$45.99 / month – $389.99
Vesilute peptide (KED) is a Khavinson tripeptide bioregulator targeting vascular endothelium and bladder tissue. This research-grade compound modulates gene expression in endothelial cells for preclinical vascular aging, neuroprotection, and cerebrovascular research. 20mg lyophilized powder, =98% purity, COA included.
Vesilute peptide is a synthetic tripeptide bioregulator with the amino acid sequence Lys-Glu-Asp (KED), developed by Professor Vladimir Khavinson at the St. Petersburg Institute of Bioregulation and Gerontology. Vesilute belongs to the Khavinson bioregulator peptides class — short regulatory peptides that modulate tissue-specific gene expression at physiological concentrations. Vesilute’s primary research targets are the urinary bladder wall and vascular endothelium, though it has also been studied for broader neuroprotective and anti-aging properties in preclinical gerontology models due to its effects on vascular smooth muscle and endothelial gene expression.
As a bladder bioregulator with vascular and neuroprotective research applications, vesilute operates through the Khavinson epigenetic mechanism — interacting with complementary DNA sequences in gene promoter regions to modulate transcription of tissue-specific genes involved in smooth muscle contractility, endothelial function, and age-related vascular decline. PrymaLab Vesilute 20mg is manufactured to high purity standards and supplied exclusively for qualified preclinical research.
| Specification | Detail |
|---|---|
| Compound | Vesilute (tripeptide bioregulator) |
| Sequence | Lys-Glu-Asp (KED) |
| Quantity | 20mg |
| Target Tissue | Bladder wall, vascular endothelium, smooth muscle |
| Class | Khavinson bioregulator peptide (short regulatory peptide) |
| Purity | ≥98% (HPLC-verified per batch) |
| Testing | HPLC, mass spectrometry, identity verification |
| Form | Lyophilized powder |
| Storage | Store at −20°C desiccated; protect from light |
| Intended Use | Preclinical research only — not for human or veterinary therapeutic use |
Vesilute operates through the Khavinson model of peptide bioregulation, modulating gene expression through direct peptide-DNA interaction in promoter regions of target genes. The KED tripeptide sequence has demonstrated affinity for DNA motifs enriched in genes governing smooth muscle contractility, endothelial nitric oxide regulation, and vascular wall homeostasis.
Vesilute has been studied for its effects on endothelial cell gene expression, including genes regulating nitric oxide synthase (eNOS) activity, prostacyclin production, and vascular smooth muscle tone. In aged vascular tissue models, vesilute administration was associated with restoration of endothelial gene expression profiles that deteriorate with vascular aging — a process central to age-related cardiovascular and cerebrovascular decline. This vascular mechanism underlies vesilute’s emerging research interest as a neuroprotective agent, since cerebral vascular health is a primary determinant of neuronal survival and cognitive function during aging.
The urinary bladder detrusor muscle is a highly specialized smooth muscle tissue whose contractile capacity and neural coordination decline progressively with aging. Vesilute has been studied in bladder tissue models for its effects on smooth muscle contractility gene expression, detrusor muscle functional markers, and the balance between muscarinic receptor signaling and beta-adrenergic relaxation pathways that govern bladder filling and voiding reflexes.
Vesilute’s vascular endothelial effects extend to neuroprotection through the cerebrovascular pathway. Age-related decline in cerebral blood vessel function reduces nutrient and oxygen delivery to neurons, contributing to cognitive decline and neurodegeneration. By modulating endothelial gene expression and supporting vascular tone regulation, vesilute has been investigated in research models examining whether vascular bioregulation can provide indirect neuroprotective effects in aging brain tissue — a research paradigm increasingly recognized as critical to understanding age-related cognitive decline.
The following reflects published preclinical and gerontological literature. PrymaLab Vesilute 20mg is supplied exclusively for research purposes.
Research from the Khavinson group reports that vesilute administration in aged animal models was associated with improved endothelial function markers, including enhanced nitric oxide-dependent vasodilation, reduced endothelial dysfunction indices, and normalization of vascular smooth muscle tone. These effects are attributed to restoration of endothelial gene expression patterns toward younger functional profiles.
