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dsip

DSIP (Delta Sleep-Inducing Peptide): The Enigmatic Nonapeptide

A research-focused analysis of Delta Sleep-Inducing Peptide (Trp-Ala-Gly-Gly-Asp-Ala-Ser-Gly-Glu), its role in sleep regulation, stress response modulation, and its unique position as the only known neuropeptide that crosses the blood-brain barrier efficiently.

Introduction

Delta Sleep-Inducing Peptide (DSIP) is a nine-amino-acid neuropeptide (Trp-Ala-Gly-Gly-Asp-Ala-Ser-Gly-Glu) first isolated from the cerebral venous blood of rabbits subjected to deep sleep. Despite decades of research, DSIP remains one of the most enigmatic regulatory peptides in neuroscience.

Chemical Profile

  • Sequence: Trp-Ala-Gly-Gly-Asp-Ala-Ser-Gly-Glu
  • Molecular Formula: C35H53N11O13
  • Molecular Weight: ~847.9 g/mol
  • CAS Number: 69431-50-3
  • Appearance: White to off-white lyophilized powder

Discovery and Significance

DSIP was discovered in 1970 by Schoenenberger-Monnier and colleagues at the University of Basel. It was identified in the dialysate of cerebral venous blood from rabbits in deep (delta-wave) sleep, making it the first peptide specifically associated with the induction of slow-wave sleep.

Mechanism of Action

Sleep Regulation

DSIP promotes delta-wave (slow-wave) sleep through mechanisms that remain incompletely understood. Unlike many sleep-modulating compounds:

  • It does not act on GABA receptors (unlike benzodiazepines)
  • It does not directly bind to melatonin receptors
  • It does not inhibit histamine release

Current evidence suggests DSIP modulates sleep through:

  • Interaction with the suprachiasmatic nucleus (SCN)
  • Modulation of serotonin turnover in the raphe nuclei
  • Influence on ACTH and cortisol secretion patterns

Blood-Brain Barrier Permeability

DSIP is one of the few neuropeptides that efficiently crosses the blood-brain barrier. This property is attributed to its unique physicochemical properties and possibly active transport mechanisms.

Stress Response Modulation

DSIP influences the hypothalamic-pituitary-adrenal (HPA) axis:

  • Normalises elevated corticosteroid levels
  • Attenuates stress-induced ACTH release
  • Does not suppress basal HPA activity (no iatrogenic adrenal suppression)

Thermoregulation

In preclinical models, DSIP demonstrates hypothermic effects, reducing core body temperature. This property may be linked to its sleep-promoting activity.

Preclinical Research

Sleep Architecture

In EEG-monitored studies, DSIP administration is associated with:

  • Increased total sleep time
  • Enhanced delta-wave (N3) sleep duration
  • Reduction in sleep onset latency
  • No disruption of REM sleep architecture

Stress and Adaptation

DSIP has been studied in models of chronic stress:

  • Reduces stress-induced hyperthermia
  • Normalises disrupted sleep patterns in stressed subjects
  • Does not produce the cognitive impairment associated with classical anxiolytics

Endocrine Effects

  • Modulates growth hormone pulsatility
  • Influences luteinising hormone secretion patterns
  • May normalise disrupted cortisol circadian rhythms

Analytical Specifications

ParameterSpecification
Purity>= 98% (HPLC)
IdentityConfirmed by mass spectrometry
Peptide content>= 80% (NPN)
Bacterial endotoxins< 10 EU/mg

Frequently Asked Questions

What is the CAS number for DSIP?

The CAS number for DSIP is 69431-50-3.

Does DSIP cross the blood-brain barrier?

Yes, DSIP is one of the few neuropeptides that crosses the blood-brain barrier efficiently, which is one of its most remarkable properties.

What is the molecular weight of DSIP?

DSIP has a molecular weight of approximately 847.9 g/mol.

Storage and Handling

  • Store at -20C as lyophilized powder
  • Protect from light and moisture
  • Reconstitute with bacteriostatic water
  • Use within 30 days of reconstitution

Conclusion

DSIP remains a scientifically fascinating peptide with unique properties in sleep regulation, stress response modulation, and neuroendocrine signalling. Its blood-brain barrier permeability and physiological mechanism of action distinguish it from conventional sleep-modulating agents.

All products sold by Kingston Peptides are intended exclusively for in vitro research and analytical purposes.

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