Foziah F. Al-Fawzan, and Eslam B. Elkaeed

Subjects
Heterostructure, Photocatalysis, Solid state, Wastewater, Organic pollutants, antibacterial activity, Chemistry, QD1-999
Abstract

This work aimed to synthesize an effective material having greater potential to reduce water pollution caused by industrial waste and exhibit efficient antibacterial potential. The transition metals (Manganese-Mn, Zinc-Zn) and post transition metal (Tin-Sn) reacted with TeO2 in a stoichiometric ratio by adopting a solid-state reaction. The crystallite size of the synthesized compounds MnTeO3 (D1), ZnTeO3 (D2), and SnTe3O8 (D3) was measured by the Debye-Scherrer formula by extracting data from the FWHM. D1 and D2 exhibit the orthorhombic structure whereas D3 has a simple cubic structure and crystalline size was measured by FWHM i.e., 221 nm, 458 nm, and 153 nm. Catalytic degradation efficiency for the removal of MB dye was found to be in the range of 66%-73%. Additionally, these substances have strong antimicrobial action alongside both bacteria and fungi, such as Escherichia coli, Staphylococcus aureus with maximal zone inhibitions of 35.0 mm and 12.5 mm for each kind of bacterium. The highest antifungal activity of Mn integrated was estimated to be 37.2 mm versus Aspergillus niger and 15.1 mm alongside Coccidioides. According to the findings, the manufactured material has effective photocatalytic and antimicrobial activities.

Published
2023
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15. Excellent antimicrobial performances of Cu(II) metal organic framework@Fe3O4 fused cubic particles

Author

Riffat Ameen, Abdul Rauf, Ayesha Mohyuddin, Mohsin Javed, Shahid Iqbal, Sohail Nadeem, Komal Aroosh, Aziz ur Rehman Aziz, Ahmad Alhujaily, Randa A. Althobiti, Eman Alzahrani, Abd-ElAziem Farouk, Foziah F. Al-Fawzan, and Eslam B. Elkaeed

Subjects
Cu-MOF@Fe3O4 nanocomposite, Hydrothermal route, Antibacterial activity, Antibacterial mechanism, Chemistry, QD1-999
Abstract

Metal-organic frameworks have been used as antibacterial agents because of their effective antibacterial properties. In this research, nanocomposites of copper (II)- benzene-1,4-dicarboxylic acid metal–organic framework with iron oxide [Cu-MOF@Fe3O4] were prepared via a simple hydrothermal route. X-ray analysis reveals the crystallinity of the structure while FTIR analysis confirms the existence of Cu-based MOFs functional group. Cu-MOF@Fe3O4 scans using Scanning Electron Microscopy (SEM) reveal irregular clusters of cubic particles fused with Fe3O4 nanoparticles. Energy Dispersive X-ray (EDX) spectrum of Cu-MOF@Fe3O4 provides the evidence of elemental composition by showing the peaks of iron, oxygen, copper and carbon. Using the minimum inhibitory concentration (MIC) and zone of inhibition assays, the antimicrobial activity of the Cu-MOF and Cu-MOF@Fe3O4 against E. coli and B. subtilis were evaluated. The antibacterial results have shown that the Cu-MOF@Fe3O4 has higher antibacterial performance against E. coli as compared with B. subtilis as compared to Cu-MOF, Fe3O4 and ligands only. On the other hand, the Cu-MOF@Fe3O4 composites exhibit excellent antifungal potential when compared to the ligand, commercial nanoparticles, Cu(NO3)2·3H2O, iron oxide, Cu-MOF. The exploration of antibacterial mechanism revealed that the Cu-MOF@Fe3O4 composite favors slow release of metal ions and prolonged biocidal effect.

Published
2023
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17. Mining the nanotube-forming Bacillus amyloliquefaciens MR14M3 genome for determining anti-Candida auris and anti-Candida albicans potential by pathogenicity and comparative genomics analysis

Author

J. Francis Borgio, Rahaf Alhujaily, Rahaf Alquwaie, Maryam Jawad Alabdullah, Eman AlHasani, Wojod Alothman, Rawan Khalid Alaqeel, Aqeelah Salman Alfaraj, Ayidah Kaabi, Norah F. Alhur, Sultan Akhtar, Reem AlJindan, Sarah Almofty, Noor B. Almandil, and Sayed AbdulAzeez

Subjects
Genome mining, Bacillus, Antifungal activity, Cytotoxicity, Candida auris, Biosynthesis-related gene clusters, Biotechnology, TP248.13-248.65
Abstract

There is a global health concern associated with the emergence of the multidrug-resistant (MDR) fungus Candida auris, which has significant mortality rates. Finding innovative and distinctive anti-Candida compounds is essential for treating infections caused by MDR C. auris. A bacterial strain with anti-Candida activity was isolated and identified using 16 S rRNA gene sequencing. The whole genome was sequenced to identify biosynthesis-related gene clusters. The pathogenicity and cytotoxicity of the isolate were analyzed in Candida and HFF-1 cell lines, respectively. This study set out to show that whole-genome sequencing, cytotoxicity testing, and pathogenicity analysis combined with genome mining and comparative genomics can successfully identify biosynthesis-related gene clusters in native bacterial isolates that encode antifungal natural compounds active against Candida albicans and C. auris. The native isolate MR14M3 has the ability to inhibit C. auris (zone of inhibition 25 mm) and C. albicans (zone of inhibition 25 mm). The 16 S rRNA gene sequence of MR14M3 aligned with Bacillus amyloliquefaciens with similarity (100%). Bacillus amyloliquefaciens MR14M3 establishes bridges of intercellular nanotubes (L 258.56 ± 35.83 nm; W 25.32 ± 6.09 nm) connecting neighboring cells. Candida cell size was reduced significantly, and crushed phenotypes were observed upon treatment with the defused metabolites of B. amyloliquefaciens MR14M3. Furthermore, the pathogenicity of B. amyloliquefaciens MR14M3 on Candida cells was observed through cell membrane disruption and lysed yeast cells. The whole-genome alignment of the MR14M3 genome (3981,643 bp) using 100 genes confirmed its affiliation with Bacillus amyloliquefaciens. Genome mining analysis revealed that MR14M3-coded secondary metabolites are involved in the biosynthesis of polyketides (PKs) and nonribosomal peptide synthases (NRPSs), including 11 biosynthesis-related gene clusters with one hundred percent similarity. Highly conserved biosynthesis-related gene clusters with anti-C. albicans and anti-C. auris potentials and cytotoxic-free activity of B. amyloliquefaciens MR14M3 proposes the utilization of Bacillus amyloliquefaciens MR14M3 as a biofactory for an anti-Candida auris and anti-C. albicans compound synthesizer.

