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DSIP (5mg)

$39.00

DSIP, a neuropeptide, demonstrates influence over various endocrine and physiological functions within the central nervous system. Noteworthy for its potential to alleviate oxidative stress and modulate myocardial contractility, DSIP garners attention for its multifaceted actions. Ongoing research explores its prospects as a therapeutic target for addressing major depressive disorder.

Size: 5mg

Contents: DSIP (5mg)

Form: Lyophilized powder

Purity: >99%

SKU: P-DSIP-5

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Delta Sleep-Inducing Peptide: Mechanisms and Physiological Impact

Delta Sleep-Inducing Peptide, abbreviated as DSIP, is a synthetic nonapeptide designed to modulate diverse systems and uphold regular endogenous functions. Beyond its association with sleep cycle regulation, DSIP is implicated in influencing various physiological processes. Comprising nine amino acids, this neuropeptide is endogenously present in neurons, plasma, and peripheral organs. While it is suggested to induce delta sleep in mammals, DSIP also exhibits potential effects on electrophysiological activity and the regulation of neurotransmitter levels within the brain.(1)

The exploration of DSIP peptide began in the years 1963 to 1977, capturing the attention of scientists and becoming a subject of extensive research.(2) Initially recognized primarily for its potential as a sleep-inducing factor, DSIP quickly emerged as a peptide with multifaceted actions, including pain mitigation, sleep cycle regulation, and alleviation of withdrawal symptoms. Notably, in 1984, a substance similar to DSIP was identified in breast milk, boasting an impressive recovery rate of almost 90%. The natural presence of milk proteins raises questions about their absorption in the gastrointestinal tract of infants, yet the impact on the sleep cycle of infants remains uncertain.(4)

Investigations and Clinical Analyses

DSIP Peptide and Neurotransmitter Modulation in Animals

In an animal study(10), researchers investigated the impact of DSIP on neurotransmitter levels in rats. Rats were divided into control and DSIP-treated groups, and their neurotransmitter levels were analyzed after DSIP administration. The results suggested potential modulation of neurotransmitters, including serotonin and dopamine, in the brain. This study contributes to the growing understanding of DSIP’s role in regulating neurochemical processes in animals.

In a human trial(18) involving six participants, DSIP was administered in the morning at body weight-dependent concentrations. Rigorous monitoring revealed that all subjects experienced heightened sleep pressure promptly after the peptide’s introduction, leading to a notable 59% increase in total sleep within the initial two hours. The study also unveiled a decrease in the proportion of stage 1 sleep (indicating sleep onset) coupled with an augmentation in the occurrence of stage 3 sleep (representing deep sleep), shedding light on the peptide’s potential impact on sleep dynamics in human subjects.

Delta Sleep-Inducing Peptide and Neuroendocrine Responses

In a specific investigation(9), rats were administered DSIP to explore the peptide’s influence on the neuroendocrine system. Remarkably, within a span of 30 minutes, a significant rise in luteinizing hormone (LH) levels was observed, while follicle-stimulating hormone (FSH) remained unaffected. Analogous studies have suggested that DSIP might contribute to heightened somatotropin hormone secretion and diminished corticotropin hormone levels.(7) Researchers have proposed that DSIP could potentially exert regulatory effects on hormonal secretion within the hypothalamus.

DSIP and Modulation of Stress-Induced Hormonal Responses

This investigation(10) aimed to assess the potential influence of DSIP on hormonal responses under stress conditions. Rats were subjected to experimental stress induction by securing their tails in a specially designed cage during nighttime, and this stress regimen persisted for 12 hours over five consecutive days. The rats were categorized into six groups: (i) control group receiving a placebo, (ii) stress-only group, (iii) DSIP administered one hour before stress induction, (iv) DSIP given 24 hours before stress initiation, (v) DSIP administered one hour before the final stress session, and (vi) DSIP provided 24 hours before the last stress experiment. While the control group received a placebo, the other groups were administered DSIP at predetermined intervals.

