Your search keyword '"Elhassan GO"' showing total 20 results

1. Improved Dissolution Time and Oral Bioavailability of Pioglitazone Using Liquisolid Tablets: Formulation, In Vitro Characterization, and In Vivo Pharmacokinetics in Rabbits.

Author

Swain RP, Elhassan GO, Bhattacharjee A, Sahu RK, and Khan J

Abstract

In the current study, it was intended to prepare liquisolid tablets of pioglitazone HCl to improve the bioavailability and dissolution time of the drug, as it has low solubility in water. Mathematical formulas were adopted, and the quantities of the carrier (MCC), coating material (colloidal silicon dioxides), and nonvolatile liquid vehicle (Tween 80) were taken. Various ratios of the drug to liquid and carrier to coating had been used in the formulation of liquisolid compacts. The evaluation of the formulated liquisolid compacts was done by performing FTIR, DSC, XRD, and SEM studies. Postcompression parameters, dissolution, stability, and bioavailability were accessed for the optimized formulation. FTIR and DSC studies showed the compatibility of the drugs and excipients. XRD revealed the transition to the amorphous state. It was found that the properties of the newly manufactured liquisolid tablets were within the parameters of what is considered acceptable. The optimized formulation of LST10 showed 99.87 ± 0.19% ( p < 0.05) pioglitazone released within 60 min of dissolution. Dissolution data treatments ( Q 15 , IDR, RDR, %DE, MDT, f 1 , and f 2 ) resulted in better drug release than other drugs studied and marketed tablet formulations. The optimized formulation produced had been proven stable when it was subjected to accelerated stability testing. This suggested that the bioavailability of pioglitazone was enhanced, as indicated by the substantial increase in AUC 0- t (3.06-fold) and C max (4.18-fold). According to the findings, the selected combination and method significantly increased the dissolution time and bioavailability of pioglitazone. Moreover, this developed method can be used for other drugs with low water solubility., Competing Interests: The authors declare no competing financial interest., (© 2024 The Authors. Published by American Chemical Society.)

Published

2024

2. Development of chitosan/sodium carboxymethyl cellulose-based polyelectrolyte complex of dexamethasone for treatment of anterior uveitis.

Author

Mujtaba MA, Desai H, Ambekar A, Fule R, Pande S, Warsi MH, Elhassan GO, Taha M, Anwer K, and Golghate TD

Subjects

Animals, Rabbits, Hydrogen-Ion Concentration, Drug Carriers chemistry, Drug Liberation, X-Ray Diffraction, Spectroscopy, Fourier Transform Infrared, Anti-Inflammatory Agents chemistry, Anti-Inflammatory Agents pharmacology, Dexamethasone chemistry, Dexamethasone administration & dosage, Dexamethasone analogs & derivatives, Chitosan chemistry, Carboxymethylcellulose Sodium chemistry, Nanoparticles chemistry, Particle Size, Uveitis, Anterior drug therapy, Polyelectrolytes chemistry

Abstract

Anterior uveitis is one of the most prevalent forms of ocular inflammation caused by infections, trauma, and other idiopathic conditions if not treated properly, it can cause complete blindness. Therefore, this study aimed to formulate and evaluate dexamethasone sodium phosphate (DSP) loaded polyelectrolyte complex (PEC) nanoparticles (NPs) for the treatment of anterior uveitis. DSP-loaded PEC-NPs were formed through complex coacervation by mixing low molecular weight chitosan and the anionic polymer carboxy methyl cellulose (CMC). The formulations were optimized using Box-Behnken design and evaluated the effect of independent variables: Chitosan concentration, CMC concentration, and pH of chitosan solution on the dependent variables: particle size (PS), Polydispersity Index (PDI), pH of the formulation, and % entrapment efficacy (%EE). The PS, PDI, zeta potential, and pH of the optimized formulation were found 451 ± 82.0995 nm, 0.3807 ± 0.1862, +20.33 ± 1.04 mV and 6.8367 ± 0.0737 respectively. The %EE and drug loading of formulation were 61.66 ± 4.2914% and 21.442 ± 1.814% respectively. In vitro drug release studies of optimized formulation showed the prolonged release up to 12 h whereas, the marketed formulation showed the burst release 85.625 ± 4.3062% in 1 h and 98.1462 ± 3.0921% at 6 h, respectively. Fourier transform infrared studies suggested the effective incorporation of the drug into the PEC-NPs formulation whereas differential scanning calorimetry and x-ray diffraction studies showed the amorphized nature of the drug in the formulation. Transmission electron microscopy study showed self-assembled, nearly spherical, core-shell nanostructures. The corneal permeation study showed higher permeation of the drug from PEC-NPs compared to the marketed formulation. Hen's Eggs test-Chorioallantoic Membrane test of the optimized formulation revealed non-irritant and safe for ocular administration. Therefore, DSP-loaded PEC-NPs are an effective substitute for conventional eye drops due to their ability to increase bioavailability through longer precorneal retention duration and sustained drug release., (Creative Commons Attribution license.)

Published

2024

3. Karanjin-loaded soya lecithin-based ethosomal nanogel for the therapeutic intervention of psoriasis: formulation development, factorial design based-optimization, in vitro and in vivo assessment.

