PeptidesCategoriesResearch

AF2121

AF2121 is an extended ADNP-derived peptide fragment longer than NAP (NAPVSIPQ), developed in the Gozes laboratory at Tel Aviv University, with preclinical evidence for tau interaction, microtubule stabilization, and cognitive enhancement in neurodegenerative disease models.

AF2121 is an extended peptide fragment derived from activity-dependent neuroprotective protein (ADNP), encompassing a longer sequence than the canonical NAP octapeptide (NAPVSIPQ). Developed in the laboratory of Professor Illana Gozes at Tel Aviv University, AF2121 retains the core SxIP microtubule-binding motif of NAP while incorporating additional ADNP-derived residues hypothesized to enhance stability, receptor engagement, or biological activity.

Overview

ADNP is a 1102-amino acid protein essential for brain development and neuronal survival. The NAP octapeptide (NAPVSIPQ, residues 354-361) represents the smallest active neuroprotective fragment, but ADNP contains additional functional domains that contribute to its full biological activity. AF2121 is an extended fragment that includes the NAP motif plus flanking ADNP sequences, designed to capture additional interactions -- potentially including enhanced binding to end-binding proteins, improved peptidase resistance through flanking residues, or engagement of secondary binding partners beyond EB1/EB3.

The rationale for extending beyond NAP is based on observations that while NAP is extraordinarily potent at femtomolar concentrations, the full-length ADNP protein exhibits activities that NAP alone does not fully recapitulate, including chromatin remodeling, transcriptional regulation, and broader cytoskeletal interactions. AF2121 aims to bridge the gap between the minimal NAP fragment and the full protein, potentially capturing additional therapeutic functionality.

Mechanism of Action

AF2121 shares the core mechanism of NAP peptide -- microtubule stabilization via the SxIP motif that binds end-binding proteins EB1 and EB3 at microtubule plus-ends. By promoting microtubule polymerization and reducing catastrophe frequency, the peptide protects axonal transport, dendritic architecture, and synaptic function from tau-mediated disruption.

The extended sequence of AF2121 beyond the NAP octapeptide may confer additional mechanistic properties. Longer ADNP fragments have been shown to interact with chromatin-remodeling complexes (SWI/SNF) and to modulate gene expression beyond what the SxIP-EB1/EB3 interaction alone can achieve. Whether AF2121 specifically engages these additional pathways remains under investigation.

Like NAP, AF2121 interacts with tau protein, potentially compensating for tau loss-of-function in tauopathies by providing an alternative mechanism of microtubule stabilization. The extended sequence may alter the kinetics or affinity of tau interaction compared to the minimal NAP fragment.

Reconstitution Calculator

Reconstitution Calculator

Calculate your peptide dosing

Draw Volume
0.100mL
Syringe Units
10units
Concentration
2,500mcg/mL
Doses / Vial
20doses
Vial Total
5mg
Waste / Vial
0mcg
Syringe Cap.
100units · 1mL
How to reconstitute
Gather & prepare
1/6Gather & prepare

Set up a clean workspace with all supplies ready.

1.Wash hands thoroughly, put on disposable gloves
2.Your 5mg peptide vial (lyophilized powder)
3.Bacteriostatic water (you'll need 2mL)
4.A 3–5mL syringe with 21–25 gauge needle for reconstitution
5.Alcohol swabs (70% isopropyl)
Use bacteriostatic water (0.9% benzyl alcohol) for multi-dose vials. Sterile water is only safe for single-use.
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Store 2-8°C30 day shelf lifeSwirl gentlyFor research purposes only

Research

Preclinical Cognitive Enhancement

AF2121 has demonstrated procognitive effects in preclinical rodent models of neurodegeneration. In ADNP-haploinsufficient mice -- which model the cognitive deficits seen in Helsmoortel-Van der Werf syndrome and share features with broader neurodegenerative conditions -- extended ADNP fragments including AF2121 improved performance on object recognition, social interaction, and spatial memory tasks. These effects parallel those observed with NAP but have been less extensively characterized across multiple research groups.

Tau Interaction Studies

The Gozes laboratory has investigated how extended ADNP fragments interact with tau protein and influence tau aggregation. AF2121 demonstrated the ability to reduce tau hyperphosphorylation in cell culture models and to prevent the formation of insoluble tau aggregates. The extended peptide may engage tau at additional binding sites compared to the NAP octapeptide alone, potentially offering more complete protection against tau pathology. However, direct comparative studies establishing quantitative superiority over NAP remain limited in the published literature.

