Your search keyword '"Azeddine Ibrahimi"' showing total 183 results

1. Functional analysis and comparative genomics of Rahnella perminowiae S11P1 and Variovorax sp. S12S4, two plant growth-promoting rhizobacteria isolated from Crocus sativus L. (saffron) rhizosphere

Author

Rahma ZOUAGUI, Houda ZOUAGUI, Jamal AURAG, Azeddine IBRAHIMI, and Laila SBABOU

Subjects

Genome mining, Core-based phylogeny, Comparative genomics, Plant growth promoting rhizobacteria (PGPR), Rahnella perminowiae, Variovorax Sp, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Rahnella perminowiae S11P1 and Variovorax sp. S12S4 are two plant growth-promoting rhizobacteria that were previously isolated from the rhizosphere of Crocus sativus L. (saffron), and have demonstrated interesting PGP activities and promising results when used as inoculants in field trials. To further elucidate the molecular mechanisms underlying their beneficial effects on plant growth, comprehensive genome mining of S11P1 and S12S4 and comparative genomic analysis with closely related strains were conducted. Results Functional annotation of the two strains predicted a large number of genes involved in auxin and siderophore production, nitrogen fixation, sulfur metabolism, organic acid biosynthesis, pyrroloquinoline quinone production, 1-aminocyclopropane-1-carboxylate (ACC) deaminase activity, volatile organic compounds production, and polyamine biosynthesis. In addition, numerous genes implicated in plant-bacteria interactions, such as those involved in chemotaxis and quorum sensing, were predicted. Moreover, the two strains carried genes involved in bacterial fitness under abiotic stress conditions. Comparative genomic analysis revealed an open pan-genomic structure for the two strains. COG annotation showed that higher fractions of core and accessory genes were involved in the metabolism and transport of carbohydrates and amino acids, suggesting the metabolic versatility of the two strains as effective rhizosphere colonizers. Furthermore, this study reports the first comparison of Multilocus sequence analysis (MLSA) and core-based phylogenies of the Rahnella and Variovorax genera. Conclusions The present study unveils the molecular mechanisms underlying plant growth promotion and biocontrol activity of S11P1 and S12S4, and provides a basis for their further biotechnological application in agriculture.

Published

2024

2. Overcoming Resistance in Cancer Therapy: Computational Exploration of PIK3CA Mutations, Unveiling Novel Non-Toxic Inhibitors, and Molecular Insights Into Targeting PI3Kα

Author

Ilham Kandoussi, Ghyzlane El Haddoumi, Mariam Mansouri, Lahcen Belyamani, Azeddine Ibrahimi, and Rachid Eljaoudi

Subjects

Biology (General), QH301-705.5

Abstract

Phosphoinositide-3-kinases (PI3 K) are pivotal regulators of cell signaling implicated in various cancers. Particularly, mutations in the PIK3CA gene encoding the p110α catalytic subunit drive oncogenic signaling, making it an attractive therapeutic target. Our study conducted in silico exploration of 31 PIK3CA mutations across breast, endometrial, colon, and ovarian cancers, assessing their impacts on response to PI3Kα inhibitors and identifying potential non-toxic inhibitors and also elucidating their effects on protein stability and flexibility. Specifically, we observed significant alterations in the stability and flexibility of the PI3 K protein induced by these mutations. Through molecular docking analysis, we evaluated the binding interactions between the selected inhibitors and the PI3 K protein. The filtration of ligands involved calculating chemical descriptors, incorporating Veber and Lipinski rules, as well as IC50 values and toxicity predictions. This process reduced the initial dataset of 1394 ligands to 12 potential non-toxic inhibitors, and four reference inhibitors with significant biological activity in clinical trials were then chosen based on their physico-chemical properties. This analysis revealed Lig5's exceptional performance, exhibiting superior affinity and specificity compared to established reference inhibitors such as pictilisib. Lig5 formed robust binding interactions with the PI3 K protein, suggesting its potential as a highly effective therapeutic agent against PI3 K-driven cancers. Furthermore, molecular dynamics simulations provided valuable insights into Lig5's stability and its interactions with PI3 K over 100 ns. These simulations supported Lig5's potential as a versatile inhibitor capable of effectively targeting various mutational profiles of PI3 K, thereby mitigating issues related to resistance and toxicity commonly associated with current inhibitors.

Published

2024

3. Targeting decaprenylphosphoryl-β-D-ribose 2′-epimerase for Innovative Drug Development Against Mycobacterium Tuberculosis Drug-Resistant Strains

Author

Ghyzlane EL Haddoumi, Mariam Mansouri, Jouhaina Kourou, Lahcen Belyamani, Azeddine Ibrahimi, and Ilham Kandoussi

Subjects

Biology (General), QH301-705.5

Abstract

Tuberculosis (TB) remains a global health challenge with the emergence of drug-resistant Mycobacterium tuberculosis variants, necessitating innovative drug molecules. One potential target is the cell wall synthesis enzyme decaprenylphosphoryl-β-D-ribose 2′-epimerase (DprE1), crucial for virulence and survival. This study employed virtual screening of 111 Protein Data Bank (PDB) database molecules known for their inhibitory biological activity against DprE1 with known IC50 values. Six compounds, PubChem ID: 390820, 86287492, 155294899, 155522922, 162651615, and 162665075, exhibited promising attributes as drug candidates and validated against clinical trial inhibitors BTZ043, TBA-7371, PBTZ169, and OPC-167832. Concurrently, this research focused on DprE1 mutation effects using molecular dynamic simulations. Among the 10 mutations tested, C387N significantly influenced protein behavior, leading to structural alterations observed through root-mean-square deviation (RMSD), root-mean-square fluctuation (RMSF), radius of gyration (Rg), and solvent-accessible surface area (SASA) analysis. Ligand 2 (ID: 390820) emerged as a promising candidate through ligand-based pharmacophore analysis, displaying enhanced binding compared with reference inhibitors. Molecular dynamic simulations highlighted ligand 2’s interaction with the C387N mutation, reducing fluctuations, augmenting hydrogen bonding, and influencing solvent accessibility. These collective findings emphasize ligand 2’s efficacy, particularly against severe mutations, in enhancing protein-ligand complex stability. Integrated computational and pharmacophore methodologies offer valuable insights into drug candidates and their interactions within intricate protein environments. This research lays a strategic foundation for targeted interventions against drug-resistant TB, highlighting ligand 2’s potential for advanced drug development strategies.

Published

2024

4. A Comprehensive Analysis of 3 Moroccan Genomes Revealed Contributions From Both African and European Ancestries

Author

Nasma Boumajdi, Houda Bendani, Souad Kartti, Tarek Alouane, Lahcen Belyamani, and Azeddine Ibrahimi

Subjects

Evolution, QH359-425

Abstract

Genetic variations in the human genome represent the differences in DNA sequence within individuals. This highlights the important role of whole human genome sequencing which has become the keystone for precision medicine and disease prediction. Morocco is an important hub for studying human population migration and mixing history. This study presents the analysis of 3 Moroccan genomes; the variant analysis revealed 6 379 606 single nucleotide variants (SNVs) and 1 050 577 small InDels. Of those identified SNVs, 219 152 were novel, with 1233 occurring in coding regions, and 5580 non-synonymous single nucleotide variants (nsSNP) variants were predicted to affect protein functions. The InDels produced 1055 coding variants and 454 non-3n length variants, and their size ranged from -49 and 49 bp. We further analysed the gene pathways of 8 novel coding variants found in the 3 genomes and revealed 5 genes involved in various diseases and biological pathways. We found that the Moroccan genomes share 92.78% of African ancestry, and 92.86% of Non-Finnish European ancestry, according to the gnomAD database. Then, population structure inference, by admixture analysis and network-based approach, revealed that the studied genomes form a mixed population structure, highlighting the increased genetic diversity in Morocco.

Published

2024

5. Association between 'cluster of differentiation 36 (CD36)' and adipose tissue lipolysis during exercise training: a systematic review

Author

El Mokhtar El Ouali, Laurent Bosquet, Boutaina Elgharbaoui, Fatiha Laziri, Ismail Laher, Anthony C. Hackney, Azeddine Ibrahimi, Bouchra Taib, Sanae El Harane, Katja Weiss, Beat Knechtle, Abdelhalem Mesfioui, and Hassane Zouhal

Subjects

fat oxidation, mitochondrial biogenesis, physical effort, muscle contraction, athletic performance, Physiology, QP1-981

Abstract

Fatty acid translocase (FAT/CD36) is a transmembrane glycoprotein belonging to the scavenger class B receptor family and is encoded by the cluster of differentiation 36 (CD36) gene. This receptor has a high affinity for fatty acids and is involved in lipid metabolism. An abundance of FAT/CD36 during exercise occurs in mitochondria and solitary muscles. As such, we aimed to systematically review the evidence for the relationship FAT/CD36 and adipose tissue lipolysis during exercise training. Five electronic databases were selected for literature searches until June 2022: PubMed, Web of Science, Scopus, science direct, and Google Scholar. We combined the different synonyms and used the operators (“AND”, “OR”, “NOT”): (CD36 gene) OR (CD36 polymorphism) OR (cluster of differentiation 36) OR (FAT/CD36) OR (fatty acid translocase) OR (platelet glycoprotein IV) OR (platelet glycoprotein IIIb) AND (adipose tissue lipolysis) OR (fatty acids) OR (metabolism lipid) OR (adipocytes) AND (physical effort) OR (endurance exercise) OR (high-intensity training). All published cross-sectional, cohort, case-control, and randomized clinical trials investigating CD36 polymorphisms and adipose tissue lipolysis during exercise in subjects (elite and sub-elite athletes, non-athletes, sedentary individuals and diabetics), and using valid methods to measure FAT/CD36 expression and other biomarkers, were considered for inclusion in this review. We initially identified 476 publications according to the inclusion and exclusion criteria, and included 21 studies investigating FAT/CD36 and adipose tissue lipolysis during exercise in our systematic review after examination of titles, abstracts, full texts, and quality assessments using the PEDro scale. There were nine studies with male-only participants, three with female-only participants, and nine studies included both female and male participants. There were 859 participants in the 21 selected studies. Studies were classified as either low quality (n = 3), medium quality (n = 13), and high quality (n = 5). In general, the data suggests an association between FAT/CD36 and adipose tissue lipolysis during exercise training. Improvements in FAT/CD36 were reported during or after exercise in 6 studies, while there were no changes reported in FAT/CD36 in 4 studies. An association between fat oxidation and FAT/CD36 expression during exercise was reported in 7 studies. No agreement was reached in 5 studies on FAT/CD36 content after dietary changes and physical interventions. One study reported that FAT/CD36 protein expression in muscle was higher in women than in men, another reported that training decreased FAT/CD36 protein in insulin-resistant participants, while another study reported no differences in FAT/CD36 in young, trained individuals with type 2 diabetes. Our analysis shows an association between FAT/CD36 expression and exercise. Furthermore, an association between whole-body peak fat oxidation and FAT/CD36 expression during exercise training was demonstrated.Systematic Review Registration: [PROSPERO], identifier [CRD42022342455]