Author

Mujtaba MA, Gangane P, Ali A, Chaudhari S, Kaleem M, More S, Shahzad N, Elhassan GO, and Anwer MK

Subjects

Animals, Lecithins chemistry, Skin metabolism, Skin pathology, Particle Size, Liposomes chemistry, Polyethylene Glycols chemistry, Glycine max chemistry, Rats, Male, Imiquimod chemistry, Drug Carriers chemistry, Polyethyleneimine chemistry, X-Ray Diffraction, Ethanol chemistry, Acrylates, Psoriasis drug therapy, Psoriasis pathology, Nanogels chemistry, Skin Absorption

Abstract

This study aimed to develop and optimize karanjin-loaded ethosomal nanogel formulation and evaluate its efficacy in alleviating symptoms of psoriasis in an animal model induced by imiquimod. These karanjin-loaded ethosomal nanogel, were formulated to enhance drug penetration into the skin and its epidermal retention. Karanjin was taken to formulate ethosomes due to its potential ani-psoriatic activity. Ethosomes were formulated using the cold method using 3 2 full factorial designs to optimize the formulation components. 9 batches were prepared using two independent variables X 1 : concentration of ethanol and X 2 : concentration of phospholipid whereas vesicle size ( Y 1 ) and percentage entrapment efficiency ( Y 2 ) were selected as dependent variables. All the dependent variables were found to be statistically significant. The optimized ethosomal suspension (B3) exhibited a vesicle size of 334 ± 2.89 nm with an entrapment efficiency of 94.88 ± 1.24% and showed good stability. The morphology of vesicles appeared spherical with smooth surfaces through transmission electron microscopy analysis. X-ray diffraction analysis confirmed that the drug existed in an amorphous state within the ethosomal formulation. The optimized ethosome was incorporated into carbopol 934 to develop nanogel for easy application on the skin. The nanogel underwent characterization for various parameters including spreadability, viscosity, pH, extrudability, and percentage drug content. The ethosomal formulation remarkably enhanced the skin permeation of karanjin and increased epidermal retention of the drug in psoriatic skin compared to marketed preparation and pure drug. A skin retention study showed that ethosomal nanogel formulation has 48.33% epidermal retention in 6 h. In vivo, the anti-psoriatic activity of karanjin ethosomal nanogel demonstrated significant improvement in psoriasis, indicated by a gradual decrease in skin thickness and scaling as reflected in the Psoriasis Severity Index grading. Therefore, the prepared ethosomal nanogel is a potential vehicle for improved topical delivery of karanjin for better treatment of psoriasis., (Creative Commons Attribution license.)

Published

2024

4. Enhanced efficacy of β-carotene loaded solid lipid nanoparticles optimized and developed via central composite design on breast cancer cell lines.

Author

Dutta RS, Elhassan GO, Devi TB, Bhattacharjee B, Singh M, Jana BK, Sahu S, Mazumder B, Sahu RK, and Khan J

Abstract

β-carotene is obtained from both plants and animals and has been the subject of intense research because of its provitamin-A, antioxidant, and anticancer effects. Its limited absorption and oxidative degradation significantly reduce its antitumor efficacy when taken orally. In our study, we utilize a central composite design to develop "bio-safe and highly bio-compatible" solid lipid nanoparticles (SLNs) by using only the combination of palmitic acid and poloxamer-407, a block co-polymer as a surfactant. The current research aim to develop and characterize SLNs loaded with β-carotene to improve their bioavailability and therapeutic efficacy. In addition, the improved cytotoxicity of solid lipid nanoparticles loaded with β-carotene was screened in-vitro in human breast cancer cell lines (MCF-7). The nanoparticles exhibits good stability, as indicated by their mean zeta potential of -26.3 ± 1.3 mV. The particles demonstrated high drug loading and entrapment capabilities. The fabricated nanoparticle's prolonged release potential was shown by the in-vitro release kinetics, which showed a first-order release pattern that adhered to the Higuchi model and showed a slow, linear, and steady release over 48 h. Moreover, a diffusion-type release mechanism was used to liberate β-carotene from the nanoparticles. For six months, the nanoparticles also showed a notable degree of physical stability. Lastly, using the MTT assay, the anti-cancer properties of β-carotene-loaded solid lipid nanoparticles were compared with intact β-carotene on MCF-7 cell lines. The cytotoxicity tests have shown that the encapsulation of β-carotene in the lipid bilayers of the optimized formulation does not interfere with the anti-cancer activity of the drug. When compared to standard β-carotene, β-carotene loaded SLNs showed enhanced anticancer efficacy and it is a plausible therapeutic candidate for enhancing the solubility of water-insoluble and degradation-sensitive biotherapeutics like β-carotene., Competing Interests: The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: We have no conflict of interest If there are other authors, they declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2024 Published by Elsevier Ltd.)

Published

2024

5. Exploring nature's hidden treasure: Unraveling the untapped phytochemical and pharmacological potentials of Clinopodium vulgare L. - A hidden gem in the Lamiaceae family.

