KPV research vial
Sequence length
3 AA
Molecular weight
342.43 g/mol
Current batch
KPV202605
Immune · Immunomodulatory / Intestinal inflammation research

KPV

C-terminal tripeptide of alpha-MSH studied for anti-inflammatory signaling

KPV (10mg vials)

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Specifications

Molecular weight342.43 g/mol
Sequence length3 amino acids
Amino acid sequenceLys-Pro-Val
AppearanceWhite lyophilized powder
SolubilityBacteriostatic water; sterile water
Storage (lyophilized)-20°C, protected from light
Storage (reconstituted)2–8°C, use within 28 days
Half-lifeShort systemic half-life; PepT1-mediated uptake in intestinal epithelium
Current batch purity99.42% (HPLC) · KPV202605

KPV is a synthetic tripeptide corresponding to the C-terminal three amino acids (Lys-Pro-Val) of alpha-melanocyte-stimulating hormone (alpha-MSH). With a molecular weight of approximately 342.43 g/mol and formula C16H30N4O4, KPV is widely studied in vitro and in animal models of intestinal inflammation, where it has been reported to enter epithelial and immune cells via the PepT1 oligopeptide transporter and dampen NF-κB-driven inflammatory signaling. KPV is supplied by NovaWell as a lyophilized powder, third-party tested for purity and endotoxin conformance, for laboratory research use only.

Research Studies

The following studies are summarized for educational purposes only. Inclusion does not imply any human use; all referenced research was conducted in vitro or in animal models.

Research study

PepT1-Mediated Tripeptide KPV Uptake Reduces Intestinal Inflammation

Dalmasso G, Charrier-Hisamuddin L, Nguyen HTT, Yan Y, Sitaraman S, Merlin D. Gastroenterology. 2008;134(1):166–178. View source ↗

Scientific findings

This combined in vitro and in vivo study examined how the alpha-MSH-derived tripeptide KPV reaches intestinal epithelial and immune cells and what happens once it does. In Caco2-BBE and HT29-Cl.19A intestinal epithelial cell lines and in primary human T cells, KPV was taken up via the di/tripeptide transporter PepT1. Inside the cell, KPV inhibited activation of NF-κB and MAP kinase pathways and reduced secretion of pro-inflammatory cytokines including IL-6, IL-8, and IL-1β. In two murine colitis models — DSS-induced colitis and CD4+CD45RB-high T-cell transfer colitis — orally administered KPV was associated with reduced histological inflammation, lower myeloperoxidase activity, and decreased pro-inflammatory cytokine expression in colonic tissue. Effects required PepT1 expression, consistent with the proposed transporter-mediated uptake mechanism.

Plain English

Researchers wanted to know how a small fragment of a natural anti-inflammatory hormone gets into gut cells and what it does there. They found that KPV hitches a ride on a transporter called PepT1 that intestinal cells already use to absorb small peptides from food. Once inside, KPV turned down the master inflammatory switch (NF-κB) and reduced the inflammatory signals the cell sends out. In two different mouse models of colitis, giving KPV by mouth was associated with less gut inflammation. Because PepT1 levels go up in inflamed intestine, KPV may be preferentially taken up exactly where it is needed.

Research study

Critical Role of PepT1 in Promoting Colitis-Associated Cancer and Therapeutic Benefits of the Anti-inflammatory PepT1-Mediated Tripeptide KPV in a Murine Model

Viennois E, Pujada A, Sung J, Yang C, Gewirtz AT, Chassaing B, Merlin D. Cell Mol Gastroenterol Hepatol. 2016;2(3):340–357. View source ↗

Scientific findings

This follow-up study extended the PepT1/KPV axis from acute colitis into a model of colitis-associated cancer (azoxymethane plus DSS in mice). Intestinal-epithelium-specific PepT1 knockout reduced tumor burden, indicating a role for the transporter in inflammation-driven tumorigenesis. In wild-type animals, oral administration of KPV via nanoparticle delivery was associated with reductions in colonic tumor number and size, decreased proliferative index, and lower expression of pro-inflammatory cytokines (TNF-α, IL-6, IL-1β) in colonic tissue. The authors interpret the data as consistent with KPV exerting an anti-inflammatory effect at the epithelium through PepT1-mediated uptake and downstream NF-κB modulation.