Published

2023

6. Identification of Natural Food Compounds as Potential Quorum-Sensing Inhibitors Targeting the LasR Receptor of

Author

Meryam Magri, El Mehdi Bouricha, Mohammed Hakmi, Rachid EL Jaoudi, Lahcen Belyamani, and Azeddine Ibrahimi

Subjects

Biology (General), QH301-705.5

Abstract

Pseudomonas aeruginosa is a major cause of nosocomial infections and is often associated with biofilm-mediated antibiotic resistance. The LasR protein is a key component of the quorum system in P. aeruginosa , allowing it to regulate its biofilm-induced pathogenicity. When the bacterial population reaches a sufficient density, the accumulation of N-(3-oxododecanoyl) acyl homoserine lactone (3O-C12-HSL) leads to the activation of the LasR receptor, which then acts as a transcriptional activator of target genes involved in biofilm formation and virulence, thereby increasing the bacteria’s antibiotic resistance and enhancing its virulence. In this study, we performed a structure-based virtual screening of a natural food database of 10 997 compounds against the crystal structure of the ligand-binding domain of the LasR receptor (PDB ID: 3IX4). This allowed us to identify four molecules, namely ZINC000001580795, ZINC000014819517, ZINC000014708292, and ZINC000004098719, that exhibited a favorable binding mode and docking scores greater than −13 kcal/mol. Furthermore, the molecular dynamics simulation showed that these four molecules formed stable complexes with LasR during the 150-ns molecular dynamics (MD) simulation, indicating their potential for use as inhibitors of the LasR receptor in P. aeruginosa . However, further experimental validation is needed to confirm their activity.

Published

2023

7. Targeted Gene Panel Sequencing Unveiled New Pathogenic Mutations in Patients With Breast Cancer

Author

Souad Kartti, El Mehdi Bouricha, Oumaima Zarrik, Youssef Aghlallou, Chaimaa Mounjid, Rachid ELJaoudi, Lahcen Belyamani, Azeddine Ibrahimi, and Basma EL khannoussi

Subjects

Biology (General), QH301-705.5

Abstract

The increasing commercialization of new gene panels based on next-generation sequencing for clinical research has significantly improved our understanding of breast cancer genetics and has led to the discovery of new mutation variants. The study included 16 unselected Moroccan breast cancer patients tested with multi-gene panel (HEVA screen panel) using Illumina Miseq, followed by Sanger sequencing to validate the most relevant mutation. Mutational analysis revealed the presence of 13 mutations (11 single-nucleotide polymorphisms [SNPs] and 2 indels), and 6 of 11 identified SNPs were predicted as pathogenic. One of the 6 pathogenic mutations was c.7874G>C, a heterozygous SNP in HD-OB domain of BRCA2 gene, which led to the arginine to threonine change at codon 2625 of the protein. This work describes the first case of a patient with breast cancer harboring this pathogenic variant and analyzes its functional impact using molecular docking and molecular dynamics simulation. Further experimental investigations are needed to validate its pathogenicity and to verify its association with breast cancer.

Published

2023

8. Selective Non-toxics Inhibitors Targeting DHFR for Tuberculosis and Cancer Therapy: Pharmacophore Generation and Molecular Dynamics Simulation

Author

Ghyzlane EL Haddoumi, Mariam Mansouri, Houda Bendani, Mohammed Walid Chemao-Elfihri, Jouhaina Kourou, Hanane Abbou, Lahcen Belyamani, Ilham Kandoussi, and Azeddine Ibrahimi

Subjects

Biology (General), QH301-705.5

Abstract

Dihydrofolate reductase (DHFR) is a crucial enzyme that catalyzes the conversion of folic acid. Its reserved properties and significance in both human (h-DHFR) and mycobacterium (mt-DHFR) make it a challenging target for developing drugs against cancer and bacterial infections. Although methotrexate (MTX) is commonly used for cancer therapy and bacterial infections, it has a toxic profile. In this study, we aimed to identify selective and non-toxic inhibitors against h-DHFR and mt-DHFR using an in silico approach. From a data set of 8 412 inhibitors, 11 compounds passed the toxicity and drug-likeness tests, and their interaction with h-DHFR and mt-DHFR was studied by performing molecular docking. To evaluate the inhibitory activity of the compounds against mt-DHFR, five known reference ligands and the natural ligand (dihydrofolate) were used to generate a pharmacophoric map. Two potential selective inhibitors for mt-DHFR and h-DHFR were selected for further investigation using molecular dynamics for 100 ns. As a result, BDBM18226 was identified as the best compound selective for mt-DHFR, non-toxic, with five features listed in the map, with a binding energy of –9.6 kcal/mol. BDBM50145798 was identified as a non-toxic selective compound with a better affinity than MTX for h-DHFR. Molecular dynamics of the two best ligands suggest that they provide more stable, compact, and hydrogen bond interactions with the protein. Our findings could significantly expand the chemical space for new mt-DHFR inhibitors and provide a non-toxic alternative toward h-DHFR for the respective treatment of tuberculosis and cancer therapy.

Published

2023

9. In Silico Analyses of All STAT3 Missense Variants Leading to Explore Divergent AD-HIES Clinical Phenotypes

Author

Mariam Mansouri, Ghyzlane El Haddoumi, Houda Bendani, Nasma Boumajdi, Mohammed Hakmi, Hanane Abbou, El Mehdi Bouricha, Boutaina Elgharbaoui, Souad Kartti, Rachid El Jaoudi, Lahcen Belyamani, Ilham Kandoussi, Azeddine Ibrahimi, and Naima El Hafidi

Subjects

Evolution, QH359-425

Abstract

Autosomal dominant hyper-IgE syndrome (AD-HIES) is linked to dominant negative mutations of the STAT3 protein whose molecular basis for dysfunction is unclear and presenting with a variety of clinical manifestations with only supportive treatment. To establish the relationship between the impact of STAT3 mutations in different domains and the severity of the clinical manifestations, 105 STAT3 mutations were analyzed for their impact on protein stability, flexibility, function, and binding affinity using in Silico approaches. Our results showed that 73% of the studied mutations have an impact on the physicochemical properties of the protein, altering the stability, flexibility and function to varying degrees. In particular, mutations affecting the DNA binding domain (DBD) and the Src Homology 2 (SH2) have a significant impact on the protein structure and disrupt its interaction either with DNA or other STAT3 to form a heterodomain complex, leading to severe clinical phenotypes. Collectively, this study suggests that there is a close relationship between the domain involving the mutation, the degree of variation in the properties of the protein and the degree of loss of function ranging from partial loss to complete loss, explaining the variability of clinical manifestations between mild and severe.

Published

2023

10. Evaluation of the MAScIR SARS-CoV-2 M Kit 2.0 on the SARS-CoV-2 Infection

Author

Amal Zouaki, Hakima Kabbaj, Ghizlane El Amin, Mouna Ouadghiri, Bouchra Belefquih, Azeddine Ibrahimi, and Myriam Seffar

Subjects

Microbiology, QR1-502

Abstract

SARS-CoV-2 is a major public health problem worldwide. Since its emergence, several diagnostic kits have been developed to ensure rapid patient management. The aim of our study is to check the performance of the new Moroccan SARS-CoV-2 detection kit: MAScIR SARS-CoV-2 M 2.0. The following parameters were studied: repeatability, reproducibility, analytical specificity, analytical sensitivity, and comparison with the GeneFinder™ COVID-19 Plus RealAmp Kit. In addition, an external quality evaluation comprising five specimens was carried out as part of an international program for the external quality evaluation of sublaboratories of the WHO and the Laboratory Office of the National Institute of Hygiene of Morocco. The results of all parameters studied showed an analytical performance that complied with the requirements of the method verification/validation protocol adopted by the Central Laboratory of Virology and met the recommendations of COFRAC (French Accreditation Committee). During the current study, the sequencing of some randomly selected positive samples was performed, among which the carriers of the Alpha variant, the Delta variant, and the Omicron variant were detected. These results allowed us to deduce that this kit was valid for detecting these three variants.

Published

2023

11. The computational analyses, molecular dynamics of fatty-acid transport mechanism to the CD36 receptor

Author

Jihane Akachar, Catherine Etchebest, Rachid El Jaoudi, and Azeddine Ibrahimi

Subjects

Medicine, Science

Abstract

Abstract The transmembrane glycoprotein CD36, which is responsible of the metabolic disorders, and the elevated intake of fat induces lipid buildup, is a multifunctional scavenger receptor signaling those functions in high-affinity tissue uptake of long-chain fatty acids. In this study, we used series of molecular dynamics simulations of the wild type and mutants types K164A CD36 protein interacting with one palmitic acid (PLM) besides simulations of the wild type interacting with the three PLM to find out the mechanism of the functioning of the complex CD36/Fatty acids and the unraveling of the role of the mutation. Additionally we determined whether Lys164, mostly exposed to protein surface, played important roles in fatty acid uptake. These simulations revealed, the conformational changes induced by Lys164 residue and the altered interactions induced by the mutagenesis of surface lysine that was badly influencing the folding, utility, solubility, and stability form of the variant. Furthermore, Lys164 residue provided the structural basis of forming an opening at the region of principal portal for the dissociation of palmitic acid. The results of our simulations revealed hole two fatty acids found in CD36 cavity structure and it was the most preferred to CD36 structure stabilization.