Author

Qureshi KA, Parvez A, Uzzaman Khan MM, Aspatwar A, Atiya A, Elhassan GO, Khan RA, Erattil Ahammed SY, Khan WU, and Jaremko M

Abstract

Folk medicine, rooted in historical practice, has long been used for medicinal purposes, emphasizing the need to ensure the safety, quality, and efficacy of herbal medicines. This imperative has grown over time, prompting collaborative efforts to document historical records and preserve invaluable knowledge of medicinal plants. The Lamiaceae (Labiatae) family, renowned for its rich assortment of medicinal plants characterized by high concentrations of volatile oils, stands out in this regard. This review focuses on Clinopodium vulgare ( C. vulgare ) L., commonly known as wild basil or basil thyme, a significant species within the Lamiaceae family found across diverse global regions. C. vulgare boasts a storied history of application in treating various ailments, such as gastric ulcers, diabetes, and inflammation, dating back to ancient times. Rigorous research has substantiated its pharmacological properties, revealing its antioxidant, antiviral, antibacterial, anti-inflammatory, anticancer, antihypertensive, and enzyme-inhibitory effects. This comprehensive review provides an insightful overview of the Lamiaceae family, elucidates the extraction methods employed to obtain medicinal compounds, explores the phytoconstituents present in C. vulgare , and systematically details its diverse pharmacological properties. Additionally, the review delves into considerations of toxicity. By synthesizing this wealth of information, this study opens avenues for the potential therapeutic applications of C. vulgare . The practical value of this research lies in its contribution to the understanding of medicinal plants, mainly focusing on the pharmacological potential of C. vulgare . This exploration enriches our knowledge of traditional medicine and paves the way for innovative therapeutic approaches, offering promising prospects for future drug development. As the demand for natural remedies continues to increase, this work provides a valuable resource for researchers, practitioners, and stakeholders in herbal medicine and pharmacology., Competing Interests: The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: Mariusz Jaremko reports article publishing charges and writing assistance were provided by King Abdullah University of Science and Technology (KAUST), Thuwal, Saudi Arabia. Akhtar Atiya reports financial support and writing assistance were provided by Deanship of Scientific Research at 10.13039/501100007446King Khalid University, Abha, Saudi Arabia, through the Large Group Research Project under grant number RGP.2/14/1444. Other authors, they declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2024 The Authors.)

Published

2024

6. Development of Hot Melt Extruded Co-Formulated Artesunate and Amodiaquine- Soluplus ® Solid Dispersion System in Fixed-Dose Form: Amorphous State Characterization and Pharmacokinetic Evaluation.

Author

Mujtaba MA, Fule R, Amin P, Elhassan GO, Almoutairi MMM, Kaleem M, and Warsi MH

Subjects

Animals, Male, Rats, Drug Combinations, Biological Availability, Hot Melt Extrusion Technology methods, Excipients chemistry, Rats, Sprague-Dawley, Amodiaquine pharmacokinetics, Amodiaquine administration & dosage, Amodiaquine chemistry, Polyethylene Glycols chemistry, Polyethylene Glycols pharmacokinetics, Antimalarials pharmacokinetics, Antimalarials administration & dosage, Antimalarials chemistry, Artesunate pharmacokinetics, Artesunate administration & dosage, Artesunate chemistry, Artemisinins pharmacokinetics, Artemisinins administration & dosage, Artemisinins chemistry, Polyvinyls chemistry, Polyvinyls pharmacokinetics

Abstract

Introduction: This study aims to develop co-amorphous Solid Dispersion (SD) system containing antimalarials Artesunate (ARS) and Amodiaquine (AMQ) to improve its oral bioavailability employing the Hot Melt Extrusion (HME) technique. Soluplus ® was selected as a polymeric excipient, whereas Lutrol F127, Lutrol F68, TPGS, and PEG400 as surfactants were incorporated along with Soluplus ® to enhance extrudability, improve hydrophilicity, and improve the blend viscosity during HME. Soluplus ® with surfactant combination successfully stabilizes both drugs during extrusion by generating SD because of its lower glass transition temperature (Tg) and viscoelastic behavior., Methods: Physicochemical characterizations were performed using FTIR, DSC, TGA, and XRD, which confirmed the amorphousization of drugs in the SD system. The molecular level morphology of the optimized formulation was quantified using high-resolution techniques such as Atomic-Force Microscopy (AFM), Raman spectral, and mapping analysis. The transition of the crystalline drugs into a stable amorphous form has been demonstrated by 1H-NMR and 2D-NMR studies. The in vivo pharmacokinetics study in rats showed that the SD-containing drug-Soluplus-TPGS (FDC10) formulation has 36.63-56.13 (ARS-AMQ) folds increase in the Cmax and 41.87-54.34 (ARS-AMQ) folds increase AUC (0-72) as compared to pure drugs., Results: Pharmacokinetic analysis shows that a fixed-dose combination of 50:135 mg of both APIs (ARSAMQ) significantly increased oral bioavailability by elevating Cmax and AUC, in comparison to pure APIs and also better than the marketed product Coarsucam ® ., Conclusion: Therefore, the developed melt extruded co-amorphous formulation has enhanced bioavailability and has more effectiveness than the marketed product Coarsucam ® . ., (Copyright© Bentham Science Publishers; For any queries, please email at epub@benthamscience.net.)