Preclinical studies have documented vesilute’s effects on age-related bladder dysfunction markers, including improved detrusor muscle contractility parameters, normalized voiding reflex indicators, and maintenance of bladder wall structural integrity in aged tissue models. These findings position vesilute as a unique bioregulator targeting an organ system — the urinary bladder — that significantly impacts quality of life during aging but receives limited research attention compared to cardiovascular or neurological systems.
Emerging research interest in vesilute centers on its indirect neuroprotective effects mediated through cerebrovascular health. Published data from gerontological models indicates improved cerebral blood flow parameters and reduced markers of vascular-mediated neuronal stress in aged animals treated with vascular bioregulator peptides. This cerebrovascular neuroprotection mechanism is distinct from direct neuronal bioregulators like cortagen, making vesilute relevant to complementary multi-organ bioregulation research protocols.
| Feature | Vesilute (KED) | Cardiogen (Heart Bioregulator) |
|---|---|---|
| Sequence | Lys-Glu-Asp | Ala-Glu-Asp-Arg (AEDR) |
| Primary Target | Bladder wall, vascular endothelium, smooth muscle | Cardiac muscle (cardiomyocytes) |
| Vascular Effects | Endothelial function, vascular tone, cerebrovascular health | Coronary vasculature indirectly via cardiac tissue support |
| Neuroprotective | Yes — via cerebrovascular pathway | Indirect — via cardiac output maintenance |
| Unique Focus | Bladder function + vascular endothelium | Cardiomyocyte gene expression and cardiac remodeling |
| Combined Use | Studied with Cardiogen for cardiovascular system support | Studied with Vesilute for cardiovascular system support |
PrymaLab supplies Vesilute 20mg as a high-purity research-grade bioregulator peptide verified at ≥98% purity by reverse-phase HPLC and identity-confirmed by mass spectrometry. Each batch ships with a unique lot number and Certificate of Analysis. Independent third-party testing ensures unbiased quality verification and full traceability for GLP-compliant research environments.
Vesilute is a synthetic tripeptide bioregulator (Lys-Glu-Asp, KED) developed by Professor Khavinson that targets the bladder wall, vascular endothelium, and smooth muscle tissue. It belongs to the Khavinson bioregulator peptide class and has been studied for vascular function restoration, bladder support, and indirect neuroprotective effects via cerebrovascular health in preclinical aging research models.
Vesilute’s neuroprotective properties are mediated through its vascular endothelial effects rather than direct neuronal action. By restoring endothelial gene expression and supporting cerebrovascular function — including nitric oxide-dependent vasodilation and cerebral blood flow regulation — vesilute helps maintain the vascular delivery of oxygen and nutrients to brain tissue that declines during aging. This vascular neuroprotection mechanism is complementary to direct neuronal bioregulators like cortagen.
Both target the cardiovascular system but through different tissue types. Vesilute (KED) focuses on vascular endothelium and smooth muscle, supporting blood vessel function and bladder wall integrity. Cardiogen (AEDR) targets cardiac muscle (cardiomyocytes), focusing on heart tissue gene expression and cardiac function. Research protocols sometimes combine both for comprehensive cardiovascular system support.
Store lyophilized vesilute at −20°C, desiccated and protected from light, for 24+ months stability. After reconstitution, refrigerate at 2–8°C and use within 2–4 weeks. Avoid repeated freeze-thaw cycles.
PrymaLab Vesilute 20mg is verified at ≥98% purity by reverse-phase HPLC and identity-confirmed by mass spectrometry. Each batch includes a Certificate of Analysis with independent third-party testing results for unbiased quality verification.
For Research Use Only. PrymaLab Vesilute 20mg is intended exclusively for qualified preclinical research use. This product is not intended for human consumption, therapeutic use, veterinary treatment, or any application outside controlled research environments. Vesilute has not been approved by the FDA or any equivalent regulatory authority for therapeutic use. All research applications described are from published preclinical and gerontological literature. Researchers are responsible for regulatory compliance.
| Weight | N/A |
|---|---|
| Dimensions | N/A |
Only logged in customers who have purchased this product may leave a review.
support@prymalab.net info@prymalab.net
30 Day return window. Satisfaction guaranteed or your money back.
All orders over %150 in value will receive free shipping.
Reviews
There are no reviews yet.