Published

2021

12. Does developing multiple-choice Questions Improve Medical Students’ Learning? A Systematic Review

Author

Youness Touissi, Ghita Hjiej, Abderrazak Hajjioui, Azeddine Ibrahimi, and Maryam Fourtassi

Subjects

multiple-choice-questions, learning, medical students, medical education, Special aspects of education, LC8-6691, Medicine (General), R5-920

Abstract

Practicing Multiple-choice questions is a popular learning method among medical students. While MCQs are commonly used in exams, creating them might provide another opportunity for students to boost their learning. Yet, the effectiveness of student-generated multiple-choice questions in medical education has been questioned. This study aims to verify the effects of student-generated MCQs on medical learning either in terms of students’ perceptions or their performance and behavior, as well as define the circumstances that would make this activity more useful to the students. Articles were identified by searching four databases MEDLINE, SCOPUS, Web of Science, and ERIC, as well as scanning references. The titles and abstracts were selected based on a pre-established eligibility criterion, and the methodological quality of articles included was assessed using the MERSQI scoring system. Eight hundred and eighty-four papers were identified. Eleven papers were retained after abstract and title screening, and 6 articles were recovered from cross-referencing, making it 17 articles in the end. The mean MERSQI score was 10.42. Most studies showed a positive impact of developing MCQs on medical students’ learning in terms of both perception and performance. Few articles in the literature examined the influence of student-generated MCQs on medical students learning. Amid some concerns about time and needed effort, writing multiple-choice questions as a learning method appears to be a useful process for improving medical students’ learning.

Published

2022

13. Creaming behavior prediction of argan oil in water emulsion stabilized by lacto-fermentation: creaming index

Author

Soumaya El Bouchikhi, Philippe Pagès, Azeddine Ibrahimi, and Yahya Bensouda

Subjects

Emulsion O/W, Argan oil, Sodium caseinate, Starch, Dairy-like products, Lacto-fermentation, Biotechnology, TP248.13-248.65

Abstract

Abstract Background In order to improve the taste acceptability of certain nutritional oils, it has been decided in this study to introduce them in an emulsion whose surfactant is casein, then to carry out a lacto-fermentation, leading to a dairy-like product with added nutritional value and health benefit. In this context, a plan of mixtures has been proposed for the preparation of emulsions based on argan oil, sodium caseinate and starch, with concentrations ranged between (10–20%) and (0–2%) and (0–1.5%) respectively. All emulsions were homogenized at two high stirring velocities (10,000–20,000 rpm) and two stirring times (5–20 min). The physical stability was assessed by visual analysis and microstructural measurements. The Creaming index was calculated for selected emulsions to predict their creaming behavior. Results All emulsions showed a creaming behavior except one emulsion that required the highest values of all factors, which showed the highest creaming index with an average particle size of 11.27 μm. The absence or the variation of one or all factors led to various degrees of instabilities verified in all other emulsions. Due to the synergistic action of all parameters, the emulsion stability was attributed to the reduction of droplets size, the increase of continuous phase viscosity and the decrease of coalescence. Conclusion The parameters that played a major role in the stability of the emulsion consists of: stirring velocity and time, sodium caseinate/oil ratio and starch/sodium caseinate ratio. The underlying structure and the interaction of the fluid droplets within the solid like product is what holds the stability of the product against settling or separation during fermentation.

Published

2021

14. Effects of Malocclusion on Maximal Aerobic Capacity and Athletic Performance in Young Sub-Elite Athletes

Author

El Mokhtar El Ouali, Hassane Zouhal, Loubna Bahije, Azeddine Ibrahimi, Bahae Benamar, Jihan Kartibou, Ayoub Saeidi, Ismail Laher, Sanae El Harane, Urs Granacher, and Abdelhalem Mesfioui

Subjects

exercise, training, running, orthodontic pathologies, endurance, Sports, GV557-1198.995

Abstract

Oral pathologies can cause athletic underperformance. The aim of this study was to determine the effect of malocclusion on maximal aerobic capacity in young athletes with the same anthropometric data, diet, training mode, and intensity from the same athletics training center. Sub-elite track and field athletes (middle-distance runners) with malocclusion (experimental group (EG); n = 37; 21 girls; age: 15.1 ± 1.5 years) and without malocclusion (control group (CG); n = 13; 5 girls; age: 14.7 ± 1.9 years) volunteered to participate in this study. Participants received an oral diagnosis to examine malocclusion, which was defined as an overlapping of teeth that resulted in impaired contact between the teeth of the mandible and the teeth of the upper jaw. Maximal aerobic capacity was assessed using the VAMEVAL test (calculated MAS and estimated VO2max). The test consisted of baseline values that included the following parameters: maximum aerobic speed (MAS), maximal oxygen uptake (VO2max), heart rate frequency, systolic (SAP) and diastolic arterial pressure (DAP), blood lactate concentration (LBP), and post-exercise blood lactate assessment (LAP) after the performance of the VAMEVAL test. There were no statistically significant differences between the two study groups related to either anthropometric data (age: EG = 15.1 ± 1.5 vs. CC = 14.7 ± 1.9 years (p = 0.46); BMI: EG = 19.25 ± 1.9 vs. CC = 19.42 ± 1.7 kg/m2 (p = 0.76)) or for the following physical fitness parameters and biomarkers: MAS: EG = 15.5 (14.5–16.5) vs. CG = 15.5 (15–17) km/h (p = 0.47); VO2max: EG = 54.2 (52.5–58.6) vs. CG = 54.2 (53.4–59.5) mL/kg/min (p = 0.62) (IQR (Q1–Q3)); heart rate before the physical test: EG = 77.1 ± 9.9 vs. CG = 74.3 ± 14.0 bpm (p = 0.43); SAP: EG = 106.6 ± 13.4 vs. CG = 106.2 ± 14.8 mmHg (p = 0.91); DAP: EG = 66.7 ± 9.1 vs. CG = 63.9 ± 10.2 mmHg (p = 0.36); LBP: EG = 1.5 ± 0.4 vs. CG = 1.3 ± 0.4 mmol/L (p = 0.12); and LAP: EG = 4.5 ± 2.36 vs. CG = 4.06 ± 3.04 mmol/L (p = 0.60). Our study suggests that dental malocclusion does not impede maximal aerobic capacity and the athletic performance of young track and field athletes.

Published

2023

15. Identification of single nucleotide variants in the Moroccan population by whole-genome sequencing

Author

Lucy Crooks, Johnathan Cooper-Knock, Paul R. Heath, Ahmed Bouhouche, Mostafa Elfahime, Mimoun Azzouz, Youssef Bakri, Mohammed Adnaoui, Azeddine Ibrahimi, Saaïd Amzazi, and Rachid Tazi-Ahnini

Subjects

Whole genome sequencing, Population genomics, Africa, SNVs, Genetics, QH426-470

Abstract

Abstract Background Large-scale human sequencing projects have described around a hundred-million single nucleotide variants (SNVs). These studies have predominately involved individuals with European ancestry despite the fact that genetic diversity is expected to be highest in Africa where Homo sapiens evolved and has maintained a large population for the longest time. The African Genome Variation Project examined several African populations but these were all located south of the Sahara. Morocco is on the northwest coast of Africa and mostly lies north of the Sahara, which makes it very attractive for studying genetic diversity. The ancestry of present-day Moroccans is unknown and may be substantially different from Africans found South of the Sahara desert, Recent genomic data of Taforalt individuals in Eastern Morocco revealed 15,000-year-old modern humans and suggested that North African individuals may be genetically distinct from previously studied African populations. Results We present SNVs discovered by whole genome sequencing (WGS) of three Moroccans. From a total of 5.9 million SNVs detected, over 200,000 were not identified by 1000G and were not in the extensive gnomAD database. We summarise the SNVs by genomic position, type of sequence gene context and effect on proteins encoded by the sequence. Analysis of the overall genomic information of the Moroccan individuals to individuals from 1000G supports the Moroccan population being distinct from both sub-Saharan African and European populations. Conclusions We conclude that Moroccan samples are genetically distinct and lie in the middle of the previously observed cline between populations of European and African ancestry. WGS of Moroccan individuals can identify a large number of novel SNVs and aid in functional characterisation of the genome.

Published

2020

16. Virtual docking screening and QSAR studies to explore AKT and mTOR inhibitors acting on PI3K in cancers

Author

Ilham Kandoussi, Oussama Benherrif, Wiame Lakhlili, Jamal Taoufik, and Azeddine Ibrahimi

Subjects

qsar, virtual screening, pi3k/akt/mtor, docking, dual atp inhibitors, Medicine

Abstract

The phosphoinositide 3-kinase (PI3K) pathway is an important regulator of cell proliferation and metabolism. PI3K activation initiates a signal transduction cascade, of which the major effectors are the kinases AKT and mTOR. Aberrant activation of the PI3K/AKT/mTOR pathway is frequently observed in many human malignancies and the combination of compounds simultaneously targeting different related molecules in the PI3K/AKT/mTOR pathway leads to synergistic activity. To explore the competing common ATP inhibitors PI3K/AKT and PI3K/mTOR we developed a model PI3K-SAR 2D which made it possible to predict the bioactivity of inhibitors of AKT and mTOR towards PI3K; the interaction of the best inhibitors was evaluated by docking analysis and compared to that of dactolisib and pictilisib. A PI3K-SAR model with a correlation coefficient (R2) of 0.81706 and an RMSE of 0.16029 was obtained, which was validated and evaluated by a cross-validation method, LOO. The most predicted AKT and mTOR inhibitors present respectively pIC50 activities between 9.26–9.93 and 9.59–9.87. After docking and several comparisons, inhibitors with better predictions showed better affinity and interaction with PI3K compared to pictilisib and dactolisib, so we found that 4 inhibitors of AKT and 14 mTOR inhibitors met the criteria of Lipinski and Veber and could be future drugs.