Published

2024

7. In vitro and in silico evaluations of actinomycin X 2 and actinomycin D as potent anti-tuberculosis agents.

Author

Qureshi KA, Azam F, Fatmi MQ, Imtiaz M, Prajapati DK, Rai PK, Jaremko M, Emwas AH, and Elhassan GO

Subjects

Humans, BCG Vaccine therapeutic use, Dactinomycin pharmacology, Molecular Docking Simulation, Protein Kinases, Antitubercular Agents pharmacology, Tuberculosis, Multidrug-Resistant drug therapy

Abstract

Background: Multidrug-resistant tuberculosis (MDR-TB) is one of the world's most devastating contagious diseases and is caused by the MDR- Mycobacterium tuberculosis (MDR-Mtb) bacteria. It is therefore essential to identify novel anti-TB drug candidates and target proteins to treat MDR-TB. Here, in vitro and in silico studies were used to investigate the anti-TB potential of two newly sourced actinomycins, actinomycin-X 2 (act-X 2 ) and actinomycin-D (act-D), from the Streptomyces smyrnaeus strain UKAQ&#95;23 (isolated from the Jubail industrial city of Saudi Arabia)., Methods: The anti-TB activity of the isolated actinomycins was assessed in vitro using the Mtb H37Ra, Mycobacterium bovis (BCG), and Mtb H37Rv bacterial strains, using the Microplate Alamar Blue Assay (MABA) method. In silico molecular docking studies were conducted using sixteen anti-TB drug target proteins using the AutoDock Vina 1.1.2 tool. The molecular dynamics (MD) simulations for both actinomycins were then performed with the most suitable target proteins, using the GROningen MAchine For Chemical Simulations (GROMACS) simulation software (GROMACS 2020.4), with the Chemistry at HARvard Macromolecular Mechanics 36m (CHARMM36m) forcefield for proteins and the CHARMM General Force Field (CGenFF) for ligands., Results: In vitro results for the Mtb H37Ra, BCG, and Mtb H37Rv strains showed that act-X 2 had minimum inhibitory concentration (MIC) values of 1.56 ± 0.0, 1.56 ± 0.0, and 2.64 ± 0.07 µg/mL and act-D had MIC values of 1.56 ± 0.0, 1.56 ± 0.0, and 1.80 ± 0.24 µg/mL respectively. The in silico molecular docking results showed that protein kinase PknB was the preferred target for both actinomycins, while KasA and pantothenate synthetase were the least preferred targets for act-X 2 and act-D respectively. The molecular dynamics (MD) results demonstrated that act-X 2 and act-D remained stable inside the binding region of PknB throughout the simulation period. The MM/GBSA (Molecular Mechanics/Generalized Born Surface Area) binding energy calculations showed that act-X 2 was more potent than act-D., Conclusion: In conclusion, our results suggest that both actinomycins X 2 and D are highly potent anti-TB drug candidates. We show that act-X 2 is better able to antagonistically interact with the protein kinase PknB target than act-D, and thus has more potential as a new anti-TB drug candidate., Competing Interests: The authors declare there are no competing interests., (©2023 Qureshi et al.)

Published

2023

8. Brucellosis: epidemiology, pathogenesis, diagnosis and treatment-a comprehensive review.

Author

Qureshi KA, Parvez A, Fahmy NA, Abdel Hady BH, Kumar S, Ganguly A, Atiya A, Elhassan GO, Alfadly SO, Parkkila S, and Aspatwar A

Subjects

Animals, Humans, Zoonoses diagnosis, Zoonoses epidemiology, Zoonoses prevention & control, Animals, Wild, Livestock, Anti-Bacterial Agents therapeutic use, Brucellosis diagnosis, Brucellosis drug therapy, Brucellosis epidemiology, Brucella

Abstract

Background: Brucellosis is a pervasive zoonotic disease caused by various Brucella species. It mainly affects livestock and wildlife and poses significant public health threats, especially in regions with suboptimal hygiene, food safety, and veterinary care standards. Human contractions occur by consuming contaminated animal products or interacting with infected animals. Objective: This study aims to provide an updated understanding of brucellosis, from its epidemiology and pathogenesis to diagnosis and treatment strategies. It emphasizes the importance of ongoing research, knowledge exchange, and interdisciplinary collaboration for effective disease control and prevention, highlighting its global health implications. Methods: Pathogenesis involves intricate interactions between bacteria and the host immune system, resulting in chronic infections characterized by diverse clinical manifestations. The diagnostic process is arduous owing to non-specific symptomatology and sampling challenges, necessitating a fusion of clinical and laboratory evaluations, including blood cultures, serological assays, and molecular methods. Management typically entails multiple antibiotics, although the rise in antibiotic-resistant Brucella strains poses a problem. Animal vaccination is a potential strategy to curb the spread of infection, particularly within livestock populations. Results: The study provides insights into the complex pathogenesis of brucellosis, the challenges in its diagnosis, and the management strategies involving antibiotic therapy and animal vaccination. It also highlights the emerging issue of antibiotic-resistant Brucella strains. Conclusions: In conclusion, brucellosis is a significant zoonotic disease with implications for public health. Efforts should be directed towards improved diagnostic methods, antibiotic stewardship to combat antibiotic resistance, and developing and implementing effective animal vaccination programs. Interdisciplinary collaboration and ongoing research are crucial for addressing the global health implications of brucellosis.

