VIP Nasal Spray (20mg)

$124.97

VIP Nasal Spray contains a research-grade synthetic peptide formulation designed for scientific studies focused on neuroprotection, cognitive function, and stress response mechanisms. Each 15 ml bottle delivers a stable and bioactive peptide solution, manufactured under strict quality controls and rigorously tested for purity and consistency.

Categories: , Product ID: 6457

Description

Premium VIP Nasal Spray for Advanced Research

VIP Nasal Spray is a research-grade intranasal formulation containing Vasoactive Intestinal Peptide (VIP), a naturally occurring 28-amino acid neuropeptide extensively studied for its role in neurobiology, immune regulation, vascular signaling, gastrointestinal physiology, and cellular communication. Expressed throughout both the central and peripheral nervous systems, VIP interacts primarily with the VPAC1 and VPAC2 receptors to regulate numerous biological signaling pathways in laboratory models.

Developed for scientific investigation, VIP Nasal Spray provides researchers with a convenient intranasal delivery format for studying peptide transport, receptor activation, and central nervous system signaling. The nasal route is commonly utilized in neuroscience research to investigate peptide delivery while minimizing gastrointestinal degradation.

Manufactured under strict quality standards, BioLongevity Labs’ VIP Nasal Spray undergoes comprehensive third-party analytical testing to verify purity, identity, and batch-to-batch consistency for reproducible laboratory research.

Why Researchers Choose VIP Nasal Spray

VIP Nasal Spray is widely used in laboratory studies involving:

  • Neurotransmitter signaling
  • Neuroimmune communication
  • Central nervous system research
  • Blood-brain barrier investigations
  • Neuroinflammation models
  • Immune signaling pathways
  • Cytokine regulation
  • Vascular biology
  • Endothelial cell function
  • Nitric oxide signaling
  • Gastrointestinal physiology
  • Circadian rhythm regulation
  • Cellular communication
  • GPCR (G protein-coupled receptor) signaling
  • cAMP-mediated intracellular signaling

Its intranasal formulation enables researchers to examine peptide transport and receptor activity in controlled experimental settings.

Research Benefits of VIP Nasal Spray

Neurobiology Research

VIP is one of the most widely distributed neuropeptides in the nervous system. Laboratory studies investigate its influence on neuronal communication, neurotransmitter regulation, synaptic signaling, and central nervous system homeostasis.

Blood-Brain Barrier Research

Experimental investigations suggest VIP may influence pathways involved in maintaining blood-brain barrier integrity and neurovascular communication. Researchers frequently evaluate its role in endothelial signaling and barrier function under inflammatory conditions.

Immune System Research

VIP has demonstrated significant immunomodulatory activity in laboratory models. Research continues to examine its influence on:

  • Cytokine production
  • Chemokine signaling
  • Macrophage activation
  • Microglial regulation
  • T-cell differentiation
  • Th1/Th2 immune balance

These characteristics make VIP an important investigational peptide for studying immune-neural communication.

Vascular Biology Studies

VIP functions as a naturally occurring vasoactive peptide involved in vascular signaling. Laboratory research examines its interaction with nitric oxide pathways, endothelial cells, smooth muscle function, and cardiovascular regulatory mechanisms.

Gastrointestinal Research

VIP plays a major role in gastrointestinal physiology. Experimental studies investigate its influence on intestinal motility, epithelial barrier integrity, pancreatic secretions, smooth muscle relaxation, and digestive system signaling.

Cellular Signaling Research

VIP primarily activates VPAC1 and VPAC2 receptors, stimulating adenylate cyclase activity and increasing intracellular cyclic AMP (cAMP). These signaling pathways regulate numerous cellular processes, making VIP valuable for receptor pharmacology and intracellular signaling research.

Circadian Rhythm Investigations

Researchers continue studying VIP’s role within the suprachiasmatic nucleus (SCN), where it contributes to circadian rhythm synchronization, neuronal communication, and biological clock regulation.

Research Effects Observed in Laboratory Studies

Experimental and preclinical research has investigated VIP for its potential influence on:

  • VPAC1 and VPAC2 receptor activation
  • cAMP signaling pathways
  • Adenylate cyclase activity
  • Nitric oxide production
  • Endothelial cell communication
  • Blood-brain barrier integrity
  • Neuroimmune signaling
  • Cytokine regulation
  • Neuroinflammatory biomarkers
  • Smooth muscle relaxation
  • Gastrointestinal motility
  • Pancreatic secretion
  • Circadian rhythm regulation
  • Cellular homeostasis
  • Vascular signaling

These findings remain areas of active scientific investigation and should not be interpreted as established clinical outcomes.

Product Features

  • High-purity research-grade VIP peptide
  • Intranasal spray formulation
  • Manufactured under strict quality standards
  • Third-party purity and identity verification
  • Batch-tested for consistency
  • Stable formulation for laboratory applications
  • Designed for neuroscience, immunology, and vascular biology research
  • Research use only

Storage

  • Keep peptides cold and away from light once received.
  • For short-term use (days to weeks), refrigeration at 4°C (39°F) is acceptable.
  • Lyophilized peptides are typically stable at room temperature for several weeks, making it suitable for moderate-term storage.
  • For long-term storage (months to years), it’s best to freeze peptides at -80°C (-112°F). Freezing optimally preserves peptide stability for extended periods.
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