Plain English

Long-term gut inflammation can drive cancer in mouse models. This study asked whether the same transporter that brings KPV into gut cells also plays a role in inflammation-related tumors — and whether KPV could push back. Researchers found that mice lacking PepT1 in their gut lining developed fewer tumors, and that giving KPV by mouth was associated with smaller and fewer tumors plus lower inflammatory signals. The findings reinforce the idea that KPV's effects in the gut work through the PepT1 transporter and the NF-κB inflammatory pathway.

Storage & handling

Lyophilized (unreconstituted): Store at -20°C, protected from light. Stable for 24+ months under correct storage. Avoid repeated temperature cycling.

Reconstituted: Dissolve in bacteriostatic water (typically 1–3 mL per 10 mg vial, depending on the research protocol). Store reconstituted solution at 2–8°C and use within 28 days. Do not freeze reconstituted solution.

Vial format: 10 mg lyophilized, vacuum-sealed glass vial with rubber stopper and aluminum crimp. Sterility tested per USP guidelines.

Shipping: Lyophilized KPV is stable at ambient temperature for the typical 1–3 day shipping window. Cold-pack shipping available on request.

Frequently asked questions

What is KPV?+

KPV is a synthetic tripeptide with the amino acid sequence Lys-Pro-Val (single-letter: K-P-V), corresponding to residues 11–13 of alpha-melanocyte-stimulating hormone (alpha-MSH). Its molecular weight is approximately 342.43 g/mol with the molecular formula C16H30N4O4. KPV is studied in vitro and in animal models for its effects on inflammatory signaling, particularly in intestinal epithelial and immune cells.

How is KPV related to alpha-MSH?+

Alpha-MSH is a 13-amino-acid endogenous neuropeptide with broad anti-inflammatory activity documented in the research literature. KPV represents the C-terminal three residues of alpha-MSH (positions 11–13). Multiple in vitro studies have reported that this short fragment retains the anti-inflammatory signaling activity of the parent peptide without binding the melanocortin receptors responsible for pigmentation, which is why KPV is often studied as a focused research tool for inflammation pathways.

What is KPV's reported mechanism of action?+

In the research literature, KPV is reported to enter intestinal epithelial and immune cells via the PepT1 oligopeptide transporter. Once inside the cell, in vitro studies have associated KPV with inhibition of NF-κB activation (via reduced IκBα degradation and reduced p65 nuclear translocation) and dampening of MAP kinase signaling. Downstream, KPV exposure has been associated with decreased secretion of pro-inflammatory cytokines including IL-1β, IL-6, IL-8, and TNF-α in stimulated cell models. See the Dalmasso et al. 2008 Gastroenterology paper linked above for the foundational mechanism work.

What does NovaWell test KPV for?+

Every batch of KPV supplied by NovaWell is tested by an independent third-party laboratory for: identity and purity (HPLC + MS), bacterial endotoxin (USP <85>), heavy metals (USP), and sterility (USP). The Certificate of Analysis for the currently shipping batch is linked from the Certificates tab on this page.

How should KPV be stored?+

Lyophilized KPV should be stored at -20°C, protected from light, where it is stable for 24+ months. After reconstitution in bacteriostatic water, store at 2–8°C and use within 28 days. Do not freeze reconstituted solution. Avoid repeated temperature cycling of the lyophilized powder.

Where does NovaWell source KPV?+

NovaWell sources KPV from a vetted synthesis partner under our supplier qualification protocol, which includes facility audits and review of internal QC documentation. Every batch is then independently verified by a third-party laboratory before release. The manufacturer ID for the currently shipping batch is listed in the Description tab.