Published

2023

9. Strategies to Improvise Organ Donor Pool: A Study on the Knowledge, Attitudes, and Performance of Higher Secondary School Teachers Towards the Organ Donation.

Author

Venkatesan K, Sivadasan D, Thangavel N, Alshahrani SH, Paulsamy P, Muthugounder K, Prabahar K, Elhassan GO, Krishnaraju K, SheikhAlavudeen S, Venkatesan K, and Dekeba K

Subjects

Adolescent, Child, Cross-Sectional Studies, Health Knowledge, Attitudes, Practice, Humans, School Teachers, Schools, Surveys and Questionnaires, Tissue Donors, Organ Transplantation, Tissue and Organ Procurement

Abstract

Introduction: This study aimed to assess higher secondary school teachers' knowledge, attitude, and performance levels towards organ transplantation and donation (OTD). Teachers have an essential role in giving knowledge to children and teenagers, and they can influence their views. Organ transplantation offers re-life to many patients, yet organ shortages are a global issue. Teachers who influence students' future attitudes regarding organ donation must have a favorable attitude and genuine knowledge., Materials and Methods: The research method was descriptive and cross-sectional. The sample size was 372 school teachers in Villupuram district of Tamilnadu, India, selected using a convenient sampling method. A survey questionnaire was used to assess the knowledge and attitude about OTD, the reason for donating/not donating organs. Multivariate analysis was performed to identify critical variables affecting intent to practice., Results: The teachers' mean scores with SD on knowledge, attitude, and performance were 7.61 ± 2.74, 8.81 ± 2.08, and 0.38 ± 0.11, respectively. The linear regression analysis showed that the knowledge ( p < 0.001) and attitude ( p < 0.05) of the participants were positively associated with organ donation performance. A significant relationship was also observed between gender ( p < 0.036), age ( p < 0.01), and education status ( p < 0.001) with the performance of the teachers. Lack of family support was the most spelt reason for unwillingness for organ donation., Conclusion: The positive linear correlations underline that having more information may lead to a more optimistic mindset and, as a result, to better practices. Teachers should be provided with overall health teaching campaigns to increase the number of possible organ donors. Teachers serve as role models for students, families, and society by changing their attitudes., Competing Interests: The authors declare that they have no conflicts of interest., (Copyright © 2022 Krishnaraju Venkatesan et al.)

Published

2022

10. Hesperidin-Loaded Lipid Polymer Hybrid Nanoparticles for Topical Delivery of Bioactive Drugs.

Author

Jangde R, Elhassan GO, Khute S, Singh D, Singh M, Sahu RK, and Khan J

Abstract

Hesperidin is a bioflavonoid constituent that among many other biological activities shows significant wound healing properties. However, the bioavailability of hesperidin when applied topically is limited due to its low solubility and systemic absorption, so novel dosage forms are needed to improve its therapeutic efficacy. The objectives of this study were to develop hesperidin-loaded lipid-polymer hybrid nanoparticles (HLPHNs) to enhance the delivery of hesperidin to endogenous sites in the wound bed and promote the efficacy of hesperidin. HLPHNs were optimized by response surface methodology (RSM) using the Box-Behnken design. HLPHNs were prepared using an emulsion-solvent evaporation method based on a double emulsion of water-in-oil-in-water (w/o/w) followed by freeze-drying to obtain nanoparticles. The prepared formulations were characterized using various evaluation parameters. In addition, the antioxidant activity of HLPHN 4 was investigated in vitro using the DPPH model. Seventeen different HLPHNs were prepared and the HLPHN4 exhibited the best mean particle size distribution, zeta potential, drug release and entrapment efficiency. The values are 91.43 nm, +23 mV, 79.97% and 92.8%, respectively. Transmission electron microscope showed similar spherical morphology as HLPHN4. Differential scanning calorimetry verified the physical stability of the loaded drug in a hybrid system. In vitro release studies showed uniform release of the drug over 24 h. HLPHN4 showed potent antioxidant activity in vitro in the DPPH model. The results of this study suggest that HLPHNs can achieve sustained release of the drug at the wound site and exhibit potent in vitro antioxidant activity.

Published

2022

11. In Vitro and In Silico Approaches for the Antileishmanial Activity Evaluations of Actinomycins Isolated from Novel Streptomyces smyrnaeus Strain UKAQ&#95;23.