Microtubule Stabilization

In vitro tubulin polymerization assays have confirmed that AF2121 promotes microtubule assembly, consistent with the presence of the SxIP motif. The extended sequence flanking the NAP core may influence the peptide's interaction with the microtubule lattice or with microtubule-associated proteins beyond EB1/EB3, though the specific structural basis for any enhanced activity has not been fully elucidated.

Safety Profile

AF2121 has not been evaluated in clinical trials. Preclinical safety data is limited. As an endogenous-derived peptide fragment from ADNP -- a protein with well-characterized physiological roles -- AF2121 is expected to operate within established biological pathways. The safety profile of the closely related NAP peptide (davunetide) in human clinical trials provides indirect reassurance: davunetide showed excellent tolerability with no serious adverse events across trials involving over 500 patients. However, the extended sequence of AF2121 introduces additional epitopes that could theoretically affect immunogenicity or off-target interactions. Formal toxicology studies have not been published.

Pharmacokinetic Profile

AF2121 — Pharmacokinetic Curve

Intranasal, Intraperitoneal (preclinical)
0%25%50%75%100%0m25m50m1.3h1.7h2.1hTimeConcentration (% peak)T_max 16mT_1/2 25m
Half-life: 25mT_max: 20mDuration shown: 2.1h

Quick Start

Route
Intranasal, Intraperitoneal (preclinical)

Molecular Structure

Molecular Properties
Formula
Not fully disclosed
CAS
Not assigned

Research Protocols

intranasal Injection

Administered via intranasal.

GoalDoseFrequency
General Research ProtocolSee literatureDaily

intraperitoneal Injection

Administered via intraperitoneal.

GoalDoseFrequency
General Research ProtocolSee literatureDaily

Interactions

Peptide Interactions

Semaxsynergistic
  • AF2121 provides microtubule-based neuroprotection while Semax upregulates BDNF and NGF for neurotrophic support. Non-overlapping mechanisms suggest potential additive benefit for cognitive enhancement.
BDNFsynergistic

AF2121 provides microtubule-based neuroprotection while Semax upregulates BDNF and NGF for neurotrophic support. Non-overlapping mechanisms suggest potential additive benefit for cognitive enhancement.

Humaninsynergistic

Cytoskeletal protection (AF2121) complemented by anti-apoptotic signaling through Bax/Bid sequestration (humanin). Addresses both structural and survival dimensions of neurodegeneration.

SS-31synergistic

Microtubule network protection (AF2121) paired with mitochondrial membrane stabilization (SS-31). Maintains both the transport infrastructure and the organelles it supports.

Quality Indicators

What to look for

  • Human clinical trials conducted

Caution

  • Limited human data available

Red flags

  • Significant side effect risk noted

Frequently Asked Questions

References (7)

  1. [7]
    Gozes, I ADNP/NAP: Current Evidence and Future Perspectives for Autism and Beyond Front. Endocrinol. (2023)
  2. [8]
    Ivashko-Pachima Y. et al -- ADNP-derived peptides and microtubule dynamics: implications for neurodegenerative disease therapeutics J. Mol. Neurosci. (2022)
  3. [1]
    Gozes, I. et al NAP: Research and development of a peptide derived from activity-dependent neuroprotective protein (ADNP) CNS Drug Rev. (2005)
  4. [5]
    Vulih-Shultzman, I. et al Activity-dependent neuroprotective protein snippet NAP reduces tau hyperphosphorylation and enhances learning in a novel transgenic mouse model J. Pharmacol. Exp. Ther. (2007)
  5. [6]
    Hacohen-Kleiman, G. et al ADNP: Providing neuroprotection in autism -- the missing link Mol. Psychiatry (2018)
  6. [2]
    Gozes, I Activity-dependent neuroprotective protein: From gene to drug candidate Pharmacol. Ther. (2007)
  7. [4]
    Oz, S. et al The NAP motif of activity-dependent neuroprotective protein (ADNP) regulates dendritic spines through microtubule end binding proteins Mol. Psychiatry (2014)
Updated 2026-03-08Reviewed by Tides Research Team6 citationsSources: peptide-wiki-mdx, peptide-wiki-mdx-v2

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On this page

Overview
Reconstitution Calculator
Mechanism of Action
Research
Preclinical Cognitive Enhancement
Tau Interaction Studies
Microtubule Stabilization
Safety Profile
Pharmacokinetic Profile
Quick Start
Molecular Structure
Research Protocols
Interactions
Quality Indicators
FAQ
References
Related Peptides