Published

2020

17. IDbSV: An Open-Access Repository for Monitoring SARS-CoV-2 Variations and Evolution

Author

Abdelmounim Essabbar, Souad Kartti, Tarek Alouane, Mohammed Hakmi, Lahcen Belyamani, and Azeddine Ibrahimi

Subjects

SARS-CoV-2, COVID-19, genomic variations, database, mutation, Medicine (General), R5-920

Abstract

Ending COVID-19 pandemic requires a collaborative understanding of SARS-CoV-2 and COVID-19 mechanisms. Yet, the evolving nature of coronaviruses results in a continuous emergence of new variants of the virus. Central to this is the need for a continuous monitoring system able to detect potentially harmful variants of the virus in real-time. In this manuscript, we present the International Database of SARS-CoV-2 Variations (IDbSV), the result of ongoing efforts in curating, analyzing, and sharing comprehensive interpretation of SARS-CoV-2's genetic variations and variants. Through user-friendly interactive data visualizations, we aim to provide a novel surveillance tool to the scientific and public health communities. The database is regularly updated with new records through a 4-step workflow (1—Quality control of curated sequences, 2—Call of variations, 3—Functional annotation, and 4—Metadata association). To the best of our knowledge, IDbSV provides access to the largest repository of SARS-CoV-2 variations and the largest analysis of SARS-CoV-2 genomes with over 60 thousand annotated variations curated from the 1,808,613 genomes alongside their functional annotations, first known appearance, and associated genetic lineages, enabling a robust interpretation tool for SARS-CoV-2 variations to help understanding SARS-CoV-2 dynamics across the world.

Published

2021

18. Syneresis investigations of lacto-fermented sodium caseinate in a mixed model system

Author

Soumaya El Bouchikhi, Philippe Pagès, Yassir El Alaoui, Azeddine Ibrahimi, and Yahya Bensouda

Subjects

Syneresis, Sodium caseinate, Lacto-fermentation, Starch, Acid gel, Non-dairy product, Biotechnology, TP248.13-248.65

Abstract

Abstract Background The textural characteristics of fermented dairy products are important quality parameters that play a major role in their stability and consumer’s acceptance. The aim of this study was to investigate the influence of sodium caseinate, starch, lactose and lactic acid bacteria as ferment on the syneresis in a mixed model system, and to evaluate their impact on the acid gel formation throughout pH and zeta potential monitoring. Accordingly, a protocol was designed to perform an experimental design by using a mixture of the selected factors. Results A significant decrease of syneresis was detected in all mixtures at 8% of sodium caseinate, ranging between a minimum of 1.8% and a maximum of 20.6% compared to the mixtures at 3% of sodium caseinate in which the syneresis decrease had ranged between a minimum of 22.2% and a maximum of 47.8%. The addition of starch had a significant impact on the acidification profile and on the syneresis of the fermented mixed model. Moreover, the monitoring of pH and zeta potential during the lacto-fermentation process has also led to a better understanding of the acid gelation and the syneresis variations. Conclusion Syneresis varies very closely with sodium caseinate concentration, starch concentration and also with their association, regardless of the concentrations of lactose and ferment. In fact syneresis could be reduced to an optimum level if a sodium caseinate-starch mixed system is employed: Less syneresis gels could be obtained at a sodium caseinate concentration above 5% if starch is used above 1%.

Published

2019

19. Identifying epitopes for cluster of differentiation and design of new peptides inhibitors against human SARS-CoV-2 spike RBD by an in-silico approach

Author

Jihane Akachar, El Mehdi Bouricha, Mohammed Hakmi, Lahcen Belyamani, Rachid El Jaoudi, and Azeddine Ibrahimi

Subjects

Coronavirus 19, Molecular docking, Molecular dynamics, Peptide-based drugs, Spike protein, Cluster of differentiation, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

The coronavirus disease 19 (COVID-19) is a highly contagious and rapidly spreading infection caused by the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). In some cases, the disease can be fatal which resulted in more than one million deaths worldwide according the WHO. Currently, there is no effective vaccine or treatment for COVID-19, however many small-molecule inhibitors have shown potent antiviral activity against SARS-CoV-2 and some of them are now under clinical trials. Despite their promising activities, the development of these small molecules for the clinical use can be limited by many factors like the off-target effect, the poor stability, and the low bioavailability. The clusters of differentiation CD147, CD209, CD299 have been identified as essential entry co-receptors for SARS-CoV-2 species specificity to humans, although the underlying mechanisms are yet to be fully elucidated. In this paper, protein-protein docking was utilized for identifying the critical epitopes in CD147, CD209 and CD299 which are involved in the binding with SARS-CoV-2 Spike receptor binding domain (RBD). The results of binding free energies showed a high affinity of SARS-CoV-2 RBD to CD299 receptor which was used as a reference to derive hypothetical peptide sequences with specific binding activities to SARS-CoV-2 RBD. Molecular docking and molecular dynamics simulations of the newly designed peptides showed favorable binding features and stability with SARS-CoV-2 RBD and therefore can be further considered as potential candidates in future anti-SARS CoV-2 drug discovery studies.

Published

2020

20. Bioinformatics Analysis of Differentially Expressed Genes and miRNAs in Low-Grade Gliomas

Author

Mohammed Amine Bendahou, Azeddine Ibrahimi, and Mahjouba Boutarbouch

Subjects

Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Low-grade glioma is the most common type of primary intracranial tumor. In the last 3 years, new observations of molecular precursors in adults with gliomas have led to a modification in the histopathologic classification of these brain tumors. Among the biomarkers that have been highlighted, we have the micro RNAs (miRNAs) which play a crucial role in the regulation of gene expression and the long noncoding RNAs (lncRNAs) controlling various cellular and metabolic pathways. In our study, large-scale data on sequenced RNA and miRNAs from 516 patients were obtained from the Cancer Genome Atlas database by the TCGAbiolinks package. We identified the differential expression of miRNAs and genes using the Limma package and then we used the ClusterProfiler package for annotations of the biological pathways of the expressed genes, the survival package to estimate the survival analysis, and the GDCRNATools package to determine miRNAs-genes and miRNAs-lncRNAs interactions. We obtained a significant correlation between the miRNAs identified and the overall survival of the patients (log-rank P

Published

2020

21. Targeting the GRP78-Dependant SARS-CoV-2 Cell Entry by Peptides and Small Molecules

Author

Loubna Allam, Fatima Ghrifi, Hakmi Mohammed, Naima El Hafidi, Rachid El Jaoudi, Jaouad El Harti, Badreddine Lmimouni, Lahcen Belyamani, and Azeddine Ibrahimi

Subjects

Biology (General), QH301-705.5

Abstract

The global burden of infections and the rapid spread of viral diseases show the need for new approaches in the prevention and development of effective therapies. To this end, we aimed to explore novel inhibitor compounds that can stop replication or decrease the viral load of the novel severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), for which there is currently no approved treatment. Besides using the angiotensin-converting enzyme (ACE2) receptor as a main gate, the CoV-2 can bind to the glucose-regulating protein 78 (GRP78) receptor to get into the cells to start an infection. Here, we report potential inhibitors comprising small molecules and peptides that could interfere with the interaction of SARS-CoV-2 and its target cells by blocking the recognition of the GRP78 cellular receptor by the viral Spike protein. These inhibitors were discovered through an approach of in silico screening of available databases of bioactive peptides and polyphenolic compounds and the analysis of their docking modes. This process led to the selection of 9 compounds with optimal binding affinities to the target sites. The peptides (satpdb18674, satpdb18446, satpdb12488, satpdb14438, and satpdb28899) act on regions III and IV of the viral Spike protein and on its binding sites in GRP78. However, 4 polyphenols such as epigallocatechin gallate (EGCG), homoeriodictyol, isorhamnetin, and curcumin interact, in addition to the Spike protein and its binding sites in GRP78, with the ATPase domain of GRP78. Our work demonstrates that there are at least 2 approaches to block the spread of SARS-CoV-2 by preventing its fusion with the host cells via GRP78.

Published

2020

22. Computational Analysis of , and Mutations in Low-Grade Gliomas Including Oligodendrogliomas and Astrocytomas

Author

Mohammed Amine Bendahou, Housna Arrouchi, Wiame Lakhlili, Loubna Allam, Tarik Aanniz, Nadia Cherradi, Azeddine Ibrahimi, and Mahjouba Boutarbouch

Subjects

Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Introduction: The emergence of new omics approaches, such as genomic algorithms to identify tumor mutations and molecular modeling tools to predict the three-dimensional structure of proteins, has facilitated the understanding of the dynamic mechanisms involved in the pathogenesis of low-grade gliomas including oligodendrogliomas and astrocytomas. Methods: In this study, we targeted known mutations involved in low-grade gliomas, starting with the sequencing of genomic regions encompassing exon 4 of isocitrate dehydrogenase 1 ( IDH1 ) and isocitrate dehydrogenase 2 ( IDH2 ) and the four exons (5-6 and 7-8) of TP53 from 32 samples, followed by computational analysis to study the impact of these mutations on the structure and function of 3 proteins IDH1, IDH2 , and p53 . Results: We obtain a mutation that has an effect on the catalytic site of the protein IDH1 as R132H and on the catalytic site of the protein IDH2 as R172M. Other mutations at p53 have been identified as K305N, which is a pathogenic mutation; R175 H, which is a benign mutation; and R158G, which disrupts the structural conformation of the tumor suppressor protein. Conclusion: In low-grade gliomas, mutations in IDH1, IDH2 , and TP53 may be the key to tumor progression because they have an effect on the function of the protein such as mutations R132H in IDH1 and R172M in IDH2 , which change the function of the enzyme alpha-ketoglutarate, or R158G in TP53 , which affects the structure of the generated protein, thus their importance in understanding gliomagenesis and for more accurate diagnosis complementary to the anatomical pathology tests.

Published

2020

23. Large scale genomic analysis of 3067 SARS-CoV-2 genomes reveals a clonal geo-distribution and a rich genetic variations of hotspots mutations.

