Comparing the biological activity and composition of Cerebrolysin with other peptide preparations.

Neurological disorders, ranging from acute forms such as stroke and traumatic brain injury to neurodegenerative diseases like dementia, are the leading cause of disability-adjusted life years (DALYs) worldwide. A promising approach to address these conditions and promote nervous system regeneration is the use of the neuropeptide preparation Cerebrolysin, which has been shown to be effective in both clinical and preclinical studies. Despite claims of similar clinical efficacy and safety by several peptide preparations, concerns regarding their generic composition and efficacy have been previously raised. Based on these reports, we analyzed the peptide composition and neurotrophic activity of several peptide preparations allegedly similar to Cerebrolysin and approved in some countries for treating neurological diseases. Our results demonstrate that these preparations lack relevant biological activity and that the peptide composition is significantly different from Cerebrolysin. peptide.

A Neurofilament-L reporter cell line for the quantification of early neuronal differentiation: A Bioassay for neurotrophic activities.

Background: Neurotrophic activity constitutes a crucial factor in the recovery from neurological injuries and is impaired in neurodegenerative disorders. Preclinical studies of neurotrophic factors to improve outcome of neurodegenerative diseases have yielded promising results. However, due to the complexity of these therapies, the clinical translation of this approach was so far not successful and more feasible treatments with neurotrophic activity may be promising alternatives. Therefore, highly sensitive and robust assays for compound screening are required. New method: Nerve growth factor is known to induce Neurofilament-L (NF-L) expression in a rat pheochromocytoma cell line (PC12 cells) during early neuronal differentiation. We generated and characterized an enhanced green fluorescent protein (EGFP)-NF-L reporter PC12 cell line for the development of a cell-based assay (designated Neurofilament-L Bioassay) that allows straightforward quantification of early neuronal differentiation based on NF-L expression. Results: Using Cerebrolysin® as a role model for a pharmacological compound that stimulates neurotrophic activity in the central nervous system, the Neurofilament-L Bioassay was proved to be a robust, specific, and reproducible method. Comparison with existing methods: It was already shown that NF-L expression correlates with neurite outgrowth in PC12 cells. Currently, quantification of neurite outgrowth is the most commonly used method to evaluate neuronal differentiation in PC12 cells, an approach that is time-consuming and of high variability. Conclusions: This work describes the development of an EGFP-NF-L reporter PC12 cell-based assay as a robust and reproducible tool for "high throughput" compound screening for neurotrophic activity.