Author

Qureshi KA, Al Nasr I, Koko WS, Khan TA, Fatmi MQ, Imtiaz M, Khan RA, Mohammed HA, Jaremko M, Emwas AH, Azam F, Bholay AD, Elhassan GO, and Prajapati DK

Abstract

Leishmaniasis, a Neglected Tropical Parasitic Disease (NTPD), is induced by several Leishmania species and is disseminated through sandfly ( Lutzomyia longipalpis ) bites. The parasite has developed resistance to currently prescribed antileishmanial drugs, and it has become pertinent to the search for new antileishmanial agents. The current study aimed to investigate the in vitro and in silico antileishmanial activity of two newly sourced actinomycins, X 2 and D, produced by the novel Streptomyces smyrnaeus strain UKAQ&#95;23. The antileishmanial activity conducted on promastigotes and amastigotes of Leishmania major showed actinomycin X 2 having half-maximal effective concentrations (EC 50 ), at 2.10 ± 0.10 μg/mL and 0.10 ± 0.0 μg/mL, and selectivity index (SI) values of 0.048 and 1, respectively, while the actinomycin D exhibited EC 50 at 1.90 ± 0.10 μg/mL and 0.10 ± 0.0 μg/mL, and SI values of 0.052 and 1. The molecular docking studies demonstrated squalene synthase as the most favorable antileishmanial target protein for both the actinomycins X 2 and D, while the xanthine phosphoribosyltransferase was the least favorable target protein. The molecular dynamics simulations confirmed that both the actinomycins remained stable in the binding pocket during the simulations. Furthermore, the MMPBSA (Molecular Mechanics Poisson-Boltzmann Surface Area) binding energy calculations established that the actinomycin X 2 is a better binder than the actinomycin D. In conclusion, both actinomycins X 2 and D from Streptomyces smyrnaeus strain UKAQ&#95;23 are promising antileishmanial drug candidates and have strong potential to be used for treating the currently drug-resistant leishmaniasis.

Published

2021

12. Isolation, characterization, anti-MRSA evaluation, and in-silico multi-target anti-microbial validations of actinomycin X 2 and actinomycin D produced by novel Streptomyces smyrnaeus UKAQ&#95;23.

Author

Qureshi KA, Bholay AD, Rai PK, Mohammed HA, Khan RA, Azam F, Jaremko M, Emwas AH, Stefanowicz P, Waliczek M, Kijewska M, Ragab EA, Rehan M, Elhassan GO, Anwar MJ, and Prajapati DK

Subjects

Anti-Bacterial Agents isolation & purification, Anti-Bacterial Agents metabolism, Computer Simulation, Culture Media chemistry, Dactinomycin isolation & purification, Dactinomycin metabolism, Drug Evaluation, Preclinical methods, Fermentation, Magnetic Resonance Spectroscopy, Mass Spectrometry, Molecular Docking Simulation, Molecular Structure, Phylogeny, Streptomyces genetics, Anti-Bacterial Agents chemistry, Anti-Bacterial Agents pharmacology, Dactinomycin pharmacology, Methicillin-Resistant Staphylococcus aureus drug effects, Streptomyces metabolism

Abstract

Streptomyces smyrnaeus UKAQ&#95;23, isolated from the mangrove-sediment, collected from Jubail,Saudi Arabia, exhibited substantial antimicrobial activity against methicillin-resistant Staphylococcus aureus (MRSA), including non-MRSA Gram-positive test bacteria. The novel isolate, under laboratory-scale conditions, produced the highest yield (561.3 ± 0.3 mg/kg fermented agar) of antimicrobial compounds in modified ISP-4 agar at pH 6.5, temperature 35 °C, inoculum 5% v/w, agar 1.5% w/v, and an incubation period of 7 days. The two major compounds, K 1 and K 2 , were isolated from fermented medium and identified as Actinomycin X 2 and Actinomycin D, respectively, based on their structural analysis. The antimicrobial screening showed that Actinomycin X 2 had the highest antimicrobial activity compared to Actinomycin D, and the actinomycins-mixture (X 2 :D, 1:1, w/w) against MRSA and non-MRSA Gram-positive test bacteria, at 5 µg/disc concentrations. The MIC of Actinomycin X 2 ranged from 1.56-12.5 µg/ml for non-MRSA and 3.125-12.5 µg/ml for MRSA test bacteria. An in-silico molecular docking demonstrated isoleucyl tRNA synthetase as the most-favored antimicrobial protein target for both actinomycins, X 2 and D, while the penicillin-binding protein-1a, was the least-favorable target-protein. In conclusion, Streptomyces smyrnaeus UKAQ&#95;23 emerged as a promising source of Actinomycin X 2 with the potential to be scaled up for industrial production, which could benefit the pharmaceutical industry., (© 2021. The Author(s).)

Published

2021

13. Complementary medicine seeking behaviour among infertile women: A sudanese study.

Author

Babikir SA, Elhassan GO, Hamad-Alneil AI, and Alfadl AA

Subjects

Child, Cross-Sectional Studies, Female, Humans, Surveys and Questionnaires, Complementary Therapies, Infertility, Female therapy

Abstract

Introduction: It is not surprising in developing countries with psychological, familial and community pressure to produce child, infertile women, in addition to conventional medicine, seek various traditional methods and religious practices.This study was conducted in Sudan to explore the perspectives of currently married infertile Sudanese women on complementary medicine seeking behaviour with more emphasis on traditional self-management strategies., Methods: A cross-sectional survey involving 203 infertile women was conducted. Collection of data was performed by means of a specifically designed questionnaire using a convenient sampling method at the women's visits of infertility treatment clinics in Khartoum, Sudan., Results: Findings of the study revealed that 43.3% of participated women had rich experience with infertility self-management strategies, and 65.0% of them used these strategies to treat infertility. Also 59.1% of the participants mentioned unaffordability of modern treatment as a main factor for trying self-management strategies., Conclusion: The study revealed women's rich experience and wide use of different types of self-management strategies together with formal infertility health care services either simultaneously or subsequently. Also, unaffordability of formal treatment services was reported as one of the most encouraging factors towards seeking traditional treatment options., (Copyright © 2020. Published by Elsevier Ltd.)