Observations from the investigation revealed that DSIP administration correlated with heightened levels of endorphins and corticosterone hormones in both the hypothalamus and plasma. These hormones, recognized by scientists for their stress-reducing properties, showed an apparent increase with the earlier administration of the DSIP peptide. The timing of DSIP administration seemed to positively align with stress reduction, suggesting a potential correlation between the peptide’s actions and the modulation of stress-related hormonal responses.

DSIP Peptide and Longevity Enhancement

In a comprehensive investigation involving 108 female rats, the study aimed to explore the potential impact of DSIP on longevity. The rats were equally divided into two groups – one receiving saline (control) and the other administered DSIP. The administration of either saline or DSIP commenced at the age of 3 months and continued until their natural deaths, with compounds given for 5 consecutive days each month. While DSIP did not seem to affect food intake, it exhibited a notable decrease in the weight of the mice. The study findings suggested a 23% reduction in chromosomal aberrations in the bone marrow and a remarkable 24% improvement in lifespan compared to the control group. Additionally, DSIP demonstrated a noteworthy 2.5-fold decrease in tumor incidents, particularly in mice presenting leukemia and mammary gland carcinomas. This study sheds light on the potential of DSIP to influence both longevity and tumor susceptibility.

Delta Sleep-Inducing Peptide and Diverse Characteristics

Ongoing research endeavors continue to unravel the multifaceted nature of DSIP, surpassing its initial association with sleep induction. Current studies suggest a wide array of potential properties, indicating that DSIP may exert diverse effects on parameters such as heart rate, blood pressure, regulation of body temperature, and modification of pain threshold. As our understanding of DSIP expands, it reveals a peptide with a multitude of potential actions, making it a subject of comprehensive investigation in the realm of neurophysiology and beyond.

Diverse clinical investigations shed light on the versatile applications of DSIP. One study involving subjects aged 3 to 16 years suggested a potential reduction in neurological impairment, specifically in bioelectrical activity, induced by chemotherapy upon DSIP administration. In another study, DSIP was administered to individuals experiencing withdrawal symptoms from opioid and alcohol dependence, exhibiting a notable amelioration of withdrawal symptoms in nearly 90% of the subjects. Additional research has hinted at DSIP’s ability to penetrate the blood-brain barrier, exerting various actions in the nervous system. Interestingly, an aminopeptidase enzyme has been identified to act on DSIP, resulting in a relatively short half-life of 15 minutes. The endogenous DSIP may counteract this enzymatic lysis by forming complexes with larger proteins, potentially enhancing its stability. Ongoing studies aim to unveil the intricate details of DSIP’s interactions and mechanisms underlying its proposed multivariate properties.

DSIP and Metabolic Modulation

In a comprehensive study involving rats aged 2 to 24 months, researchers delved into the potential metabolic effects of DSIP peptide. Intriguingly, the analysis revealed that DSIP may act to inhibit the levels of malonic dialdehyde in rat tissues and plasma. Malonic dialdehyde, arising from lipid peroxidation, is a key contributor to oxidative stress. The findings strongly suggested that DSIP holds promise in averting lipid peroxidation, thereby showcasing antioxidant properties. Beyond this, DSIP exhibited the ability to stimulate the endogenous antioxidant system, potentially influencing various enzymatic levels involved in metabolic modulation. Ongoing research endeavors seek to unravel the broader implications of DSIP in metabolic pathways and its potential therapeutic applications.

DSIP Peptide and Cardiovascular Impact

In a recent study(7) involving male rats, researchers explored the potential cardiovascular impact of DSIP. The findings hinted at the possibility that DSIP might exert influences on the cardiovascular system, with observed effects on heart rate, blood pressure, and potentially influencing vascular functions. Preliminary results suggested alterations in the vascular tone, indicating a potential role in cardiovascular regulation. Despite these intriguing findings, the precise mechanisms through which DSIP interacts with the cardiovascular system remain a subject of ongoing investigation, warranting further exploration into its multifaceted impact on cardiovascular physiology.

DSIP Peptide is exclusively intended for scientific research and laboratory applications. Prior to placing an order, it is imperative to thoroughly review and comply with the stipulated Terms and Conditions governing its acquisition and usage.

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