Supports gut and neural signaling
JBSNF-000088 is a synthetic oligopeptide designed for receptor specificity and stability. It interacts with certain receptors in the gut and nervous system, potentially offering benefits for gut and neural health.
About Synthetic Oligopeptide
Understanding JBSNF-000088
JBSNF-000088 is crafted as a synthetic oligopeptide, typically under 20 amino acids long. Its design focuses on interacting with specific receptors and ion channels within the gut and enteric nervous system. This peptide’s structure makes it resistant to breakdown, offering potential bioavailability when taken orally or sublingually.
How It Works
As a ligand-mimetic, JBSNF-000088 can affect signaling pathways like cAMP-PKA and MAPK/ERK. In the gut, it might influence protein phosphorylation, impacting gut barrier integrity. In the nervous system, it could modulate neurotransmitter release, impacting synaptic plasticity.
Formulation and Delivery
JBSNF-000088 is designed to resist digestion using structural changes like D-amino acid substitutions. Delivery systems such as nanoencapsulation can further aid absorption and effectiveness. This peptide pairs well with prebiotics, potentially enhancing gut health benefits.
Research and Applications
Current research suggests applications in modulating gut-brain communication and supporting neural health. It’s used in various assays and studies, including those focused on gut permeability and cognitive resilience.
Safety and Quality
Synthetic peptides like JBSNF-000088 undergo rigorous quality control, including purity checks and sequence verification. Designed to minimize immunogenic risks, this peptide follows strict manufacturing protocols.
Related Products
Formulated With
Learn about other ingredients that Synthetic Oligopeptide is used alongside throughout the LVLUP range.
Detailed Information
Scientific Profile
JBSNF-000088 is engineered to target G-protein-coupled receptors and certain ion channels. Its structural features enhance proteolytic resistance, ensuring stability and prolonged activity in biological systems. The peptide’s oral and sublingual delivery potential is a focus of ongoing research.
Molecular Action
This peptide acts as an agonist or modulator in various signaling pathways. By engaging with pathways like PI3K-Akt, it influences cellular responses, potentially enhancing paracellular permeability regulation and neurotransmitter modulation.
Pharmacokinetics
The peptide’s design includes structural modifications like cyclization to improve resistance to intestinal peptidases. Advanced delivery methods, including lipid-based systems, are explored to maximize absorption and stability.
Research Insights
Preclinical studies point towards effects on the gut-brain axis and systemic cytokine profiles. The peptide’s integration into supplements reflects a shift towards targeted molecular nutrition.
Regulatory Considerations
The evolving landscape of synthetic peptides in supplements highlights the importance of purity and quality controls. JBSNF-000088 is subjected to thorough testing to ensure compliance with safety standards.