Author

Meriem Laamarti, Tarek Alouane, Souad Kartti, M W Chemao-Elfihri, Mohammed Hakmi, Abdelomunim Essabbar, Mohamed Laamarti, Haitam Hlali, Houda Bendani, Nassma Boumajdi, Oussama Benhrif, Loubna Allam, Naima El Hafidi, Rachid El Jaoudi, Imane Allali, Nabila Marchoudi, Jamal Fekkak, Houda Benrahma, Chakib Nejjari, Saaid Amzazi, Lahcen Belyamani, and Azeddine Ibrahimi

Subjects

Medicine, Science

Abstract

In late December 2019, an emerging viral infection COVID-19 was identified in Wuhan, China, and became a global pandemic. Characterization of the genetic variants of SARS-CoV-2 is crucial in following and evaluating it spread across countries. In this study, we collected and analyzed 3,067 SARS-CoV-2 genomes isolated from 55 countries during the first three months after the onset of this virus. Using comparative genomics analysis, we traced the profiles of the whole-genome mutations and compared the frequency of each mutation in the studied population. The accumulation of mutations during the epidemic period with their geographic locations was also monitored. The results showed 782 variants sites, of which 512 (65.47%) had a non-synonymous effect. Frequencies of mutated alleles revealed the presence of 68 recurrent mutations, including ten hotspot non-synonymous mutations with a prevalence higher than 0.10 in this population and distributed in six SARS-CoV-2 genes. The distribution of these recurrent mutations on the world map revealed that certain genotypes are specific to geographic locations. We also identified co-occurring mutations resulting in the presence of several haplotypes. Moreover, evolution over time has shown a mechanism of mutation co-accumulation which might affect the severity and spread of the SARS-CoV-2. The phylogentic analysis identified two major Clades C1 and C2 harboring mutations L3606F and G614D, respectively and both emerging for the first time in China. On the other hand, analysis of the selective pressure revealed the presence of negatively selected residues that could be taken into considerations as therapeutic targets. We have also created an inclusive unified database (http://covid-19.medbiotech.ma) that lists all of the genetic variants of the SARS-CoV-2 genomes found in this study with phylogeographic analysis around the world.

Published

2020

24. Global initiative for congenital toxoplasmosis: an observational and international comparative clinical analysis

Author

Kamal El Bissati, Pauline Levigne, Joseph Lykins, El Bachir Adlaoui, Amina Barkat, Amina Berraho, Majda Laboudi, Bouchra El Mansouri, Azeddine Ibrahimi, Mohamed Rhajaoui, Fred Quinn, Manoradhan Murugesan, Fouad Seghrouchni, Jorge Enrique Gómez-Marín, François Peyron, and Rima McLeod

Subjects

Infectious and parasitic diseases, RC109-216, Microbiology, QR1-502

Abstract

Abstract Globally, congenital toxoplasmosis remains a significant cause of morbidity and mortality, and outbreaks of infection with T. gondii represent a significant, emerging public health burden, especially in the developing world. This parasite is a threat to public health. Disease often is not recognized and is inadequately managed. Herein, we analyze the status of congenital toxoplasmosis in Morocco, Colombia, the United States, and France. We identify the unique challenges faced by each nation in the implementation of optimal approaches to congenital toxoplasmosis as a public health problem. We suggest that developed and developing countries use a multipronged approach, modeling their public health management protocols after those in France. We conclude that education, screening, appropriate treatment, and the development of novel modalities will be required to intervene successfully in caring for individuals with this infection. Gestational screening has been demonstrated to be cost-effective, morbidity-sparing, and life-saving. Recognition of the value and promise of public health interventions to prevent human suffering from this emerging infection will facilitate better patient and societal outcomes.

Published

2018

25. Clonal diversity and detection of carbapenem resistance encoding genes among multidrug-resistant Acinetobacter baumannii isolates recovered from patients and environment in two intensive care units in a Moroccan hospital

Author

Jean Uwingabiye, Abdelhay Lemnouer, Ignasi Roca, Tarek Alouane, Mohammed Frikh, Bouchra Belefquih, Fatna Bssaibis, Adil Maleb, Yassine Benlahlou, Jalal Kassouati, Nawfal Doghmi, Abdelouahed Bait, Charki Haimeur, Lhoussain Louzi, Azeddine Ibrahimi, Jordi Vila, and Mostafa Elouennass

Subjects

Acinetobacter Baumannii, Multidrug-resistant, Pulsed-field gel electrophoresis, OXA genes, blaNDM-1 gene, Intensive care unit, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Carbapenem-resistant Acinetobacter baumannii has recently been defined by the World Health Organization as a critical pathogen. The aim of this study was to compare clonal diversity and carbapenemase-encoding genes of A. baumannii isolates collected from colonized or infected patients and hospital environment in two intensive care units (ICUs) in Morocco. Methods The patient and environmental sampling was carried out in the medical and surgical ICUs of Mohammed V Military teaching hospital from March to August 2015. All A. baumannii isolates recovered from clinical and environmental samples, were identified using routine microbiological techniques and Matrix-Assisted Laser Desorption/Ionization Time-of-Flight Mass Spectrometry. Antimicrobial susceptibility testing was performed using disc diffusion method. The carbapenemase-encoding genes were screened for by PCR. Clonal relatedness was analyzed by digestion of the DNA with low frequency restriction enzymes and pulsed field gel electrophoresis (PFGE) and the multi locus sequence typing (MLST) was performed on two selected isolates from two major pulsotypes. Results A total of 83 multidrug-resistant A. baumannii isolates were collected: 47 clinical isolates and 36 environmental isolates. All isolates were positive for the bla OXA51-like and bla OXA23-like genes. The coexistence of bla NDM-1 /bla OXA-23-like and bla OXA 24-like /bla OXA-23-like were detected in 27 (32.5%) and 2 (2.4%) of A. baumannii isolates, respectively. The environmental samples and the fecally-colonized patients were significantly identified (p

Published

2017

26. Genomic Diversity and Hotspot Mutations in 30,983 SARS-CoV-2 Genomes: Moving Toward a Universal Vaccine for the 'Confined Virus'?

Author

Tarek Alouane, Meriem Laamarti, Abdelomunim Essabbar, Mohammed Hakmi, El Mehdi Bouricha, M. W. Chemao-Elfihri, Souad Kartti, Nasma Boumajdi, Houda Bendani, Rokia Laamarti, Fatima Ghrifi, Loubna Allam, Tarik Aanniz, Mouna Ouadghiri, Naima El Hafidi, Rachid El Jaoudi, Houda Benrahma, Jalil El Attar, Rachid Mentag, Laila Sbabou, Chakib Nejjari, Saaid Amzazi, Lahcen Belyamani, and Azeddine Ibrahimi

Subjects

COVID-19, SARS-CoV-2, genomic diversity, divergence, hotspot mutations, spike protein, Medicine

Abstract

The COVID-19 pandemic has been ongoing since its onset in late November 2019 in Wuhan, China. Understanding and monitoring the genetic evolution of the virus, its geographical characteristics, and its stability are particularly important for controlling the spread of the disease and especially for the development of a universal vaccine covering all circulating strains. From this perspective, we analyzed 30,983 complete SARS-CoV-2 genomes from 79 countries located in the six continents and collected from 24 December 2019, to 13 May 2020, according to the GISAID database. Our analysis revealed the presence of 3206 variant sites, with a uniform distribution of mutation types in different geographic areas. Remarkably, a low frequency of recurrent mutations has been observed; only 169 mutations (5.27%) had a prevalence greater than 1% of genomes. Nevertheless, fourteen non-synonymous hotspot mutations (>10%) have been identified at different locations along the viral genome; eight in ORF1ab polyprotein (in nsp2, nsp3, transmembrane domain, RdRp, helicase, exonuclease, and endoribonuclease), three in nucleocapsid protein, and one in each of three proteins: Spike, ORF3a, and ORF8. Moreover, 36 non-synonymous mutations were identified in the receptor-binding domain (RBD) of the spike protein with a low prevalence (

Published

2020

27. Single-molecule Real Time sequencing (PacBio) of the Staphylococcus capitis NRCS-A clone reveals the basis of multidrug resistance and adaptation to the Neonatal Intensive Care Unit environment

Author

Patrícia Martins Simões, Hajar Lemriss, Yann Dumont, Sanaa Lemriss, Jean-Philippe Rasigade, Sophie Trouillet-Assant, Azeddine Ibrahimi, Saad El Kabbaj, Marine Butin, and LAURENT Frederic

Subjects

Staphylococcal Infections, Comparative genomics, Late-Onset Sepsis, Nisin resistance, methicillin resistant Staphylococcus capitis, complete genome SMRT, Microbiology, QR1-502

Abstract

The multi-resistant Staphylococcus capitis clone NRCS-A has recently been described as a major pathogen causing nosocomial, late-onset sepsis (LOS) in preterm neonates worldwide. NRCS-A representatives exhibit an atypical antibiotic resistance profile. Here, the complete closed genome (chromosomal and plasmid sequences) of NRCS-A prototype strain CR01 and the draft genomes of three other clinical NRCS-A strains from Australia, Belgium and the United Kingdom are annotated and compared to available non-NRCS-A S. capitis genomes. Our goal was to delineate the uniqueness of the NRCS-A clone with respect to antibiotic resistance, virulence factors and mobile genetic elements.We identified 6 antimicrobial resistance genes, all carried by mobile genetic elements. Previously described virulence genes present in the NRCS-A genomes are shared with the six non-NRCS-A S. capitis genomes. Overall, 63 genes are specific to the NRCS-A lineage, including 28 genes located in the methicillin-resistance cassette SCCmec. Among the 35 remaining genes, 25 are of unknown function, and 9 correspond to an additional type I restriction modification system (n=3), a cytosine methylation operon (n=2), and a cluster of genes related to the biosynthesis of teichoic acids (n=4). Interestingly, a tenth gene corresponds to a resistance determinant for nisin (nsr gene), a bacteriocin secreted by potential NRCS-A strain niche competitors in the gut microbiota.The genomic characteristics presented here emphasize the contribution of mobile genetic elements to the emergence of multidrug resistance in the S. capitis NRCS-A clone. No NRCS-A-specific known virulence determinant was detected, which does not support a role for virulence as a driving force of NRCS-A emergence in NICUs worldwide. However, the presence of a nisin resistance determinant on the NRCS-A chromosome, but not in other S. capitis strains and most coagulase-negative representatives, might confer a competitive advantage to NRCS-A strains during the early steps of gut colonization in neonates. This suggests that the striking adaptation of NRCS-A to the NICU environment might be related to its specific antimicrobial resistance and also to a possible enhanced ability to challenge competing bacteria in its ecological niche.