Published
2023
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18. Mining the nanotube-forming Bacillus amyloliquefaciens MR14M3 genome for determining anti-Candida auris and anti-Candida albicans potential by pathogenicity and comparative genomics analysis

Author

Borgio, J. Francis, Alhujaily, Rahaf, Alquwaie, Rahaf, Alabdullah, Maryam Jawad, AlHasani, Eman, Alothman, Wojod, Alaqeel, Rawan Khalid, Alfaraj, Aqeelah Salman, Kaabi, Ayidah, Alhur, Norah F., Akhtar, Sultan, AlJindan, Reem, Almofty, Sarah, Almandil, Noor B., and AbdulAzeez, Sayed

Published
2023
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19. Tumour metabolism of methylglyoxal as a target for treatment of glyoxalase1-linked multidrug resistance in cancer chemotherapy

Author

Alhujaily, Muhanad Musaad M.

Subjects
616.99, QD Chemistry, QH301 Biology, RA Public aspects of medicine, RC Internal medicine, RM Therapeutics. Pharmacology
Abstract

The glyoxalase system is the major pathway for metabolism of the reactive dicarbonyl metabolites, methylglyoxal (MG) in human cells. It is comprised of two enzymes, glyoxalase 1 (Glo1) and glyoxalase 2 (Glo2). These enzymes catalyse the metabolism of MG into D-lactate via intermediate called S-D-lactoylglutathione. MG is produced in glycolysis as a by-product by the trace-level degradation of triosephosphate glycolytic intermediates. The main physiological function of Glo1 is cytoprotective, suppressing the steady-state concentration of MG to low tolerable levels. Cytotoxicity of MG is linked to its reaction with cell protein and DNA, leading to activation of apoptosis. Overexpression of Glo1 in tumour cells is a mediator of multidrug resistance in cancer chemotherapy and cell permeable inhibitors of Glo1 have anticancer activity, suggesting that cytotoxicity of MG may have a key role in cancer chemotherapy. The host research suggested that increased Glo1 expression is permissive of high glycolytic rate and growth of many tumours. My project emerged from this to study evidence of Glo1 expression as a negative survival factor in cancer therapy and the proteomic mechanism of cytotoxicity of MG to human tumour cells. I accessed databases of gene expression in the public domain: KM Plotter – gene expression with links to breast cancer patient survival; and Cancer Cell Line Encyclopaedia (CCLE) – gene expression of human tumour cell lines. assessement between the association of Glo1 expression in cancer patients to effectiveness of treatment (progression free survival) and in human tumour cell lines to other gene expression were performed. Also investigated proteomic changes during MG-induced cytotoxicity in human HEK293 in vitro. Key findings were: Glo1 is a negative survival factor in breast cancer – hazard ratio 1.37 (1.22 – 1.53), logrank P = 2.8 x 10-8 (n = 3951); applicable for all treatments, genotypes, intrinsic subtypes and stages of breast cancers. In human tumour cell lines, Glo1 expression correlated positively with GLO1 copy number and with genes enriched in spliceosome, RNA transport, and cell cycle and DNA replication pathways, and negatively with apoptosis adaptor TRADD. In proteomics analysis of MG-induced cytotoxicity, the mitochondrial apoptosis pathway was activated and proteins of the ribosome, spliceosome, RNA transport, proteasome, respiratory electron transport, ATP formation by chemiosmotic coupling and gluconeogenesis were decreased. It is conclude that Glo1 impacts negatively on breast cancer survival and is a potential target for improved cancer therapy with Glo1 inhibitors where associated MG-induced cytotoxicity involves impairment of multiple processes, including spliceosome function.

Published
2019

20. Nanotheranostic fabrication of iron oxide for rapid photocatalytic degradation of organic dyes and antifungal potential

Author

Hina Inam, Urooj Fatima, Sammia Shahid, Sana Mansoor, Amina Yasin, Mohsin Javed, Shahid Iqbal, Ahmad Alhujaily, Randa A. Althobiti, Eman Alzahrani, Abd-ElAziem Farouk, Rasmiah S. Almufarij, and Eslam B. Elkaeed

Subjects
Wisteria sinensis, Methylene blue, Photocatalytic activity, Antioxidant activity, IC50, Chemistry, QD1-999
Abstract

This research work includes the fabrication of iron oxide nanoparticles (Fe2O3 NPs) by green construction approach using Wisteria sinensis leaves extract. Due to its eco-friendly approach, the synthesis of iron oxide NPs (Fe2O3 NPs) using various plant sources, such as plant parts, and microbial cells have gained a lot of attention in recent years. Cost-effectiveness and ease of availability make Wisteria sinensis leaves extract a potential candidate for the construction of iron oxide NPs. The various key features like biocompatibility, non-toxicity capping, and stabilizing agents present in biological sources are advantageous for usage in a variety of applications. The phytoconstituents present in the leaf extract of Wisteria sinensis serve as reducing and stabilizing agents. The biologically fabricated (Fe2O3 NPs) were analyzed using FT-IR, XRD, UV–vis spectroscopy, and SEM. In the present work, the antioxidant and photocatalytic dye degradation efficiency of Fe2O3 NPs has been studied. The dye degradation efficiency of methylene blue dye was found to be 87% at 180 min upon exposure to sunlight. The capacity of Fe2O3 NPs to scavenge 2,2-diphenyl-1-picrylhydrazyl hydrate free radicals (DPPH) was examined using a UV–Vis spectrophotometer. The study compared the radical scavenging activity (RSA) of Fe2O3 nanoparticles (NPs) with that of the standard antioxidant ascorbic acid. The results demonstrated that Fe2O3 NPs have a greater ability to scavenge radicals than ascorbic acid. The half-maximal inhibitory concentration (IC50) of Fe2O3 NPs was observed to range from 0.12 to 0.17. Furthermore, Fe2O3 NPs displayed the highest antifungal activity, with an inhibition zone of 26.8 mm against F. oxysporum. These findings suggest that the biologically synthesized Fe2O3 NPs possess potent antimicrobial and dye degradation properties.

Published
2023
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21. Molecular Assessment of Methylglyoxal-Induced Toxicity and Therapeutic Approaches in Various Diseases: Exploring the Interplay with the Glyoxalase System

Author

Muhanad Alhujaily

Subjects
methylglyoxal, glyoxalase 1, advanced glycation end products, diabetes, obesity, cardiovascular diseases, Science
Abstract

This comprehensive exploration delves into the intricate interplay of methylglyoxal (MG) and glyoxalase 1 (GLO I) in various physiological and pathological contexts. The linchpin of the narrative revolves around the role of these small molecules in age-related issues, diabetes, obesity, cardiovascular diseases, and neurodegenerative disorders. Methylglyoxal, a reactive dicarbonyl metabolite, takes center stage, becoming a principal player in the development of AGEs and contributing to cell and tissue dysfunction. The dual facets of GLO I—activation and inhibition—unfold as potential therapeutic avenues. Activators, spanning synthetic drugs like candesartan to natural compounds like polyphenols and isothiocyanates, aim to restore GLO I function. These molecular enhancers showcase promising outcomes in conditions such as diabetic retinopathy, kidney disease, and beyond. On the contrary, GLO I inhibitors emerge as crucial players in cancer treatment, offering new possibilities in diseases associated with inflammation and multidrug resistance. The symphony of small molecules, from GLO I activators to inhibitors, presents a nuanced understanding of MG regulation. From natural compounds to synthetic drugs, each element contributes to a molecular orchestra, promising novel interventions and personalized approaches in the pursuit of health and wellbeing. The abstract concludes with an emphasis on the necessity of rigorous clinical trials to validate these findings and acknowledges the importance of individual variability in the complex landscape of health.

