Safeguarding Neuronal Integrity: Unveiling Possible Role of NFκB in the Neuroprotective Efficacy of Andrographolide Contrary to Aluminium Chloride-induced Neurotoxicity and Associated Spatial Memory Impairments in Rats.

OBJECTIVE: The current study was structured to evaluate the neuroprotective properties of andrographolide in the context of aluminum chloride (AlCl3)-induced neurotoxicity, along with its concurrent impact on spatial memory impairment in Wistar rats. The present investigation elucidated the biochemical and neurobehavioral outcomes of andrographolide treatment in rats, emphasizing the areas of the brain associated with memory, i.e., the cortex and the hippocampus. MATERIALS AND METHODS: Prolonged dosing of AlCl3 (7 mg/kg) intraperitoneally for 10 days exhibited a substantial enhancement in the values of oxidative stress markers associated with a reduction in the concentrations of antioxidant enzymes within the brain. The selection of andrographolide doses (1, 2, and 3 mg/kg) was grounded in precedent safety and toxicity investigations, with subsequent oral administration. The evaluation of behavioral parameters, specifically spatial memory, was conducted through the utilization of the Radial Eight Arm Maze (RAM) test. On the concluding day of the experiment, the assessment encompassed biochemical parameter analysis and histological scrutiny of the brain tissue. RESULTS: The oral dosing of andrographolide at 1, 2, and 3 mg/kg, in conjunction with AlCl3, effectively mitigated the behavioral deficits induced by aluminum exposure. Notably, a significant suppression of NFκB was uncovered in the rats treated with andrographolide. Furthermore, histopathological examinations of the cortex and hippocampus of rat brains provided corroborative evidence, demonstrating that andrographolide substantially alleviated the toxic impact of AlCl3, thereby maintaining the typical histoarchitectural arrangement of these regions. CONCLUSION: These findings collectively suggest that andrographolide holds the potential to counteract memory impairment instigated by aluminum toxicity, accomplished through the modulation of NFκB activity and the amelioration of the adverse consequences of AlCl3 exposure.

RGD-decorated PLGA nanoparticles improved effectiveness and safety of cisplatin for lung cancer therapy.

Upon extensive pharmaceutical and biomedical research to treat lung cancer indicates that lung cancer remains one of the deadliest diseases and the leading cause of death in men and women worldwide. Lung cancer remains untreated and has a high mortality rate due to the limited potential for effective treatment with existing therapies. This highlights the urgent need to develop an effective, precise and sustainable solutions to treat lung cancer. In this study, we developed RGD receptor-targeted PLGA nanoparticles for the controlled and targeted co-delivery of cisplatin (CDDP) and upconversion nanoparticles (UCNP) in lung cancer therapy. Pluronic F127-RGD conjugate was synthesized by carbodiimide chemistry method and the conjugation was confirmed by FTIR and 1HNMR spectroscopy techniques. PLGA nanoparticles were developed by the double emulsification method, then the surface of the prepared nanoparticles was decorated with Pluronic F127-RGD conjugate. The prepared formulations were characterized for their particle size, polydispersity index, zeta potential, surface morphology, drug encapsulation efficiency, and in vitro drug release and haemolysis studies. Pharmacokinetic studies and safety parameters in BAL fluid were assessed in rats. Histopathology of rat lung tissue was performed. The obtained results of particle sizes of the nanoparticle formulations were found 100-200 nm, indicating the homogeneity of dispersed colloidal nanoparticles formulations. Transmission Electron Microscopy (TEM) revealed the spherical shape of the prepared nanoparticles. The drug encapsulation efficiency of PLGA nanoparticles was found to range from 60% to 80% with different nanoparticles counterparts. RGD receptor-targeted PLGA nanoparticles showed controlled drug release for up to 72 h. Further, RGD receptor-targeted PLGA nanoparticles achieved higher cytotoxicity in compared to CFT, CFT, and Ciszest-50 (marketed CDDP injection). The pharmacokinetic study revealed that RGD receptor-targeted PLGA nanoparticles were 4.6-fold more effective than Ciszest-50. Furthermore, RGD receptor-targeted PLGA nanoparticles exhibited negligible damage to lung tissue, low systemic toxicity, and high biocompatible and safety in lung tissue. The results of RGD receptor-targeted PLGA nanoparticles indicated that it is a promising anticancer system that could further exploited as a potent therapeutic approach for lung cancer.

Bioinspired gelatin based sticky hydrogel for diverse surfaces in burn wound care.

Proper burn wound management considers patient's compliance and provides an environment to accelerate wound closure. Sticky hydrogels are conducive to wound management. They can act as a preventive infection patch with controlled drug delivery and diverse surface adherence. A hypothesis-driven investigation explores a bioinspired polydopamine property in a gelatin-based hydrogel (GbH) where polyvinyl alcohol and starch function as hydrogel backbone. The GbH displayed promising physical properties with O-H group rich surface. The GbH was sticky onto dry surfaces (glass, plastic and aluminium) and wet surfaces (pork and chicken). The GbH demonstrated mathematical kinetics for a transdermal formulation, and the in vitro and in vivo toxicity of the GbH on test models confirmed the models' healthy growth and biocompatibility. The quercetin-loaded GbH showed 45-50% wound contraction on day 4 for second-degree burn wounds in rat models that were equivalent to the silver sulfadiazine treatment group. The estimates for tensile strength, biochemicals, connective tissue markers and NF-κB were restored on day 21 in the GbH treated healed wounds to imitate the normal level of the skin. The bioinspired GbH promotes efficient wound healing of second-degree burn wounds in rat models, indicating its pre-clinical applicability.