Published

2016

28. Three Dimensional Structure Prediction of Fatty Acid Binding Site on Human Transmembrane Receptor CD36

Author

Zineb Tarhda, Oussama Semlali, Anas Kettani, Ahmed Moussa, Nada A. Abumrad, and Azeddine Ibrahimi

Subjects

Biology (General), QH301-705.5

Published

2013

29. Acinetobacter infections prevalence and frequency of the antibiotics resistance: comparative study of intensive care units versus other hospital units

Author

Jean Uwingabiye, Mohammed Frikh, Abdelhay Lemnouer, Fatna Bssaibis, Bouchra Belefquih, Adil Maleb, Souhail Dahraoui, Lahcen Belyamani, Abdelouahed Bait, Charki Haimeur, Lhoussain Louzi, Azeddine Ibrahimi, and Mostafa Elouennass

Subjects

acinetobacter, prevalence, antibiotic resistance intensive care units, Medicine

Abstract

INTRODUCTION: this study aims to determine the Acinetobacter sp clinical isolates frequency and its antibiotic susceptibility pattern by comparing results obtained from the Intensive Care Units (ICUs) to that of other units at the Mohammed V Military Teaching Hospital in Rabat. METHODS: this is a retrospective study over a 2-years period where we collected all clinical isolates of Acinetobacter sp obtained from samples for infection diagnosis performed on hospitalized patients between 2012 to 2014. RESULTS: during the study period, 441 clinical and non-repetitive isolates of Acinetobacter sp were collected representing 6.94% of all bacterial clinical isolates (n=6352) and 9.6% of Gram negative rods (n=4569). More than a half of the isolates were from the ICUs and were obtained from 293 infected patients of which 65, 2% (191 cases) were males (sex ratio = 1.9) and the median age was 56 years (interquartile range: 42-68 years). Acinetobacter clinical isolates were obtained from respiratory samples (44.67%) followed by blood cultures (14.51%). The resistance to ciprofloxacin, ceftazidime, piperacillin / tazobactam, imipenem, amikacin, tobramycin, netilmicin,rifampicin and colistin was respectively 87%, 86%, 79%, 76%; 52%, 43%, 33% 32% and 1.7%. The difference in resistance between the ICUs and the other units was statistically significant (p =0.05) except for colistin, tetracycline and rifampicin. CONCLUSION: this paper shows that solving the problem of prevalence and high rate of multidrug resistant Acinetobacter infection which represents a therapeutic impasse, requires the control of the hospital environment and optimizing hands hygiene and antibiotics use in the hospital.

Published

2016

30. Nutrition: From Bench to Bedside

Author

Naim A. Khan, Azeddine Ibrahimi, Aziz Hichami, and Najat Mokhtar

Subjects

Nutritional diseases. Deficiency diseases, RC620-627

Published

2016

31. Membrane transport of long-chain fatty acids: evidence for a facilitated process

Author

Nada Abumrad, Carroll Harmon, and Azeddine Ibrahimi

Subjects

Biochemistry, QD415-436

Abstract

In mammalian cells, membrane uptake of long-chain fatty acids is mediated by two separate components; a passive component that is a linear function of the concentration of free fatty acid in the extracellular medium and a saturable component that exhibits the characteristics of a protein-facilitated process. This review summarizes the body of work that has accumulated related to the mechanism of fatty acid transport. Evidence in support of a facilitated uptake process is presented with relation to the different cell types or membrane systems where it was collected. The evidence includes saturation kinetics, competition between different substrates, and sensitivity to a variety of inhibitors. Recent knowledge related to membrane proteins thought to be implicated in the uptake process is reviewed. Factors that may modulate uptake or alter the relative contribution of passive versus facilitated components are briefly discussed. These include the molar ratio of fatty acid to its physiological carrier, plasma albumin and the metabolic or hormonal milieu.—Abumrad, N., C. Harmon, and A. Ibrahimi. Membrane transport of long-chain fatty acids: evidence for a facilitated process. J. Lipid Res. 1998. 39: 2309–2318.

Published

1998

32. Insights from a 3-Year Genomic Evolution of SARS-CoV-2 Shows a Predominance of Variants from Developing Countries

Author

Abdelmounim, ESSABBAR, primary, Safae, EL MAZOURI, additional, and Azeddine, IBRAHIMI, additional

Published

2023

33. Phylogeography and genomic analysis of SARS-CoV-2 delta variant in Morocco

Author

Safae El Mazouri, Houda Bendani, Nasma Boumajdi, Tarik Aanniz, Ilham Kandoussi, Saaïd Amzazi, Lahcen Belyamani, Azeddine Ibrahimi, and Mouna Ouadghiri

Subjects

Morocco, Phylogeography, Infectious Diseases, SARS-CoV-2, Virology, COVID-19, Humans, Parasitology, Genomics, General Medicine, Pandemics, Microbiology

Abstract

Introduction: Since the COVID-19 pandemic began in December 2019, the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) has continuously evolved with many variants of concern emerging across the world. Methodology: In order to monitor the evolution of these variants in Morocco, we analyzed a total of 2130 genomes of the delta variant circulating around the world. We also included 164 Moroccan delta variant sequences in our analysis. Results: Our findings suggest at least four introductions from multiple international sources and a rise of a dominant delta sub-lineage AY.33 in Morocco. Moreover, we report three mutations in the N-terminal domain of the S protein specific to the Moroccan AY.33 isolates, T29A, T250I and T299I. The effect of these mutations on the secondary structure and the dynamic behavior of the S protein N-terminal domain was further determined. Conclusions: We conclude that these mutations might have functional consequences on the S protein of SARS-CoV-2.

Published

2022

34. Mechanistic evidence from classical molecular dynamics and metadynamics revealed the mechanism of resistance to 4-hydroxy tamoxifen in estrogen receptor alpha Y537S mutant

Author

El Mehdi Bouricha, Mohammed Hakmi, Souad Kartti, Fouad Zouaidia, and Azeddine Ibrahimi

Subjects

General Chemical Engineering, Modeling and Simulation, General Materials Science, General Chemistry, Condensed Matter Physics, Information Systems

Published

2022

35. Facing Antitubercular Resistance: Identification of Potential Direct Inhibitors Targeting InhA Enzyme and Generation of 3D-pharmacophore Model by in silico Approach

Author

Ghyzlane EL Haddoumi, Mariam Mansouri, Houda Bendani, El Mehdi Bouricha, Ilham Kandoussi, Lahcen Belyamani, and Azeddine Ibrahimi

Subjects

Chemistry (miscellaneous), Advances and Applications in Bioinformatics and Chemistry, Biochemistry, Genetics and Molecular Biology (miscellaneous), Biochemistry, Computer Science Applications

Abstract

Ghyzlane EL Haddoumi,1,2 Mariam Mansouri,1,2 Houda Bendani,1,2 El Mehdi Bouricha,1,2 Ilham Kandoussi,1,2 Lahcen Belyamani,2– 4 Azeddine Ibrahimi1– 3 1Biotechnology Lab (MedBiotech), Rabat Medical and Pharmacy School, University Mohammed V, Rabat, Morocco; 2Centre Mohammed VI for Research & Innovation (CM6), Rabat, Morocco; 3Mohammed VI University of Health Sciences (UM6SS), Casablanca, Morocco; 4Emergency Department, Military Hospital Mohammed V, Rabat, MoroccoCorrespondence: Azeddine Ibrahimi, Mohammed VI University of Health Sciences (UM6SS), Casablanca, Morocco, Tel +212660240131, Email aibrahimi@um6ss.maPurpose: The enoyl-acyl carrier protein reductase (InhA) is one of the important key enzymes employed in mycolic acids biosynthesis pathway and an important component of mycobacterial cell walls. This enzyme has also been identified as major target of isoniazid drug, except that isoniazid needs to be activated first by the catalase peroxidase (KatG) protein to form the isonicotinoyl-NAD (INH-NAD) adduct that inhibits the action of InhA enzyme. However, this activation becomes more difficult and unreachable with the problem of mutation-related resistance caused mainly by acquired mutations in KatG and InhA protein. Our main interest in this study is to identify direct InhA inhibitors using computer-aided drug design.Methods: Computer-aided drug design was used to solve this problem by applying three different approaches including mutation impact modelling, virtual screening and 3D-pharmacophore search.Results: A total of 15 mutations were collected from the literature, then a 3D model was generated for each of them and their impact was predicted. Of the 15 mutations, 10 were found to be deleterious and have a direct effect on flexibility, stability and SASA of the protein. In virtual screening, from 1,000 similar INH-NAD analogues obtained by the similarity search method, 823 compounds passed toxicity filter and drug likeness rules, which were then docked to the wild-type of InhA protein. Subsequently, 34 compounds with binding energy score better than that of INH-NAD were selected and docked against the 10 generated mutated models of InhA. Only three leads showed a lower binding affinity better than the reference. The 3D-pharmacophore model approach was used to identify the common features between those three compounds by generating a pharmacophoric map.Conclusion: The result of this study may pave the way to develop more potent mutant-specific inhibitors to overcome this resistance.Keywords: molecular docking, CADD, Mycobacterium tuberculosis, InhA, mutational profile

Published

2023

36. Synthesis, molecular docking, ADMET evaluation and in vitro cytotoxic activity evaluation on RD and L20B cell lines of 3-substituted 5,5-diphenylimidazolidine-2,4-dione derivatives

Author

Walid Guerrab, Jihane Akachar, Meryem El Jemli, Abdul-Malik Abudunia, Rachida Ouaabou, Katim Alaoui, Azeddine Ibrahimi, and Youssef Ramli

Subjects

Structural Biology, General Medicine, Molecular Biology

Published

2022

37. Metagenomics Analysis of Breast Microbiome Highlights the Abundance of Rothia Genus in Tumor Tissues

Author

Souad Kartti, Houda Bendani, Nasma Boumajdi, El Mehdi Bouricha, Oumaima Zarrik, Hajar EL Agouri, Mohamed Fokar, Youssef Aghlallou, Rachid EL Jaoudi, Lahcen Belyamani, Basma Elkhannoussi, and Azeddine Ibrahimi

Subjects

metagenomics, rhotia, breast cancer, Medicine (miscellaneous), microbiome, 16s rRNA sequencing

Abstract

Breast cancer is one of the main global priorities in terms of public health. It remains the most frequent cancer in women and is the leading cause of their death. The human microbiome plays various roles in maintaining health by ensuring a dynamic balance with the host or in the appearance of various pathologies including breast cancer. In this study, we performed an analysis of bacterial signature differences between tumor and adjacent tissues of breast cancer patients in Morocco. Using 16S rRNA gene sequencing, we observed that adjacent tissue contained a much higher percentage of the Gammaproteobacteria class (35.7%) while tumor tissue was characterized by a higher percentage of Bacilli and Actinobacteria classes, with about 18.8% and 17.2% average abundance, respectively. Analysis of tumor subtype revealed enrichment of genus Sphingomonodas in TNBC while Sphingomonodas was predominant in HER2. The LEfSe and the genus level heatmap analysis revealed a higher abundance of the Rothia genus in tumor tissues. The identified microbial communities can therefore serve as potential biomarkers for prognosis and diagnosis, while also helping to develop new strategies for the treatment of breast cancer patients.