Published
2024
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22. Selenium and/or vitamin E upregulate the antioxidant gene expression and parameters in broilers

Author

Fatma Elgendey, Rasha A. Al Wakeel, Shabaan A. Hemeda, Aya Mohamed Elshwash, Sabreen E. Fadl, Aaser M. Abdelazim, Muhanad Alhujaily, and Olla A. Khalifa

Subjects
Antioxidants, Broilers, Copper and iron, Gene expression, Selenium, Vitamin E, Veterinary medicine, SF600-1100
Abstract

Abstract Background In contrast to free radicals, the first line of protection is assumed to be vitamin E and selenium. The present protocol was designed to assess the roles of vitamin E and/or a selenium-rich diet that affected the blood iron and copper concentrations, liver tissue antioxidant and lipid peroxidation, and gene expression linked to antioxidants in the liver tissue of broilers. The young birds were classified according to the dietary supplement into four groups; control, vitamin E (100 mg Vitamin/kg diet), selenium (0.3 mg sodium selenite/kg diet), and vitamin E pulse selenium (100 mg vitamin/kg diet with 0.3 mg sodium selenite/kg diet) group. Results The results of this experiment suggested that the addition of vitamin E with selenium in the broiler diet significantly increased (P ≤ 0.05) serum iron when compared with the other groups and serum copper when compared with the vitamin E group. Moreover, the supplements (vitamin E or vitamin E with selenium) positively affected the enzymatic activity of the antioxidant-related enzymes with decreased malondialdehyde (MDA),which represents lipid peroxidation in broiler liver tissue. Moreover, the two supplements significantly upregulated genes expression related to antioxidants. Conclusion Therefore, vitamin E and/or selenium can not only act as exogenous antioxidants to prevent oxidative damage by scavenging free radicals and superoxide, but also act as gene regulators, regulating the expression of endogenous antioxidant enzymes.

Published
2022
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23. Isotherm and kinetic studies for the adsorption of methylene blue onto a novel Mn3O4-Bi2O3 composite and their antifungal performance

Author

Sameerah I. Al-Saeedi, Asfa Areej, Muhammad Tariq Qamar, Ahmad Alhujaily, Shahid Iqbal, Mohammed T. Alotaibi, Muhammad Aslam, Muhammad Abdul Qayyum, Ali Bahadur, Nasser S. Awwad, Yosef Jazaa, and Eslam B. Elkaeed

Subjects
adsorption, kinetic models, isotherms, Mn3O4-Bi2O3 composite, methylene blue, Environmental sciences, GE1-350
Abstract

Metal oxide-based adsorbents are quite in for wastewater treatment because of their selectivity, stable structure and very low solubility in aqueous systems. To explore the adsorption of methylene blue (MB), Mn3O4-Bi2O3 adsorbents were made using a wet-impregnation technique with various concentrations of Mn3O4. The presence of Mn3O4 contents on the surface of monoclinic Bi2O3 was confirmed through representative scanning electron micrographs. The diffractions pertaining to cubic Mn3O4 and monoclinic Bi2O3 were noticed in the XRD pattern of 5% Mn3O4-Bi2O3 which confirm the composite nature of the adsorbent. XPS analysis revealed the existance of Bi 4f, Bi 4d, Bi 4p, Bi4s, and Mn 2p core levels in Mn3O4-Bi2O3. The adsorption study divulged highest efficiency (∼95% and qe = ∼1.4 mgg-1) of 5% Mn3O4-Bi2O3 composite among other contestants in removing 30 ppm MB at 28 ° C, pH 7 and 250 rpm. In addition to the determination of adsorption ability, the effect of preliminary dye concentration (5, 10, 20, and 30 ppm) and contact time (0.5–6 h) on the removal efficiency of prepared adsorbents were also monitored. The adsorption data from the batch experiments were evaluated using the Langmuir, Freundlich, Temkin, and Dubinin-Radushkevich-Kaganer (DRK) adsorption isotherms and pseudo 1st and 2nd-order kinetic models. The fitting of adsorption isotherms and kinetic models revealed the formation of adsorbate’s monolayer on the surface of adsorbents through the process of chemisorption. Through FTIR measurement, the MB adsorption onto the effective adsorbent (5% Mn3O4-Bi2O3) was also confirmed. Moreover, TGA analysis showed ∼1.5% weight loss by 5% Mn3O4-Bi2O3 before MB adsorption whereas ∼2.6% weight loss was noticed after dye adsorption onto the adsorbent. The antifungal activity was evaluated against the fungi A. solani and M. fructicola using the agar well diffusion technique. The 5% Mn3O4-Bi2O3 composites have exceptional antifungal characteristics compared to Bi2O3 and Mn3O4, with zone inhibition values of 58.6 and 53.9 mm, respectively.

Published
2023
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24. Transition metal doped CeO2 for photocatalytic removal of 2-chlorophenol in the exposure of indoor white light and antifungal activity

Author

M. Tariq Qamar, Shahid Iqbal, M. Aslam, Ahmad Alhujaily, Anum Bilal, Komal Rizwan, Hafiz Muhammad Umer Farooq, Tahir Ali Sheikh, Ali Bahadur, Nasser S. Awwad, Hala A. Ibrahium, Rasmiah S. Almufarij, and Eslam B. Elkaeed

Subjects
modified CeO2, band gap energy, photocatalytic removal, 2-chlorophenol, nanocompoiste, antifungal activity, Chemistry, QD1-999
Abstract

Besides natural sunlight and expensive artificial lights, economical indoor white light can play a significant role in activating a catalyst for photocatalytic removal of organic toxins from contaminated water. In the current effort, CeO2 has been modified with Ni, Cu, and Fe through doping methodology to study the removal of 2-chlorophenol (2-CP) in the illumination of 70 W indoor LED white light. The absence of additional diffractions due to the dopants and few changes such as reduction in peaks’ height, minor peak shift at 2θ (28.525°) and peaks’ broadening in XRD patterns of modified CeO2 verifies the successful doping of CeO2. The solid-state absorption spectra revealed higher absorbance of Cu-doped CeO2 whereas a lower absorption response was observed for Ni-doped CeO2. An interesting observation regarding the lowering of indirect bandgap energy of Fe-doped CeO2 (∼2.7 eV) and an increase in Ni-doped CeO2 (∼3.0 eV) in comparison to pristine CeO2 (∼2.9 eV) was noticed. The process of e-– h+ recombination in the synthesized photocatalysts was also investigated through photoluminescence spectroscopy. The photocatalytic studies revealed the greater photocatalytic activity of Fe-doped CeO2 with a higher rate (∼3.9 × 10−3 min-1) among all other materials. Moreover, kinetic studies also revealed the validation of the Langmuir-Hinshelwood kinetic model (R2 = 0.9839) while removing 2-CP in the exposure of indoor light with a Fe-doped CeO2 photocatalyst. The XPS analysis revealed the existence of Fe3+, Cu2+ and Ni2+ core levels in doped CeO2. Using the agar well-diffusion method, the antifungal activity was assessed against the fungus M. fructicola and F. oxysporum. Compared to CeO2, Ni-doped CeO2, and Cu-doped CeO2 nanoparticles, the Fe-doped CeO2 nanoparticles have outstanding antifungal properties.