Published

2021

14. The Pentose Phosphate Pathway Dynamics in Cancer and Its Dependency on Intracellular pH.

Author

Alfarouk KO, Ahmed SBM, Elliott RL, Benoit A, Alqahtani SS, Ibrahim ME, Bashir AHH, Alhoufie STS, Elhassan GO, Wales CC, Schwartz LH, Ali HS, Ahmed A, Forde PF, Devesa J, Cardone RA, Fais S, Harguindey S, and Reshkin SJ

Abstract

The Pentose Phosphate Pathway (PPP) is one of the key metabolic pathways occurring in living cells to produce energy and maintain cellular homeostasis. Cancer cells have higher cytoplasmic utilization of glucose (glycolysis), even in the presence of oxygen; this is known as the "Warburg Effect". However, cytoplasmic glucose utilization can also occur in cancer through the PPP. This pathway contributes to cancer cells by operating in many different ways: (i) as a defense mechanism via the reduced form of nicotinamide adenine dinucleotide phosphate (NADPH) to prevent apoptosis, (ii) as a provision for the maintenance of energy by intermediate glycolysis, (iii) by increasing genomic material to the cellular pool of nucleic acid bases, (iv) by promoting survival through increasing glycolysis, and so increasing acid production, and (v) by inducing cellular proliferation by the synthesis of nucleic acid, fatty acid, and amino acid. Each step of the PPP can be upregulated in some types of cancer but not in others. An interesting aspect of this metabolic pathway is the shared regulation of the glycolytic and PPP pathways by intracellular pH (pHi). Indeed, as with glycolysis, the optimum activity of the enzymes driving the PPP occurs at an alkaline pHi, which is compatible with the cytoplasmic pH of cancer cells. Here, we outline each step of the PPP and discuss its possible correlation with cancer.

Published

2020

15. The Possible Role of Helicobacter pylori in Gastric Cancer and Its Management.

Author

Alfarouk KO, Bashir AHH, Aljarbou AN, Ramadan AM, Muddathir AK, AlHoufie STS, Hifny A, Elhassan GO, Ibrahim ME, Alqahtani SS, AlSharari SD, Supuran CT, Rauch C, Cardone RA, Reshkin SJ, Fais S, and Harguindey S

Abstract

Helicobacter pylori (HP) is a facultative anaerobic bacterium. HP is a normal flora having immuno-modulating properties. This bacterium is an example of a microorganism inducing gastric cancer. Its carcinogenicity depends on bacteria-host related factors. The proper understanding of the biology of HP inducing gastric cancer offers the potential strategy in the managing of HP rather than eradicating it. In this article, we try to summarize the biology of HP-induced gastric cancer and discuss the current pharmacological approach to treat and prevent its carcinogenicity.

Published

2019

16. Isolation, Purification and Characterization of Antimicrobial Agent Antagonistic to Escherichia coli ATCC 10536 Produced by Bacillus pumilus SAFR-032 Isolated from the Soil of Unaizah, Al Qassim Province of Saudi Arabia.

Author

S Alanazi A, Qureshi KA, Elhassan GO, and I El-Agamy E

Subjects

Anti-Infective Agents isolation & purification, Anti-Infective Agents metabolism, Bacillus pumilus classification, Bacillus pumilus genetics, Bacillus pumilus isolation & purification, Drug Stability, Escherichia coli growth & development, Hydrogen-Ion Concentration, Microbial Sensitivity Tests, Saudi Arabia, Temperature, Anti-Infective Agents pharmacology, Bacillus pumilus metabolism, Escherichia coli drug effects, Soil Microbiology

Abstract

Background: Escherichia coli is one of the most common pathogenic bacteria, which cause urinary tract infections in infants as well as in adult human beings. Due to the emergence of antibiotic resistance in E. coli, there is a great demand of new antimicrobial agent for the treatment of infections caused by such E. coli. This study aims to isolate, identify and characterize the native soil-bacterial strains predominate in the soil of Unaizah city, which produce antimicrobial agent antagonistic to E. coli ATCC 10536, followed by isolation, purification and characterization of antimicrobial agent., Materials and Methods: Pour plate, spread plate and 16S rRNA sequence analysis methods were followed for the isolation and identification of soil bacteria. Ammonium sulphate and dialysis (MWCO-8 KD) methods were followed for the isolation and partial purification of antimicrobial agent from the cell free broths. The characterization of antimicrobial agent was carried out by determining the minimum inhibitory concentration and effects of temperature and pH on the antimicrobial stability., Results: Out of the twenty five soil samples, only one soil-bacterial strain was found to produce antimicrobial agent antagonistic to E. coli ATCC 10536. The isolated soil bacterium was identified as Bacillus pumilus SAFR-032. The soil isolate was characterized and results suggest that 30°C temperature and pH 7.0 were the optimum growth parameters and soybean casein digest broth was the best fermentation medium, whereas the highest production of antimicrobial agent was at 35°C temperature, pH 7.0, shaking at 150-220 rpm and at 60th h of incubation. The maximum yield of antimicrobial agent was obtained at 60% of (NH 4) 2SO 4. The results of characterization of antimicrobial agent suggest that the maximum and minimum antimicrobial activities were at pH 3.0 and 8.0, respectively, whereas antimicrobial activity was unaffected by temperature. The antimicrobial agent was highly stable at varying range of temperature 50-120°C. Minimum inhibitory concentration of antimicrobial agent was found to be 64 μg mL -1., Conclusion: In conclusion, this study might be a great endeavor for the healthcare industry in order to treatment of different infections caused by E. coli and that warrants further investigations to fully standardized and establish the antimicrobial profile of effect(s) of this isolate.