Published

2023

38. Draft Genome Sequences of Three Pseudomonas chengduensis Strains Isolated from Desert Soil in Morocco

Author

Houda Zouagui, M. W. Chemao-Elfihri, Amina Manni, Meryem Laamarti, Souad Kartti, Tarek Alouane, Lamiaa Lahlou, Oussama Benhrif, Loubna Temsamani, Jamal-Eddine Eljamali, Abdelkarim Filali-Maltouf, Azeddine Ibrahimi, and Laila Sbabou

Subjects

Immunology and Microbiology (miscellaneous), Genetics, Molecular Biology

Abstract

We report the draft genome sequences of three Pseudomonas chengduensis strains isolated from the sand dunes of the Merzouga (MDMC17 strain) and Erg Lihoudi (MDMC216 and MDMC224 strains) regions in the Moroccan desert. These bacteria are able to tolerate the harsh environmental conditions of the desert ecosystem.

Published

2023

39. Draft Genome Sequences of Four Plant Growth-Promoting Rhizobacteria Isolated from Saffron (Crocus sativus L.) Rhizosphere in Morocco

Author

Rahma Zouagui, Houda Zouagui, Mohammed Walid Chemao-Elfihri, Imane Chamkhi, Jamal Aurag, Azeddine Ibrahimi, and Laila Sbabou

Subjects

Immunology and Microbiology (miscellaneous), Genetics, Molecular Biology

Abstract

We report the draft genome sequences of plant growth-promoting Rahnella perminowiae strain S11P1, Variovorax sp. strain S12S4, and Pseudomonas sp. strains S11A4 and S11P7, which were isolated from saffron ( Crocus sativus L.) rhizosphere. Several genes were predicted to be involved in auxin production, phosphate solubilization, and other specialized functions in plant growth and defense.

Published

2023

40. Creaming behavior prediction of argan oil in water emulsion stabilized by lacto-fermentation: creaming index

Author

Philippe Pagès, Yahya Bensouda, Soumaya El Bouchikhi, and Azeddine Ibrahimi

Subjects

food.ingredient, Starch, Argan oil, Context (language use), Biology, chemistry.chemical_compound, Viscosity, food, Settling, Plant Oils, Food science, Particle Size, Lacto-fermentation, Dairy-like products, Water, Creaming, Sodium caseinate, chemistry, Emulsion O/W, Fermentation, Emulsion, Emulsions, Particle size, TP248.13-248.65, Research Article, Creaming index, Biotechnology

Abstract

Background In order to improve the taste acceptability of certain nutritional oils, it has been decided in this study to introduce them in an emulsion whose surfactant is casein, then to carry out a lacto-fermentation, leading to a dairy-like product with added nutritional value and health benefit. In this context, a plan of mixtures has been proposed for the preparation of emulsions based on argan oil, sodium caseinate and starch, with concentrations ranged between (10–20%) and (0–2%) and (0–1.5%) respectively. All emulsions were homogenized at two high stirring velocities (10,000–20,000 rpm) and two stirring times (5–20 min). The physical stability was assessed by visual analysis and microstructural measurements. The Creaming index was calculated for selected emulsions to predict their creaming behavior. Results All emulsions showed a creaming behavior except one emulsion that required the highest values of all factors, which showed the highest creaming index with an average particle size of 11.27 μm. The absence or the variation of one or all factors led to various degrees of instabilities verified in all other emulsions. Due to the synergistic action of all parameters, the emulsion stability was attributed to the reduction of droplets size, the increase of continuous phase viscosity and the decrease of coalescence. Conclusion The parameters that played a major role in the stability of the emulsion consists of: stirring velocity and time, sodium caseinate/oil ratio and starch/sodium caseinate ratio. The underlying structure and the interaction of the fluid droplets within the solid like product is what holds the stability of the product against settling or separation during fermentation.

Published

2021

41. Biofilm and Quorum Sensing in Helicobacter pylori

Author

Tarik Aanniz, Wissal Bakri, Safae El Mazouri, Hajar Wakrim, Ilham Kandoussi, Lahcen Belyamani, Mouna Ouadghiri, and Azeddine Ibrahimi

Abstract

Helicobacter pylori (H. pylori) is a gram-negative bacterium living in the human gastrointestinal tract considered as the most common cause of gastritis. H. pylori was listed as the main risk factor for gastric cancer. Triple therapy consisting of a proton pump inhibitor and combinations of antibiotics is the main treatment used. However, this line of therapy has proven less effective mainly due to biofilm formation. Bacteria can regulate and synchronize the expression of multiple genes involved in virulence, toxin production, motility, chemotaxis, and biofilm formation by quorum sensing (QS), thus contributing to antimicrobial resistance. Henceforth, the inhibition of QS called quorum quenching (QQ) is a promising target and alternative to fight H. pylori resistance to antimicrobials. Many phytochemicals as well as synthetic compounds acting as quorum quenchers in H. pylori were described in vitro and in vivo. Otherwise, many other compounds known as quorum quenchers in other species and inhibitors of biofilm formation in H. pylori could act as quorum quenchers in H. pylori. Here, we summarize and discuss the latest findings on H. pylori’s biofilm formation, QS sensing, and QQ mechanisms.

Published

2022

42. Variants of human CLDN9 cause mild to profound hearing loss

Author

Rizwan Yousaf, Botond Banfi, Christophe Philippe, Azeddine Ibrahimi, Zunaira Munir, Oumaima Zarrik, Sophie Nambot, Inna A. Belyantseva, Nara Sobreria, Rasheeda Basheer, Souad Kartti, Cristina Fenollar-Ferrer, Yoko Nakano, Ayesha Imtiaz, Hafiza Idrees, Antonio Vitobello, Sebastien Moutton, Midhat Salman, P. Dane Witmer, Risa Tona, Sadaf Naz, Rabia Faridi, Thomas B. Friedman, and Memoona Ramzan

Subjects

tight junctions, Adolescent, claudin 9, In situ hybridization, Deafness, Biology, Article, Frameshift mutation, Mice, otorhinolaryngologic diseases, Genetics, medicine, Animals, Humans, Pakistan, Inner ear, Nonsyndromic deafness, Child, Claudin, Genetics (clinical), Exome sequencing, nonsyndromic deafness, Tight junction, Genetic heterogeneity, exome sequencing, Morocco, Homozygote, medicine.disease, Molecular biology, Pedigree, medicine.anatomical_structure, Claudins, Mutation, HeLa Cells

Abstract

Hereditary deafness is clinically and genetically heterogeneous. We investigated deafness segregating as a recessive trait in two families. Audiological examinations revealed an asymmetric mild to profound hearing loss with childhood or adolescent onset. Exome sequencing of probands identified a homozygous c.475G>A;p.(Glu159Lys) variant of CLDN9 (NM_020982.4) in one family and a homozygous c.370_372dupATC;p.(Ile124dup) CLDN9 variant in an affected individual of a second family. Claudin 9 (CLDN9) is an integral membrane protein and constituent of epithelial bicellular tight junctions that form semi-permeable, paracellular barriers between inner ear perilymphatic and endolymphatic compartments. Computational structural modeling predicts that substitution of a lysine for glutamic acid p.(Glu159Lys) alters one of two cis-interactions between CLDN9 protomers. The p.(Ile124dup) variant is predicted to locally misfold CLDN9 and mCherry tagged p.(Ile124dup) CLDN9 is not targeted to the HeLa cell membrane. In situ hybridization shows that mouse Cldn9 expression increases from embryonic to postnatal development and persists in adult inner ears coinciding with prominent CLDN9 immunoreactivity in tight junctions of epithelia outlining the scala media. Together with the Cldn9 deaf mouse and a homozygous frameshift of CLDN9 previously associated with deafness, the two bi-allelic variants of CLDN9 described here point to CLDN9 as a bona fide human deafness gene.

Published

2021

43. Syneresis Understanding by Modeling the Lacto-Fermentation of Sodium Caseinate

Author

Soumaya El Bouchikhi, Philippe Pagès, Azeddine Ibrahimi, Yassir El Alaoui, and Yahya Bensouda

Published

2022

44. Design, synthesis, structural and molecular characterization, toxicity, psychotropic activity and molecular docking evaluation of a novel phenytoin derivative: 3-decyl-5,5-diphenylimidazolidine-2,4-dione

Author

Azeddine Ibrahimi, Youssef Ramli, Jamal Taoufik, Joel T. Mague, Katim Alaoui, Meryem El Jemli, Jihane Akachar, Güneş Demirtaş, M'hammed Ansar, and Walid Guerrab

Subjects

0303 health sciences, Molecular model, biology, Hydrogen bond, 030303 biophysics, Intermolecular force, Active site, Hydantoin, General Medicine, 03 medical and health sciences, chemistry.chemical_compound, chemistry, Structural Biology, Computational chemistry, biology.protein, Molecule, Molecular orbital, Molecular Biology, Derivative (chemistry)

Abstract

The hydantoin scaffold is of substantial importance and it is commonly used in drug discovery. Herein, we report the synthesis of a novel phenytoine (a hydantoin derivative) with high yield by the reaction of phenytoin with 1-bromodecyl agent. Namely, 3-decyl-5,5- diphenylimidazolidine-2,4-dione (3DDID). The optimized geometry of the compound was calculated using density functional theory (DFT) method by B3LYP with 6-311++G(d,p) basis set. For this calculation, the X-ray data were used as initial values. Molecular electrostatic potential (MEP) surface and Frontier molecular orbitals (FOMs) were prepared for the compound. The crystal structure of the title compound contains intermolecular N-H···O, C-H···O hydrogen bonds and weak C-H···π interactions. Hirshfeld surface analysis and 2D fingerprint plots of the molecule aid comparison of intermolecular interactions and these analysis reveals that two close contacts are associated with intermolecular hydrogen bonds. The psychotropic activity evaluation of the synthesized compound was further explored using hole bored test for exploratory behaviors, dark//light box test for anxiolytic activity and Rota-road, traction, chimney testes were used to assess the myrelaxant effect. In addition, molecular modeling study was also conducted to rationalize the potential as neurotherapeutic drugs of our synthesized compound by predicting their binding modes, binding affinities and optimal orientation at the active site of the GABA-A receptor and Na+ channel. Finally, in silico ADMET predictions was also examined. HighlightsSynthesis, structural, and molecular characterization of a novel phenytoin derivative.DFT, XRD, and the Hirshfeld surface analysis of crystal structure was studied.Acute toxicity and psychotropic activity evaluation of 3-decyl-5,5 diphenylimidazolidine-2,4-dione (3DDID).Molecular modeling studies have been conducted to rationalize the obtained data and to determine the probable binding mode.Communicated by Ramaswamy H. Sarma.