Published
2023
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25. Healthcare Provider Burnout: Red Flag fora Rising Epidemic.

Author

Adams, Ashley, Alhujaily, Ensaf, Anil, Vishwanth, Kandah, Omar, Patrick-Eisenberg, Austin, Decker, Kelsey, Khouzam, Sara R., Nagabandi, Shashi, and Khouzam, Rami N.

Subjects
*CONSCIOUSNESS raising, *MEDICAL personnel, *SLEEP, *PSYCHOLOGICAL burnout, *SECONDARY traumatic stress
Abstract

Objectives: This article aims to broaden the understanding of burnout in healthcare providers, its causes, and its reduction strategies. The objectives are to raise awareness, facilitate early intervention, and, ultimately, improve the overall well-being of healthcare providers and the quality of patient care. Methods: The study investigated healthcare-provision-associated burnout, an often-unrecognized syndrome affecting professionals worldwide, and its prevalence. it also examined the impact of burnout on patient outcomes, safety, and provider health and well-being. Here, we delve into the triad of burnout attributes: emotional exhaustion, depersonalization, and decreased personal accomplishment. Specific causes, such as work-life balance, workplace environment, and communication/teamwork, are investigated. The existing literature and studies we report explore the pathophysiological effects of burnout, including its impact on health, sleep patterns, and the alarming correlation with suicide. Results: The prevalence of burnout among healthcare providers is between 30% and 50%. Burnout is a significant factor contributing to poor patient outcomes and threatening patient safety. Furthermore, burnout can induce physical symptoms, including psychological, cardiovascular, and gastrointestinal disorders. We emphasize the importance of identifying and preventing burnout to maintain the overall integrity of healthcare providers and eliminate vulnerabilities for harm to their patients. Conclusions: Burnout awareness should be a priority from the early stages of healthcare providers' careers because it is crucial formaintaining their well-being, preventing medical errors, and sustaining high- quality patient care. The identification and prevention of burnout are deemed vital not only for the well-being of healthcare providers but also to safeguard against potential harm to patients. This article calls for in-creased awareness of burnout, its underlying causes, and the implementation of effective reduction strategies in the healthcare profession. [ABSTRACT FROM AUTHOR]

Published
2024
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26. Genome-Guided Identification of Surfactin-Producing Bacillus halotolerans AQ11M9 with Anti- Candida auris Potential.

Author

Borgio, J. Francis, Alhujaily, Rahaf, Alfaraj, Aqeelah Salman, Alabdullah, Maryam Jawad, Alaqeel, Rawan Khalid, Kaabi, Ayidah, Alquwaie, Rahaf, Alhur, Norah F., AlJindan, Reem, Almofty, Sarah, Almohazey, Dana, Natarajan, Anandakumar, Dhas, Tharmathass Stalin, AbdulAzeez, Sayed, and Almandil, Noor B.

Subjects
*WHOLE genome sequencing, *GENE clusters, *COMPARATIVE method, *NUCLEOTIDE sequencing, *SURFACTIN
Abstract

The emergence of multidrug-resistant fungi Candida auris is a worldwide health crisis connected with high rates of mortality. There is a critical need to find novel and unique antifungal compounds for treating infections of multidrug-resistant fungi such as C. auris. This study aimed to illustrate that biosynthetic gene clusters in native bacterial isolates are able to produce antifungal compounds against the multidrug-resistant fungus C. auris. It was successfully achieved using large-scale antifungal activity screening, cytotoxicity analysis, and whole genome sequencing integrated with genome mining-guided analysis and liquid chromatography–mass spectrometry (LC/MS). A list of possible gene candidates was initially identified with genome mining methods to predict secondary metabolite gene clusters of antifungal-compound-producing bacteria. Then, gene clusters present in the antifungal-compound-producing bacteria were identified and aligned with the reference genome using comparative genomic approaches. Bacillus halotolerans AQ11M9 was identified through large-scale antifungal activity screening as a natural compound-producer against multidrug-resistant C. auris, while it was nontoxic to normal human skin fibroblast cells (confirmed using a cell viability assay). The genome (4,197,347 bp) of B. halotolerans AQ11M9 with 2931 predicted genes was first mined for detecting and characterizing biosynthetic gene clusters, which revealed 10 candidate regions with antifungal activity. Clusters of AQ11M9 encoded non-ribosomal peptide synthase (NRPS) (bacilysin, bacillibactin, paenibactin, surfactin, plipastin, and fengycin) and polyketide (macrobrevin). The presence of gene clusters with anti-C. auris activity, and surfactin identified through LC/MS, from AQ11M9 suggests the potential of utilizing it as a source for a novel and powerful anti-C. auris compound. [ABSTRACT FROM AUTHOR]

Published
2024
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27. Fabrication of novel oxochalcogens halides of manganese and tin nanocomposites as highly efficient photocatalysts for dye degradation and excellent antimicrobial activity

Author

Misbah Umar, Sana Mansoor, Mohsin Javed, Nadia Hussain, Majed A. Bajaber, Shahid Iqbal, Ahmad Alhujaily, Ayesha Mohyuddin, Humayun Ajaz, Abdul Rauf, Ali Bahadur, Foziah F. Al-Fawzan, and Eslam B. Elkaeed

Subjects
solid state, degradation, heterojunction, methylene blue, antimicrobial activity, Technology
Abstract

The dark brown and white crystals of manganese and tin (Mn2Se3Cl2O7 and SnSe3O4Cl) have been synthesized by solid-state reaction at 450 C. The morphology and the elemental analysis of newly synthesized compounds were studied by SEM and EDX Analysis. SEM analysis reveals that the particle size for Mn2Se3Cl2O7 was found to be 0.2–2.5 μm and for SnSe3O4Cl 2.0–6.0 μm. The EDX studies showed the presence of Mn, Se, O, Cl, and Sn elements. Powdered XRD confirmed the presence of a new phase present in these compounds. Under UV-vis irradiation, the kinetics of methylene blue (MB) degradation catalyzed by produced nanoparticles were monitored. The dye degradation efficiency was estimated, and results reveals that after 150 min of irradiation, almost 75% of the dye was degraded in the presence of Mn compound while 71% degradation was shown by Sn compound. Both composites display antimicrobial activity against Staphylococcus aureus and Escherichia coli with a maximum value of 34.5 mm. The maximum antimicrobial activity shown by Mn-incorporated nanocomposites estimated at 32.5 mm was against Gram-positive bacteria and 26.4 mm against Gram-negative bacteria. Similarly, the maximum antifungal activity shown by Sn incorporated estimated at 33.9 mm was compared to Gram-positive bacteria and 27.8 mm against Gram-negative bacteria.