Published

2016

17. Resistance to cancer chemotherapy: failure in drug response from ADME to P-gp.

Author

Alfarouk KO, Stock CM, Taylor S, Walsh M, Muddathir AK, Verduzco D, Bashir AH, Mohammed OY, Elhassan GO, Harguindey S, Reshkin SJ, Ibrahim ME, and Rauch C

Abstract

Cancer chemotherapy resistance (MDR) is the innate and/or acquired ability of cancer cells to evade the effects of chemotherapeutics and is one of the most pressing major dilemmas in cancer therapy. Chemotherapy resistance can arise due to several host or tumor-related factors. However, most current research is focused on tumor-specific factors and specifically genes that handle expression of pumps that efflux accumulated drugs inside malignantly transformed types of cells. In this work, we suggest a wider and alternative perspective that sets the stage for a future platform in modifying drug resistance with respect to the treatment of cancer.

Published

2015

18. Glycolysis, tumor metabolism, cancer growth and dissemination. A new pH-based etiopathogenic perspective and therapeutic approach to an old cancer question.

Author

Alfarouk KO, Verduzco D, Rauch C, Muddathir AK, Adil HH, Elhassan GO, Ibrahim ME, David Polo Orozco J, Cardone RA, Reshkin SJ, and Harguindey S

Abstract

Cancer cells acquire an unusual glycolytic behavior relative, to a large extent, to their intracellular alkaline pH (pHi). This effect is part of the metabolic alterations found in most, if not all, cancer cells to deal with unfavorable conditions, mainly hypoxia and low nutrient supply, in order to preserve its evolutionary trajectory with the production of lactate after ten steps of glycolysis. Thus, cancer cells reprogram their cellular metabolism in a way that gives them their evolutionary and thermodynamic advantage. Tumors exist within a highly heterogeneous microenvironment and cancer cells survive within any of the different habitats that lie within tumors thanks to the overexpression of different membrane-bound proton transporters. This creates a highly abnormal and selective proton reversal in cancer cells and tissues that is involved in local cancer growth and in the metastatic process. Because of this environmental heterogeneity, cancer cells within one part of the tumor may have a different genotype and phenotype than within another part. This phenomenon has frustrated the potential of single-target therapy of this type of reductionist therapeutic approach over the last decades. Here, we present a detailed biochemical framework on every step of tumor glycolysis and then proposea new paradigm and therapeutic strategy based upon the dynamics of the hydrogen ion in cancer cells and tissues in order to overcome the old paradigm of one enzyme-one target approach to cancer treatment. Finally, a new and integral explanation of the Warburg effect is advanced.

Published

2014

19. Erratum: Glycolysis, tumor metabolism, cancer growth and dissemination. A new pH-based etiopathogenic perspective and therapeutic approach to an old cancer question.

Author

Alfarouk KO, Verduzco D, Rauch C, Muddathir AK, Bashir AH, Elhassan GO, Ibrahim ME, Orozco JD, Cardone RA, Reshkin SJ, and Harguindey S

Abstract

[This corrects the article on p. 777 in vol. 1, PMID: 25621294.].

Published

2014

20. Evolution of Tumor Metabolism might Reflect Carcinogenesis as a Reverse Evolution process (Dismantling of Multicellularity).

Author

Alfarouk KO, Shayoub ME, Muddathir AK, Elhassan GO, and Bashir AH

Abstract

Carcinogenesis occurs through a series of steps from normal into benign and finally malignant phenotype. This cancer evolutionary trajectory has been accompanied by similar metabolic transformation from normal metabolism into Pasteur and/or Crabtree-Effects into Warburg-Effect and finally Cannibalism and/or Lactate-Symbiosis. Due to lactate production as an end-product of glycolysis, tumor colonies acquire new phenotypes that rely on lactate as energetic fuel. Presence of Warburg-Effect indicates that some tumor cells undergo partial (if not complete) de-endosymbiosis and so cancer cells have been become unicellular microorganism (anti-Dollo's Law) specially when they evolve to develop cannibalism as way of metabolism while oxidative types of cells that rely on lactate, as their energetic fuel, might represent extra-endosymbiosis. Thus, at the end, the cancer colony could be considered as integrated metabolic ecosystem. Proper understanding of tumor metabolism will contribute to discover potential anticancer agents besides conventional chemotherapy.

Published

2011