FOXO4-DRI 10mg (Proxofim) – Advanced Peptide for Senescence Research
FOXO4-DRI 10mg (Proxofim) is a high-purity peptide developed for laboratory and research use, particularly in studies focused on cellular senescence, aging mechanisms, and tissue health. Known in scientific literature as a FOXO4–p53 interfering peptide, FOXO4-DRI has attracted attention for its role in exploring how senescent (“aging”) cells behave and how they might be selectively targeted.
🔬 What Is FOXO4-DRI (Proxofim)?
FOXO4-DRI is a synthetically engineered peptide design to disrupt the interaction between FOXO4 and p53 proteins—a pathway associated with the survival of senescent cells. In research models, this interaction helps scientists study how aged or damage cells persist and how they may be remove.
👉 Proxofim is a trade name sometimes use for formulations of FOXO4-DRI in research contexts.
⚙️ Key Research Focus Areas
- 🧪 Cellular Senescence Studies
Used to investigate how senescent cells accumulate and influence aging processes. - 🧬 FOXO4–p53 Pathway Modulation
Explores mechanisms that regulate cell survival and programmed cell death. - 🔄 Tissue Function & Regeneration Research
Supports studies on how clearing senescent cells may affect tissue environments. - ⏳ Longevity & Aging Research
Widely examined in preclinical models for its role in age-related cellular dynamics.
🧠 How FOXO4-DRI Works (Research Overview)
FOXO4-DRI is design to:
- Interfere with FOXO4’s binding to p53
- Promote apoptosis (programmed cell death) in senescent cells in experimental settings
- Help researchers study selective removal of dysfunctional cells
This mechanism makes it a valuable compound in senolytic research frameworks.
📦 Product Specifications
- Product Name: FOXO4-DRI 10mg (Proxofim)
- Category: Research peptide
- Form: Lyophilized powder (common format)
- Concentration: 10mg per vial
- Purity: High-purity (lab-grade, varies by supplier)
- Use: Research purposes only
🌟 Why Researchers Choose FOXO4-DRI
- ✔ Targeted pathway specificity (FOXO4–p53)
- ✔ Widely cited in senescence-related studies
- ✔ Useful for advanced cellular and molecular research
- ✔ High relevance in longevity science discussions



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