Published
2023
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28. Construction of Te-ZnO@S-g-C3N4 Heterojunction Nanocomposites for the Efficient Removal of Methylene Blue, Antifungal Activity, and Adsorption of Cr(VI) Ion

Author

Komal Aroosh, Mohsin Javed, Nadia Hussain, Ahmad Alhujaily, Shahid Iqbal, Mohammed T. Alotaibi, Muhammad Faizan, Muhammad Shuaib Khan, Ali Bahadur, Muhammad Abdul Qayyum, Nasser S. Awwad, Yosef Jazaa, Foziah F. Al-Fawzan, and Eslam B. Elkaeed

Subjects
Physical and theoretical chemistry, QD450-801
Abstract

Heterojunctions have proven to be effective catalysts for removing organic pollutants and heavy metals from wastewater. The following study is also about the formation of 2D heterojunction tellurium-doped zinc oxide composite with sulfur-doped graphitic carbon nitride (Te-ZnO@S-g-C3N4) by adopting a low-cost, simple, and ecofriendly coprecipitation technique. Thiourea was calcined to prepare S-g-C3N4 using the thermal degradation method. The characterization of synthesized photocatalysts was carried out by using SEM-EDX, FTIR, and XRD. The results obtained showed that the incorporation of tellurium caused an alteration in the wurtzite structure of ZnO. SEM-EDX analysis validated the purity of the synthesized samples due to the absence of any additional peaks. The decrease in the bandgap was also noted by the formation of composites. Using methylene blue as a reference dye, the UV-vis spectrophotometer was utilized to calculate the absorbance for photocatalytic degradation behavior. As a result of tellurium doping into the ZnO lattice, photocatalytic oxidation/reduction was improved, according to the results. 3Te-ZnO NPs showed the best degradation rate among dopant series, while an excellent overall degradation rate was noted by fabricated composite 3Te-ZnO@40S-g-C3N4. The best doped ZnO and composites were also used as sorbents for the abstraction of heavy metal (Cr(VI)) from water via adsorption. A definite rise in the removal efficiency percentage of chromium ions was observed by using these sorbents. The overall photo degradation rate and adsorption behavior noted were in ZnO

Published
2023
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29. Biosynthesis of Silver Nanoparticles Using Kitchen Vegetable Waste Extract for Application against Poultry Pathogens, Antimicrobial Activity, and Photocatalytic Dye Degradation

Author

Muhammad Amjad, Ayesha Mohyuddin, Mohsin Javed, Ahmad Alhujaily, Shahid Iqbal, Rasmiah S. Almufarij, Wajad Ulfat, Mohammed T. Alotaibi, Sohail Nadeem, Ali Bahadur, Eslam B. Elkaeed, and Abrar ul Hassan

Subjects
Chemistry, QD1-999
Abstract

Bacteria develop resistance against antimicrobial drugs, and new remediations are constantly being introduced in the market. Silver and its compounds have strong resistance against different bacteria. The vegetable waste extract-synthesized silver nanoparticles (VWE-AgNPs) have distinct properties and potential applications because of their unique size and morphology. The fundamental purpose of this study was to develop an environment-friendly method for the synthesis of VWE-AgNPs to avoid the use of hazardous chemicals that cause danger to the environment as well as recycling vegetable waste material. The VWE-AgNPs were synthesized by mixing 1 mM AgNO3 solution and VWE at room temperature. The VWE-AgNPs were characterized by UV-visible spectroscopy, FTIR, SEM, and EDX. The synthesized particles showed good antibacterial properties against poultry bacteria Salmonella gallinarum and Salmonella enteritidis (growth reduction of 31 mm and 18 mm at 80 mg/mL AgNPs, respectively). The results demonstrated that VWE-AgNPs inhibited the growth of tested bacterial strains. The fabricated VWE-AgNPs also had the potential to act as a green photocatalyst for degradation of 87.7% of methylene blue (MB) and 90.76% of methyl orange (MO) nearly at 3.25 h and 1 h sunlight exposure time, respectively. The highest antifungal activity, which was determined to be 36.5 mm and 31.8 mm against Alternata sp. and C. albican, was discovered to be in VWE-AgNPs.

Published
2023
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32. Safety and efficacy of daridorexant in the treatment of insomnia: a systematic review and meta-analysis of randomized controlled trials

Author

Albadrani, Muayad saud, albadrani, Muhannad saud, Fadlalmola, Hammad Ali, Elhusein, Amal Mohamed, Abobaker, Randa Mohamed, Merghani, Magda Mubarak, Gomaa, Salma Mohammed, Abdalla, Abdalla Mohamed, Alhujaily, Muhanad, Omair, Altufayl Abdulrahman, Ali Abdalla, Adel Mohamed, Masada, Huda Khalafallah, Veerabhadra Swamy, DS, and AL-Sayaghi, Khaled M.

Published
2023
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33. The transcription factor HNF-4α: a key player in haematological disorders

Author

Tareg Belali, Mosleh Abomughaid, and Muhanad Alhujaily

Subjects
hepatocyte nuclear factor 4, hnf-4 nuclear receptor, steroid hormone receptor family of transcription factors, haematological disorders, Medicine
Abstract

HNF-4α is a member of the steroid hormone receptor family of transcription factors with roles in the development of the liver and the regulation of several critical metabolic pathways, such as glycolysis, drug metabolism, apolipoproteins and blood coagulation. The transcriptional potency of HNF-4α is well known due to its involvement in diabetes and other metabolic diseases. However, recently HNF-4α has been discovered to be closely associated with several haematological disorders, mainly because of genetic mutations, drugs, and hepatic disorders. We review HNF-4α structure and function, and its role in haematological disorders. We discuss possible novel therapies that are based on targeting HNF-4α.

Published
2021
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34. Designing Highly Active S-g-C3N4/Te@NiS Ternary Nanocomposites for Antimicrobial Performance, Degradation of Organic Pollutants, and Their Kinetic Study

Author

Maryam Ramzan, Mohsin Javed, Shahid Iqbal, Ahmad Alhujaily, Qaiser Mahmood, Komal Aroosh, Ali Bahadur, Muhammad Abdul Qayyum, Nasser S. Awwad, Hala A. Ibrahium, Murefah Mana Al-Anazy, and Eslam B. Elkaeed

Subjects
synthesis of NiS, synthesis of Te@NiS, synthesis of S-g-C3N4/Te@NiS nanocomposites, antibacterial study, photocatalytic activity, Inorganic chemistry, QD146-197
Abstract

The current research is about the synthesis of pure nickel sulfide, a series of Te (0, 0.5, 1, 1.5, 2, and 3 wt.%)-doped NiS (Te@NiS) nanoparticles (NPs), and a series of S-g-C3N4 (10, 30, 50, 70, and 80 wt.%)/Te@NiS nanocomposites (NCs), fabricated through a hydrothermal route. XRD and FTIR spectroscopic techniques demonstrated the successful synthesis of NPs and NCs. SEM-EDX images confirmed the flakelike structure and elemental constituents of the fabricated materials. Tauc plots were drawn, to calculate the band gaps of the synthesized samples. Te doping resulted in a significant reduction in the band gap of the NiS NPs. The photocatalytic efficiency of the NPs and NCs was investigated against MB, under sunlight. The results obtained for the photocatalytic activity, showed that 1%Te@NiS nanoparticles have an excellent dye degradation capacity in sunlight. This was made even better by making a series of SGCN/1% Te@NiS nanocomposites with different amounts of S-g-C3N4. When compared to NiS, Te@NiS, SGCN, and 70%SGCN/1%Te@NiS, the 70%SGCN/1%Te@NiS NCs have excellent antifungal ability. The higher impact of SGCN/Te@NiS, may be due to its enhanced ability to disperse and interact with the membranes and intracellular proteins of fungi. The 70%SGCN/1%Te@NiS NCs showed excellent antibacterial and photocatalytic efficiency. Thus, the 70%SGCN/1%Te@NiS NCs might prove fruitful in antibacterial and photocatalytic applications.

