
Adipotide (FTPP)
Research Peptide | Lyophilized Powder | Batch Tested
For laboratory research use only. Not for human or animal consumption. Insulated shipping · Styrofoam box available.
Product Overview
Adipotide (FTPP, "fat-targeted proapoptotic peptide") is a peptidomimetic constructed from a targeting sequence linked to a proapoptotic domain. It is designed to home to prohibitin in the blood vessels that supply white adipose tissue, making it a research tool for probing the relationship between adipose vascular supply and fat mass.
| Test | Result | Status |
|---|---|---|
| Purity | 98.5% | Passed ✓ |
| Test | Result | Status |
|---|---|---|
| Purity | 98.5% | Passed ✓ |
| Test | Result | Status |
|---|---|---|
| Purity | 99.6% | Passed ✓ |
Research Information
Adipotide is studied in obesity and adipose-biology models for its ability to trigger apoptosis in the vasculature feeding fat tissue, effectively "starving" adipose depots. Research examines how disrupting adipose blood supply affects fat mass, metabolism and insulin sensitivity in animal models. Supplied strictly for in-vitro and laboratory research use only — not for human or animal consumption.
Adipotide (FTPP) Research & Studies
What is Adipotide (FTPP)?
Adipotide (FTPP) is a synthetic peptidomimetic composed of a fat-vasculature targeting motif fused to a proapoptotic domain. It is constructed to recognize prohibitin expressed on the endothelium of vessels that supply white adipose tissue. In laboratory settings it serves as a molecular probe for examining how selective disruption of adipose blood supply relates to changes in fat depot architecture. The compound is supplied strictly for in-vitro and controlled laboratory research use.
Mechanism of Action
Adipotide is designed so that its targeting sequence binds prohibitin on the luminal surface of adipose-associated vasculature. Upon binding, the linked proapoptotic domain is internalized and initiates programmed cell death within those endothelial cells. Research models use this sequence of events to study secondary effects on nutrient delivery and oxygen supply to surrounding adipocytes. The pathway therefore centers on vascular apoptosis rather than direct action on fat cells themselves.
Primary Areas of Research
Investigators employ Adipotide primarily in obesity and adipose-biology model systems to explore the dependence of white adipose tissue on its vascular network. Studies focus on how experimental interruption of adipose blood flow influences fat-mass metrics, local tissue remodeling, and systemic metabolic readouts such as insulin sensitivity markers. Parallel work examines prohibitin distribution and vascular density across different adipose depots. All such work remains confined to non-clinical experimental platforms.
Key Research Findings
Published laboratory investigations report that Adipotide can induce apoptosis selectively in prohibitin-positive endothelial cells of white adipose vasculature in rodent and other animal models. Subsequent observations include measurable reductions in adipose depot volume and alterations in circulating metabolic parameters under controlled experimental conditions. These findings are used to map the contribution of vascular integrity to fat-mass maintenance. Results are model-specific and do not extend beyond the research context in which they were generated.
Research Handling and Considerations
Adipotide preparations intended for laboratory work should be stored according to supplier specifications, typically under refrigerated or frozen conditions to preserve peptide integrity. Reconstitution and dilution protocols must follow established sterile technique for cell-culture or tissue-explant assays. Researchers are advised to verify peptide identity and purity by analytical methods before experimental use. The material is designated solely for in-vitro and laboratory research and is not intended for any form of administration.
Frequently Asked Questions
Adipotide is engineered to bind prohibitin displayed on the endothelium of vessels that supply white adipose tissue, enabling selective study of that vascular compartment.
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