Published

2021

45. Extraction Methods, Characterization and Biomedical Applications of Collagen: a Review

Author

Azeddine Ibrahimi and Naoual EL MENYIY

Subjects

Molecular Medicine, Molecular Biology, Biochemistry, Biotechnology

Abstract

It is difficult to develop a standard extraction method for all types of collagen from different tissues due to the extreme diversity of collagen types. Some procedures are based on the isolation of acid, pepsin, and enzymatic soluble collagen, showing certain advantages and disadvantages. Other methods were also optimized to partially purify collagen and extract it easier than the methods currently used. Indeed, this review describes some advantages and disadvantages of these isolation methods. Moreover, major biomedical applications of collagen were reported. Given the great importance of biocompatible matrices in tissue engineering, the availability of native collagen should be investigated by refining the collagen extraction procedure.

Published

2021

46. In-silico identification of potential inhibitors targeting the DNA binding domain of estrogen receptor α for the treatment of hormone therapy-resistant breast cancer

Author

Azeddine Ibrahimi, Jihane Akachar, El Mehdi Bouricha, Fouad Zouaidia, and Mohammed Hakmi

Subjects

0303 health sciences, Virtual screening, In silico, medicine.medical_treatment, 030303 biophysics, Estrogen receptor, General Medicine, DNA-binding domain, Biology, medicine.disease, Hedgehog signaling pathway, 03 medical and health sciences, Breast cancer, Structural Biology, medicine, Cancer research, Identification (biology), Hormone therapy, Molecular Biology

Abstract

Estrogen receptor α (ERα) plays a critical role in breast cancer (BC) development. The standard therapeutic strategies for ERα- positive (ERα+) BC consist of impairing ERα signalling pathway by either estrogen competitors blocking its interaction with the ligand binding domain (LBD) or agents inhibiting the production of estrogen. These strategies are limited by many factors that lead to constitutive activation of ERα and consequently, resistance to treatment. Targeting the DNA binding domain (DBD) of ERα instead of its LBD with small-molecule inhibitors could be an alternative to impair ERα’s signalling pathway. For this purpose, we conducted a structure based virtual screening of DrugBank against the crystal structure of ERα-DBD (PDB ID: 1HCQ) using the Glide module in standard precision (SP) and extra precision (XP) mode of docking. Molecules with XP Gscore less than −8 kcal/mol were selected and visually inspected to keep only the reasonable docking poses. Subsequently, these molecules were clustered using structural interaction fingerprints analysis and the complexes of the top ranked molecules of each cluster based on XP Gscore were subjected to 200 ns molecular dynamics simulations followed by MM-GBSA binding free energy calculation for the last 100 ns of each complex. In this study, we identified three molecules from DrugBank namely DB03450, DB02593 and DB08001 showing significant stability and strong interaction with the key amino acids during MD simulation suggesting a potential inhibition of the target. These molecules could be used as promising lead compounds to impair the ERα signalisation in hormone therapy-resistant breast cancer. Communicated by Ramaswamy H. Sarma

Published

2021

47. Report of SARS-CoV-2 BA.1 Lineage in Morocco

Author

Safae El Mazouri, Houda Bendani, Nasma Boumajdi, Mhammed Chaoui Roqai, Tarik Aanniz, Myriam Seffar, Hakima Kabbaj, Ghizlane El Amin, Amal Zouaki, Saaïd Amzazi, Mouna Ouadghiri, Lahcen Belyamani, and Azeddine Ibrahimi

Subjects

Immunology and Microbiology (miscellaneous), Genetics, Molecular Biology

Abstract

Here, we report the near-complete genome sequence and genetic variations of a clinical sample of SARS-CoV-2 for the newly emerged Omicron variant (BA.1). The sample was collected from a nasopharyngeal swab of a Moroccan patient, and the sequencing was done using Ion S5 technology.

Published

2022

48. Genomic analysis of Paenibacillus sp. MDMC362 from the Merzouga desert leads to the identification of a potentially thermostable catalase

Author

Mohammed Walid Chemao-Elfihri, Mohammed Hakmi, Abdelmounim Essabbar, Amina Manni, Meriem Laamarti, Souad Kartti, Tarek Alouane, Loubna Temsamani, Jamal-Eddine Eljamali, Laila Sbabou, Tarik Aanniz, Mouna Ouadghiri, Lahcen Belyamani, Azeddine Ibrahimi, and Abdelkarim Filali-Maltouf

Subjects

General Medicine, Molecular Biology, Microbiology

Abstract

Microorganisms in hot deserts face heat and other environmental conditions, such as desiccation, UV radiation, or low nutrient availability. Therefore, this hostile environment harbour microorganisms with acquired characteristics related to survival in their habitat, which can be exploited in biotechnology. In this work, the genome of Paenibacillus sp. MDMC362 isolated from the Merzouga desert in Morocco was sequenced to understand its survival strategy's genetic basis; and to evaluate the thermostability of a catalase extracted from genomic annotation files using molecular dynamics. Paenibacillus sp. MDMC362 genome was rich in genetic elements involved in the fight against different stresses, notably temperature stress, UV radiations, osmotic stress, carbon starvation, and oxidative stress. Indeed, we could identify genes of the operons groES-groEL and hrcA-grpE-dnaK and those involved in the different stages of sporulation, which can help the bacteria to survive the high temperatures imposed by a desertic environment. We also observed the genetic components of the UvrABC system and additional mechanisms involved in DNA repair, which help overcome UV radiation damage. Other genes have been identified in the genome, like those coding for ectoine and proline, that aids fight osmotic stress and desiccation. Catalase thermostability investigation using molecular dynamics showed that the protein reached stability and conserved its compactness at temperatures up to 373.15 K. These results suggest a potential thermostability of the enzyme. Since the studied protein is a core protein, thermostability could be conserved among Paenibacillus sp. MDMC362 closely related strains; however, bacteria from harsh environments may have a slight advantage regarding protein stability.

Published

2022

49. Repurposing of known anti-virals as potential inhibitors for SARS-CoV-2 main protease using molecular docking analysis

Author

Azeddine Ibrahimi, El Mehdi Bouricha, Mohammed Hakmi, Ilham Kandoussi, and Jaouad El Harti

Subjects

0301 basic medicine, 030103 biophysics, Virtual screening, Protease, business.industry, medicine.medical_treatment, Hepatitis C virus, SARS-Cov-2, COVID-19, protease, General Medicine, Disease, medicine.disease_cause, chEMBL, virtual screening, Virology, 03 medical and health sciences, 030104 developmental biology, inhibitors, Medicine, Research-Article, Viral disease, business, Repurposing, Coronavirus

Abstract

The new SARS-CoV-2 coronavirus is the causative agent of the COVID-19 pandemic outbreak that affected more than 190 countries worldwide with more than 292,000 confirmed cases and over 12,700 deaths. There is at the moment no vaccine or effective treatment for this disease which constitutes a serious global health problem. It is of interest to use a structure based virtual screening approach for the identification of potential inhibitors of the main protease of SARS-CoV-2 (Mpro) from antiviral drugs used to treat other viral disease such as human immunodeficiency virus (HIV) and hepatitis C virus (HCV) infections. The crystallographic structure with PDB ID: 6LU7 of Mpro in complex with the inhibitor N3 was used as a model in the virtual screening of 33 protease inhibitors collected from the ChEMBL chemical database. Molecular docking analysis was performed using the standard AutoDock vina protocol followed by ranking and selection of compounds based on their binding affinity. We report 10 candidates with optimal binding features to the active site of the protease for further consideration as potential drugs to treat patients infected with the emerging COVID-19 disease.

Published

2020

50. Virtual docking screening and QSAR studies to explore AKT and mTOR inhibitors acting on PI3K in cancers

Author

Azeddine Ibrahimi, Wiame Lakhlili, Ilham Kandoussi, Oussama Benherrif, and Jamal Taoufik

Subjects

0301 basic medicine, Regulator, lcsh:Medicine, dual atp inhibitors, pi3k/akt/mtor, 03 medical and health sciences, 0302 clinical medicine, Medicine, Radiology, Nuclear Medicine and imaging, qsar, Protein kinase B, PI3K/AKT/mTOR pathway, Original Paper, Virtual screening, business.industry, Cell growth, Kinase, lcsh:R, virtual screening, 030104 developmental biology, Oncology, Docking (molecular), 030220 oncology & carcinogenesis, docking, Cancer research, Signal transduction, business

Abstract

The phosphoinositide 3-kinase (PI3K) pathway is an important regulator of cell proliferation and metabolism. PI3K activation initiates a signal transduction cascade, of which the major effectors are the kinases AKT and mTOR. Aberrant activation of the PI3K/AKT/mTOR pathway is frequently observed in many human malignancies and the combination of compounds simultaneously targeting different related molecules in the PI3K/AKT/mTOR pathway leads to synergistic activity. To explore the competing common ATP inhibitors PI3K/AKT and PI3K/mTOR we developed a model PI3K-SAR 2D which made it possible to predict the bioactivity of inhibitors of AKT and mTOR towards PI3K; the interaction of the best inhibitors was evaluated by docking analysis and compared to that of dactolisib and pictilisib. A PI3K-SAR model with a correlation coefficient (R2) of 0.81706 and an RMSE of 0.16029 was obtained, which was validated and evaluated by a cross-validation method, LOO. The most predicted AKT and mTOR inhibitors present respectively pIC50 activities between 9.26–9.93 and 9.59–9.87. After docking and several comparisons, inhibitors with better predictions showed better affinity and interaction with PI3K compared to pictilisib and dactolisib, so we found that 4 inhibitors of AKT and 14 mTOR inhibitors met the criteria of Lipinski and Veber and could be future drugs.

Published

2020