Published
2023
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35. Au/ZnO Nanocomposites Prepared by Laser Ablation for Enhancement of Antibacterial Activity and Cytotoxic Properties against Cancer Cells

Author

Muhanad Alhujaily, Majid S. Jabir, Uday M. Nayef, Taha M. Rashid, Ghassan M. Sulaiman, Khalil A. A. Khalil, Muntadher I. Rahmah, Mazin A. A. Najm, Rihab Jabbar, and Sabrean F. Jawad

Subjects
laser ablation, Au NPs, ZnO NPs, E. coli, cytotoxic activity, Mining engineering. Metallurgy, TN1-997
Abstract

This study presents a comprehensive look into the potential therapeutic, antibacterial, and anticancer properties of a nanocomposite (NC) of gold (Au) and zinc oxide (ZnO). In this study, we analyzed the adherence between Au nanoparticles (NPs) and ZnO NPs. X-ray diffraction analysis showed high crystallinity and small crystallite sizes of Au NPs and ZnO NPs, while transmission electron microscopy showed spherical NPs. Furthermore, histogram analysis showed that the average particle size of Au NPs is 27 nm, while that of ZnO NPs is 35 nm. The adherence of ZnO NPs on the surface of Au NPs increased their combined particle size to 51 nm and revealed a high-population core-shell structure. The activity of Au/ZnO NCs against Escherichia coli was more potent when compared to that of elemental Au and ZnO NPs alone. The cytotoxic effects of Au NPs, ZnO NPs, and Au/ZnO NCs against human breast cancer cells (AMG13) and human esophageal adenocarcinoma cancer cells (SK-GT4) were investigated in this study. We found that AMG13 is more sensitive than SK-GT4 to the activity of Au/ZnO NCs. The cytotoxicity of Au/ZnO NCs against AMG13 was 89%, while that against SK-GT4 was 85%. Less cytotoxic effects were recorded against normal cells (MCF7) when compared with those of cancer cells. Based on these findings, the synthesized Au/ZnO NCs could be used as a promising strategy for biomedical applications.

Published
2023
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36. Silica Nanoparticle Acute Toxicity on Male Rattus norvegicus Domestica: Ethological Behavior, Hematological Disorders, Biochemical Analyses, Hepato-Renal Function, and Antioxidant-Immune Response

Author

Taghreed N. Almanaa, Mohamed Aref, Mian Adnan Kakakhel, Gehad E. Elshopakey, Heba H. Mahboub, Aaser Mohamed Abdelazim, Samar Kamel, Tareg M. Belali, Mosleh M. Abomughaid, Muhanad Alhujaily, Esraa M. Fahmy, Mohamed Ezzat Assayed, Gomaa Mostafa-Hedeab, and Walid M. Daoush

Subjects
silica nanoparticles, male Rattus norvegicus domestica, acute toxicity, hematological picture, biochemical profile, Biotechnology, TP248.13-248.65
Abstract

With extensive production and various applications of silica nanoparticles (SiNPs), there is a controversy regarding the ecotoxicological impacts of SiNPs. Therefore, the current study was aimed to assess the acute toxicity of silica nanoparticles in male Rattus norvegicus domestica after 24 and 96 h. Hematological, serum biochemical, stress biomarker, and immune-antioxidant parameters were addressed. Chemical composition, crystal structure, and the particle shape and morphology of SiNPs were investigated using XRD, FTIR, BET, UV-Vis, and SEM, while TEM was used to estimate the average size distribution of particles. For the exposure experiment, 48 male rats were divided into four groups (12 rat/group) and gavaged daily with different levels of zero (control), 5, 10, and 20 mg of SiNPs corresponding to zero, 31.25, 62.5, and 125 mg per kg of body weight. Sampling was carried out after 24 and 96 h. Relative to the control group, the exposure to SiNPs induced clear behavioral changes such as inactivity, lethargy, aggressiveness, and screaming. In a dose-dependent manner, the behavior scores recorded the highest values. Pairwise comparisons with the control demonstrated a significant (p < 0.05) decrease in hematological and immunological biomarkers [lysozymes and alternative complement activity (ACH50)] with a concomitant reduction in the antioxidant enzymes [catalase (CAT), glutathione peroxidase (GPx), and superoxide dismutase (SOD)] in all exposed groups to SiNPs. On the contrary, there was a noticeable increase in biochemical parameters (glucose, cortisol, creatinine, urea, low-density lipoproteins (LDL), high-density lipoproteins (HDL), total protein, and albumin) and hepato-renal indicators, including alkaline phosphatase (ALP), alanine aminotransferase (ALT), and aspartate aminotransferase (AST), of all SiNP-exposed groups. It was observed that SiNPs induced acute toxicity, either after 24 h or 96 h, post-exposure of rats to SiNPs evidenced by ethological changes, hepato-renal dysfunction, hyperlipemia, and severe suppression in hematological, protein, stress, and immune-antioxidant biomarkers reflecting an impaired physiological status. The obtained outcomes create a foundation for future research to consider the acute toxicity of nanoparticles to preserve human health and sustain the environment.

