Current drug discovery technologies最新文献

Background: Isotretinoin (ISO) belongs to a family of drugs called retinoids. It is the most effective drug prescribed by dermatologists for the treatment of the inflammatory disease, acne vulgaris. A significant barrier to the use of ISO has worries regarding its adverse effect profile. Despite the well-recognized reproductive toxicity and teratogenicity in females, there is no warning related to the use by male patients in the medication prospectus. Current data on the effects on human male fertility is contradictory and inconclusive.

Objectives: This study was undertaken to investigate the potential effects of ISO oral doses in the Sprague-Dawley male rat germ cells using the sperm morphology assay. Also, the serum levels of the follicle-stimulating hormone (FSH), luteinizing hormone (LH), and testosterone were measured.

Methods: The rat groups were given varying ISO doses via gastric gavage for seven consecutive days. The epididymis sperm specimens were microscopically examined for the following reproductive toxicity parameters: sperm concentration, examined viability, motility, and morphology. The serum FSH, LH, and testosterone levels were measured by using the corresponding enzyme-linked immunosorbent assay (ELISA) kit. The data were analyzed statistically by one-way analysis of variance (ANOVA) followed by the Tukey test at P ≤ 0.05 significance level.

Results: The results indicated that the drug did not significantly increase the sex hormone levels but notably affected both the sperm quantity and quality.

Conclusion: These observations suggest that ISO was reprotoxic, and future therapies should be further reassessed.

Background: Metabolic syndrome is one of the major non-communicable global health hazards of the modern world owing to its amplifying prevalence. Acetyl coenzyme-A carboxylase 2 (ACC 2) is one of the most crucial enzymes involved in the manifestation of this disease because of its regulatory role in fatty acid metabolism.

Objective: To find novel potent ACC 2 inhibitors as therapeutic potential leads for combating metabolic syndrome.

Methods: In the present study, a two-dimensional quantitative structure-activity relationship (2D QSAR) approach was executed on biologically relevant thiazolyl phenyl ether derivatives as ACC 2 inhibitors for structural optimization. The physiochemical descriptors were calculated and thus a correlation was derived between the observed and predicted activity by the regression equation. The significant descriptors i.e. log P (Whole Molecule) and Number of H-bond Donors (Substituent 1) obtained under study were considered for the design of new compounds and their predicted biological activity was calculated from the regression equation of the developed model. The compounds were further validated by docking studies with the prepared ACC 2 receptor.

Results: The most promising predicted leads with the absence of an H-bond donor group at the substituted phenyl ether moiety yet increased overall lipophilicity exhibited excellent amino acid binding affinity with the receptor and showed predicted inhibitory activity of 0.0025 μM and 0.0027 μM. The newly designed compounds were checked for their novelty. Lipinski's rule of five was applied to check their druggability and no violation of this rule was observed.

Conclusion: The compounds designed in the present study have tremendous potential to yield orally active ACC 2 inhibitors to treat metabolic syndrome.

Background: The estimated number of cancer cases in India for the year 2022 was found to be 14,61,427. The development of chemotherapeutic agents has reduced the mortality rate, however, they have high toxicity which is a disadvantage. Many researchers have found out that quinolin-2- one possesses anticancer activity, with this background we thought of synthesizing the quinolin-2-one derivatives.

Objective: This study aimed to carry out docking, synthesis, characterization, and evaluation of 2-(2- (4-Hydroxy-2-oxoquinolin-1(2H)-yl)phenyl/ substituted phenyl)-3-(phenylamino) thiazolidon-4-one derivatives (IVa-g) as an anticancer agent.

Method: Diphenylamine and malonic acid treated with phosphoryl chloride gave compound I, which on formylation afforded compound II, which on reaction with various substituted aromatic phenylhydrazine derivatives gave compounds IIIa-g, which on further reaction with thioglycolic acid and anhydrous zinc chloride yielded the compounds IVa-g.

Result: Among all the synthesized novel derivatives, compounds IV a-d showed 50% lysis in the IC₅₀ range of 25-50μg for the A549 cell line, and compounds IVa, and IVb showed 50% lysis in the IC₅₀ range of 25-50μg for the MDA-MB cell line. The compound, 3-((4-fluorophenyl)amino)-2-(2-(4- hydroxy-2-oxoquinolin-1(2H)-yl)phenyl)thiazolidin-4-one (IVg) was found to be the most active against both the cell line, A549 and MDA-MB with IC₅₀ value of 0.0298μmol and 0.0338μmol respectively. The docking results revealed that the synthesized compounds exhibited well-conserved hydrogen bonding with one or more amino acid residues in the active pocket of EGFR tyrosine kinase domain with 4-anilinoquinazoline inhibitor erlotinib (PDB ID:1M17). Compound IVg showed the highest MolDock score of -137.813 compared to the standard drug Imatinib having a MolDock score of -119.354.

Conclusion: Compound IVg showed the highest MolDock score and was also found to be most potent against both the cell line, A549, and MDA-MB.

Background: Nanoscience and nanotechnology have resulted in the continuous development of new nanomaterials with remarkable properties that make them appealing for pharmaceutical applications. The biocompatibility of metallic nanoparticles is of increasing interest for research scientists currently working towards developing novel nano-based medicines, industrial chemicals, and antigens. There is also a particular interest in using them to counter mutations that up-regulate inflammation enhancers to produce a range of inflammation-related pathologies.

Aim: The following review discusses the anti-inflammatory mechanisms of metallic bioconjugated (silver, gold, zinc oxide, titanium dioxide, and selenium) nanoparticles. The current study focuses on nanoparticle manufacturing technologies and the inflammatory response.

Methodology: A thorough search was conducted in several databases, including Scopus, Embase, Cochrane, and PubMed. The search terms used included: Alzheimer's disease, mechanism of action, neuroinflammation, the reaction of Mast cells to stress and neuroinflammation. The study included all publications published in English.

Results: Green-synthesised nanoparticles can suppress the NF-B and cyclooxygenase-2 pathways, preventing the production of proinflammatory cytokines and ROS scavenging mechanisms. Metallic nanoparticles with anti-inflammatory properties, such as stability and specific targeting, have been briefly discussed.

Conclusion: The current research focuses on metallic nanoparticles employed as anti-inflammatory medication molecules, although nanoparticles have applications in various areas (medicine, chemical engineering, and agriculture). Nanoparticles have a large surface-to-volume ratio, which can help them to penetrate cell membranes, and because of their solid ligand-binding capabilities, nanoparticles have been used in the medical treatment of inflammatory pathologies.

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