Background: Alzheimer disease (AD) is a progressive neurodegenerative disease leading to neuronal cell death and manifested by cognitive disorders and behavioral impairment. Mesenchymal stem cells (MSCs) are one of the most promising candidates to stimulate neuroregeneration and prevent disease progression. Optimization of MSC culturing protocols is a key strategy to increase the therapeutic potential of the secretome. Objectives: Here, we investigated the effect of brain homogenate of a rat model of AD (BH-AD) on the enhancement of protein secretion in the secretome of periodontal ligament stem cells (PDLSCs) when cultured in a 3D environment. Moreover, the effect of this modified secretome was examined on neural cells to study the impact of the conditioned medium (CM) on stimulation of regeneration or immunomodulation in AD. Methods: PDLSCs were isolated and characterized. Then, the spheroids of PDLSCs were generated in a modified 3D culture plate. PDLSCs-derived CM was prepared in the presence of BH-AD (PDLSCs-HCM) and the absence of it (PDLSCs-CM). The viability of C6 glioma cells was assessed after exposure to different concentrations of both CMs. Then, a proteomic analysis was performed on the CMs. Results: Differentiation into adipocytes and high expression of MSCs markers verified the precise isolation of PDLSCs. The PDLSC spheroids were formed after 7 days of 3D culturing, and their viability was confirmed. The effect of CMs on C6 glioma cell viability showed that both CMs at low concentrations (> 20 mg/mL) had no cytotoxic effect on C6 neural cells. The results showed that PDLSCs-HCM contains higher concentrations of proteins compared to PDLSCs-CM, including Src-homology 2 domain (SH2)-containing PTPs (SHP-1) and muscle glycogen phosphorylase (PYGM) proteins. SHP-1 has a role in nerve regeneration, and PYGM is involved in glycogen metabolism. Conclusions: The modified secretome derived from 3D cultured spheroids of PDLSCs treated by BH-AD as a reservoir of regenerating neural factors can serve as a potential source for AD treatment.
Background:
Animal models for drug discovery and development in Parkinson ’s disease have played an important role in the characterization of the pathophysiology of diseases and associated mechanisms of injury, drug target identification, and evaluation of novel therapeutic agents for toxicity/safety, pharmacokinetics, pharmacodynamics, and efficacy.
Objective:
The review is intended to reform the scope, advantages, and limitations of various Parkinson’s Disease models and their scope in translational research. The lack of a gold standard for PD animal models presents a major challenge in devising a validation system. This review is an attempt to provide a way to adopt the validation approach for PD animal model for research.
Methods:
Because underlying disease mechanisms are so similar across species, it is possible to extrapolate results from Parkinson's disease studies using animal models. Furthermore, behavioural tests used to access the neurobehavioral test with its limitations were explored for rodents, non-human primates, lower-order animals, and invertebrates. The role of gender selectivity and non-selectivity is the one major concern in PD model validation that is addressed in the review.
Result:
The rigorous validation has been done on animal models for Parkinson's disease (PD) based on comparisons to the human state. Regarding toxicological and safety investigations in PD, non-animal options must be thoroughly validated. There are both advantages and disadvantages to using animal models of Parkinson's disease as proof-of-concept research.
Conclusion:
The specific animal model selected for a given drug to be tested and developed depends on the goal of the specific study.
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