Published
2022
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42. Novel antimicrobial peptides identified in legume plant, Medicago truncatula

Author

Alhhazmi, Areej A., primary, Alluhibi, Sarah S., additional, Alhujaily, Rahaf, additional, Alenazi, Maymona E., additional, Aljohani, Taif L., additional, Al-Jazzar, Al-Anoud T., additional, Aljabri, Ahaad D., additional, Albaqami, Razan, additional, Almutairi, Dalal, additional, Alhelali, Lujain K., additional, Albasri, Hibah M., additional, Almutawif, Yahya A., additional, Alturkostani, Mohammad A., additional, and Almutairi, Abullah Z., additional

Published
2024
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44. Adsorptive removal of anionic dyes from aqueous solutions using spent mushroom waste

Author

Ahmad Alhujaily, Hongbo Yu, Xiaoyu Zhang, and Fuying Ma

Subjects
Adsorption, Spent mushroom waste, Dye removal, Kinetics, Isotherm, Thermodynamics, Water supply for domestic and industrial purposes, TD201-500
Abstract

Abstract The removal of hazardous dyes has become a major economic and health concern to treat wastewater. In this study, efficient, low-cost, and eco-friendly spent mushroom waste (SMW) showed great potential for removing the anionic dyes, namely Direct Red 5B (DR5B), Direct Black 22 (DB22), Direct Black 71 (DB71), and Reactive Black 5 (RB5). The mechanisms of adsorption could be controlled by both physical and chemical adsorption. Scanning electron microscope analysis showed that SMW surface is porous and irregular. The kinetic study could be described well with the pseudo-second-order kinetic model, whereas the best representation of the equilibrium isotherm is the Langmuir model. The maximum adsorption capacities of SMW were found to be 18 mg g−1 for DR5B, 15.46 mg g−1 for DB22, 20.19 mg g−1 for DB71, and 14.62 mg g−1 for RB5. The analysis of thermodynamic study of ΔG°, ΔH°, and ΔS° proved that the adsorption of the tested dyes onto SMW was endothermic and spontaneous. Based on these results, SMW can be considered as high potential adsorbent for the removal of dyes from wastewater.

Published
2020
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45. Shuttle Transfer of mRNA Transcripts via Extracellular Vesicles From Male Reproductive Tract Cells to the Cumulus–Oocyte Complex in Rabbits (Oryctolagus cuniculus)

Author

Mosleh M. Abumaghaid, Aaser M. Abdelazim, Tareg M. Belali, Muhanad Alhujaily, and Islam M. Saadeldin

Subjects
extracellular vesicles, testis, epididymis, prostate, oocyte, rabbit, Veterinary medicine, SF600-1100
Abstract

Semen is known to contain an ovulation-inducing factor (identified as a nerve growth factor, NGF) that shows a significant increase in ovulation after semen deposition in induced ovulatory species. However, the interplay between the male reproductive tract cells and oocyte maturation through messenger RNA (mRNA) cargo is yet to be investigated. Extracellular vesicles (EVs) from the primary culture of rabbit prostate (pEVs), epididymis (eEVs), and testis (tEVs) were isolated to examine their contents for several mRNA transcripts through relative quantitative PCR (RT-qPCR). The expressions of NGF, neurotrophin (NTF3), vascular endothelial growth factor A (VEGFA), A disintegrin and metalloprotease 17 (ADAM17), midkine (MDK), kisspeptin (KISS1), and gonadotrophin-releasing hormone (GNRH1) were examined in isolated EVs. EVs were characterized through transmission electron microscopy. EV uptake by cumulus cell culture was confirmed through microscopic detection of PKH26-stained EVs. Furthermore, the effects of pEVs, eEVs, and tEVs were compared with NGF (10, 20, and 30 ng/ml) supplementation on oocyte in vitro maturation (IVM) and transcript expression. KISS1, NTF3, MDK, ADAM17, GAPDH, and ACTB were detected in all EV types. GNRH1 was detected in tEVs. NGF was detected in pEVs, whereas VEGFA was detected in eEVs. pEVs, eEVs, and 20 ng/ml NGF showed the highest grade of cumulus expansion, followed by tEVs and 10 ng/ml NGF. Control groups and 30 ng/ml NGF showed the least grade of cumulus expansion. Similarly, first polar body (PB) extrusion was significantly increased in oocytes matured with eEVs, pEVs, tEVs, NGF20 (20 ng/ml NGF), NGF10 (10 ng/ml NGF), control, and NGF30 (30 ng/ml NGF). Additionally, the expression of NGFR showed a 1.5-fold increase in cumulus cells supplemented with eEVs compared with the control group, while the expression of PTGS2 (COX2) and NTRK showed 3-fold and 5-fold increase in NGF20-supplemented cumulus-oocyte complexes (COCs), respectively. Oocyte PMP15 expression showed a 1.8-fold increase in IVM medium supplemented with eEVs. Additionally, oocyte NGFR and NTRK expressions were drastically increased in IVM medium supplemented with pEVS (3.2- and 1.6-fold, respectively) and tEVs (4- and 1.7-fold, respectively). This is the first report to examine the presence of mRNA cargo in the EVs of male rabbit reproductive tract cells that provides a model for the stimulation of female rabbits after semen deposition.

Published
2022
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46. Photocatalytic Reduction of Cr(VI) to Cr(III) and Photocatalytic Degradation of Methylene Blue and Antifungal Activity of Ag/TiO2 Composites Synthesized via the Template Induced Route

Author

Zunaira Zahid, Abdul Rauf, Mohsin Javed, Ahmad Alhujaily, Shahid Iqbal, Adnan Amjad, Muhammad Arif, Sajjad Hussain, Ali Bahadur, Nasser S. Awwad, Hala A. Ibrahium, Foziah F. Al-Fawzan, and Eslam B. Elkaeed

Subjects
Ag/TiO2 composites, template induced method, methylene blue, Cr(VI), photocatalytic reduction, antifungal, Inorganic chemistry, QD146-197
Abstract

Water treatment through photocatalysts has become an important topic regarding environmental protection. In the present study, silver and TiO2 (Ag/TiO2) composites for photocatalysts were effectively synthesized by adopting the template induced method. The prepared samples were characterized using XRD, FTIR spectroscopy, SEM, and EDX. The constructed samples’ particle size and shape were evaluated using a SEM, and the XRD patterns showed anatase crystalline phases. Their morphologies were controllable with changing concentration of reactants and calcination temperature. The synthesized composites act as catalyst in the degradation of methylene blue (MB) and reduction of Cr(VI) to Cr(III) under solar irradiation. In both of these activities, the best result has been shown by the 0.01 Ag/TiO2 composite. Methanol is used as the hole scavenger in the reduction of Cr(VI) to Cr(III). While the pH factor is important in the photocatalytic reduction of Cr(VI) to Cr(III). According to observations, S. macrospora and S. maydis were each subject to 0.01 Ag/TiO2 nanocomposites maximum antifungal activity, which was 38.4 mm and 34.3 mm, respectively. The outcomes demonstrate that both photocatalytic and antifungal properties are effectively displayed by the constructed material.

Published
2023
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47. Calluna vulgaris Crude Extract Reverses Liver Steatosis and Insulin Resistance-Associated-Brain Lesion Induced by CCl4 Administration

Author

Muhanad Alhujaily

Subjects
non-alcoholic fatty liver disease, acetylcholinesterase, monoamine oxidase, HOMA-IR, oxidative stress, Physics, QC1-999, Chemistry, QD1-999
Abstract

Fatty liver (FL) is one of the most prevalent diseases in the world, characterized by insulin resistance and hyperlipidemia, which consequently lead to neurodegenerative disorders through the induction of oxidative stress-inflammatory axis, which alters the neurotransmitters’ levels. Calluna vulgaris (CV), also known as heather, has anti-inflammatory and antidepressant properties, making it a promising candidate for treating steatosis and brain lesions. This study aimed to assess the prophylactic and therapeutic effect of CV extract on brain dysfunction associated with steatosis. FL was induced in rats by CCl4 oral administration (50 µL/Kg in olive oil three times/week) for six weeks. The protection group received 200 mg/kg CV extract orally for two weeks before and two weeks during FL induction, while the treatment group was orally administered CV extract after FL induction for one month. The biochemical parameters revealed that CCl4 administration induced hepatotoxicity as blood-liver function parameters (AST, ALT, ALP, protein, and LDH) were increased by 1.8, 1.4, 2, 2.4, and 1.2-fold, respectively. Moreover, insulin resistance was characterized by a two-fold increase in the glucose, insulin, and lipid profile when compared to control one, at p < 0.05. Steatosis liver demonstrated a two-fold increase in all following parameters— acetaldehyde (AC), prooxidant (TBARS), acetylcholine esterase (AChE), monoamine oxidase (MAO), hyaluronidase, and ATPase—when compared to control one, at p < 0.05. CCl4 administration led to brain lesions where the brain level of TBARS, insulin, cholesterol, AChE, and MAO was progressively increased by 2, 1.6, 2.2, 4, and 1.6-fold, respectively, that was associated with reduced glucose (8-fold) and GSH (2-fold) than that of control level, at p < 0.05. CV extract as a prophylactic and therapeutic agent increased GSH and decreased TBARS of both the liver and brain than that of induced group, at p < 0.05, normalized the activities of AChE and MAO, and increased insulin sensitivity where they successfully decreased the HOMA-IR, glucose, TG, and cholesterol compared to than that of induced group, at p < 0.05. This positive effect of CV extract contributed to the presence of polyphenolic compounds such as catechins (5.501 ± 0.056 µg/g extract), gallic (3.525 ± 0.143 µg/g) extract, and protocatechuic acid (2.719 ± 0.132 µg/g extract). Therefore, we concluded that FL induced brain dysfunction through the formation of ROS and elevation of insulin and lipid inside the brain tissue, which alter the amount of neurotransmitter and cellular energy production. Rich in polyphenolic compounds, CV extract functions as an antioxidant, antidiabetic, hepatoprotective, inhibitor of neurotransmitter catabolizing enzymes, and a regulator for energy production. Therefore, it can be used as a preventative or treatment for NAFLD and brain damage.

Published
2023
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48. Studies of Glyoxalase 1-Linked Multidrug Resistance Reveal Glycolysis-Derived Reactive Metabolite, Methylglyoxal, Is a Common Contributor in Cancer Chemotherapy Targeting the Spliceosome

Author

Muhanad Alhujaily, Hafsa Abbas, Mingzhan Xue, Alberto de la Fuente, Naila Rabbani, and Paul J. Thornalley

Subjects
methylglyoxal, glyoxalase, cancer chemotherapy, multidrug resistance, proteomics, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

BackgroundTumor glycolysis is a target for cancer chemotherapy. Methylglyoxal (MG) is a reactive metabolite formed mainly as a by-product in anaerobic glycolysis, metabolized by glyoxalase 1 (Glo1) of the glyoxalase system. We investigated the role of MG and Glo1 in cancer chemotherapy related in multidrug resistance (MDR).MethodsHuman Glo1 was overexpressed in HEK293 cells and the effect on anticancer drug potency, drug-induced increase in MG and mechanism of cytotoxicity characterized. Drug-induced increased MG and the mechanisms driving it were investigated and the proteomic response to MG-induced cytotoxicity explored by high mass resolution proteomics of cytoplasmic and other subcellular protein extracts. Glo1 expression data of 1,040 human tumor cell lines and 7,489 tumors were examined for functional correlates and impact of cancer patient survival.ResultsOverexpression of Glo1 decreased cytotoxicity of antitumor drugs, impairing antiproliferative activity of alkylating agents, topoisomerase inhibitors, antitubulins, and antimetabolites. Antitumor drugs increased MG to cytotoxic levels which contributed to the cytotoxic, antiproliferative mechanism of action, consistent with Glo1-mediated MDR. This was linked to off-target effects of drugs on glycolysis and was potentiated in hypoxia. MG activated the intrinsic pathway of apoptosis, with decrease of mitochondrial and spliceosomal proteins. Spliceosomal proteins were targets of MG modification. Spliceosomal gene expression correlated positively with Glo1 in human tumor cell lines and tumors. In clinical chemotherapy of breast cancer, increased expression of Glo1 was associated with decreased patient survival, with hazard ratio (HR) = 1.82 (logrank p < 0.001, n = 683) where upper quartile survival of patients was decreased by 64% with high Glo1 expression.ConclusionsWe conclude that MG-mediated cytotoxicity contributes to the cancer chemotherapeutic response and targets the spliceosome. High expression of Glo1 contributes to multidrug resistance by shielding the spliceosome from MG modification and decreasing survival in the chemotherapy of breast cancer. Adjunct chemotherapy with Glo1 inhibitor may improve treatment outcomes.

Published
2021
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49. Recent Advances in Plant-Mediated Zinc Oxide Nanoparticles with Their Significant Biomedical Properties

Author

Muhanad Alhujaily, Salim Albukhaty, Mohammad Yusuf, Mustafa K. A. Mohammed, Ghassan M. Sulaiman, Hassan Al-Karagoly, Amal A. Alyamani, Jawaher Albaqami, and Faizah A. AlMalki

Subjects
nanotechnology, green synthesis, zinc oxide nanoparticles, antimicrobial, anticancer, antioxidant, Technology, Biology (General), QH301-705.5
Abstract

Compared to traditional physical and chemical approaches, nanobiotechnology and plant-based green synthesis procedures offer significant advantages, as well as having a greater range of medical and biotechnological applications. Nanoparticles of zinc oxide (ZnO NPs) have recently been recognized as a promising option for many industries, including optics, electrics, packaged foods, and medicine, due to their biocompatibility, low cytotoxicity, and cost-effectiveness. Several studies have shown that zinc ions are important in triggering cell apoptosis by promoting the generation of reactive oxygen species (ROSs) and releasing zinc ions (Zn2+), which are toxic to cells. The toxic nature of the chemicals used in the synthesis of ZnO nanoparticles limits their clinical utility. An overview of recent developments in green ZnO NP synthesis is presented in this review, emphasizing plant parts as reducing agents and their medical applications, including their antimicrobial, anticancer, antioxidant, and anti-inflammatory properties, as well as key mechanisms of action for these applications to facilitate further research on the biomedical fields in the future.

Published
2022
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50. Identification of Gut Microbiota Profile Associated with Colorectal Cancer in Saudi Population

Author

Alhhazmi, Areej A., primary, Almutawif, Yahya A., additional, Mumena, Walaa A., additional, Alhazmi, Shaima M., additional, Abujamel, Turki S., additional, Alhusayni, Ruba M., additional, Aloufi, Raghad, additional, Al-Hejaili, Razan R., additional, Alhujaily, Rahaf, additional, Alrehaili, Lama M., additional, Alsaedy, Ruya A., additional, Khoja, Rahaf H., additional, Ahmed, Wassal, additional, Abdelmohsen, Mohamed F., additional, and Mohammed-Saeid, Waleed, additional

Published
2023
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