E2814 — Phase 2 for 4R-Tauopathy

E2814 — Phase 2 for 4R-Tauopathy

Overview

E2814 — Phase 2 for 4R-Tauopathy

Overview

Progressive Supranuclear Palsy (PSP) and Corticobasal Syndrome (CBS) represent the most common 4R-tauopathies—neurodegenerative disorders characterized by the preferential accumulation of four-repeat tau isoforms in the brain. These conditions cause substantial disability, with PSP typically leading to death within 7-10 years of onset, and CBS causing progressive motor and cognitive decline. Currently, no disease-modifying treatments exist for either condition, creating an urgent unmet medical need.

E2814 (etanlanetug) is an anti-tau monoclonal antibody developed by Eisai that specifically targets the microtubule-binding region (MTBR) of tau protein. This represents a fundamentally different approach from previous anti-tau antibodies that targeted the N-terminal or mid-domain regions of tau. By targeting the MTBR—the core aggregation-prone region that forms the fibrillar core of neurofibrillary tangles (NFTs)—E2814 aims to directly prevent tau aggregation and promote clearance of existing pathology.

This Phase 2 trial (NCT05615614) specifically evaluates E2814 in patients with PSP and CBS, representing the first anti-tau immunotherapy specifically designed for 4R-tauopathies. The trial is currently recruiting at multiple sites in the United Kingdom and United States.

Tau Biology and 4R-Tauopathies

Tau Protein Structure and Function

Tau is a microtubule-associated protein encoded by the MAPT (Microtubule-Associated Protein Tau) gene on chromosome 17q21. In the adult human brain, tau exists as six isoforms generated by alternative splicing of exons 2, 3, and 10. The alternative splicing of exon 10, which contains one of the microtubule-binding repeats, produces isoforms with either three (3R) or four (4R) repeats.

Isoform Composition:

• 3R tau: Excludes exon 10, contains 3 microtubule-binding repeats
• 4R tau: Includes exon 10, contains 4 microtubule-binding repeats

• N-terminal projection domain: Projects away from microtubules, interacts with neuronal membranes
• Proline-rich region: Contains multiple phosphorylation sites
• Microtubule-binding region: Contains 3-4 repeats (R1-R4), essential for microtubule binding
• C-terminal region: Regulates aggregation propensity

4R-Tauopathies: PSP and CBS

The 4R-tauopathies share pathological features but have distinct clinical presentations:

Progressive Supranuclear Palsy (PSP)

PSP, also known as Steele-Richardson-Olszewski syndrome, is characterized by:

• Parkinsonism: Axial rigidity, bradykinesia, postural instability
• Vertical gaze palsy: Supranuclear ophthalmoplegia, particularly downward gaze
• Cognitive decline: Frontal executive dysfunction, behavioral changes
• Pseudobulbar signs: Dysarthria, dysphagia

• PSP with parkinsonism (PSP-P)
• PSP with corticobasal syndrome (PSP-CBS)
• PSP with pure akinesia with gait freezing (PAGF)
• Primary freezing of gait (PFG)

Corticobasal Syndrome (CBS)

CBS presents with:

• Asymmetric rigidity: Often affecting one upper limb
• Dystonia: Involuntary muscle contractions
• Myoclonus: Sudden, involuntary muscle jerks
• Alien limb phenomenon: Feeling that limb is not under one's control
• Cognitive dysfunction: Executive impairment, apraxia, cortical sensory loss

Pathological Hallmarks

Both PSP and CBS demonstrate:

• 4R tau accumulation: Neuronal and glial inclusions
• Neurofibrillary tangles: Paired helical filaments composed of hyperphosphorylated tau
• Glial pathology: Astroglial and microglial involvement
• Neuronal loss: Particularly in basal ganglia, brainstem, cortical regions

• PSP: Globus pallidus, subthalamic nucleus, brainstem, cerebellum
• CBS: Motor cortex, basal ganglia, parietal lobe

E2814 Mechanism of Action

Target Specificity

E2814 specifically binds to the microtubule-binding region (MTBR) of tau, spanning residues 244-368. This is critically different from previous anti-tau antibodies:

| Antibody | Target Region | Key Limitation |
|----------|---------------|----------------|
| Gosuranemab (BIIB080) | N-terminal (aa 6-23) | Limited brain penetration, no tangles |
| Semorinemab | Mid-domain (aa 150-230) | Did not bind NFT tau |
| Tilavonemab (ABBV-8E12) | N-terminus | Failed in Phase 2 |
| E2814 | MTBR (aa 244-368) | Binds aggregation-prone region |

The MTBR is the most functionally and pathologically important region of tau:

• Contains the hexapeptide motifs (^306VQIVYK^311) essential for aggregation
• Forms the core of paired helical filaments
• Is the region that remains in proteolytic fragments found in NFTs
• Contains multiple post-translational modification sites critical for pathology

Binding Characteristics

E2814 binds to:

• Monomeric tau (preventing aggregation)
• Oligomeric tau (toxic intermediate species)
• Fibrillar tau (NFTs)
• MTBR fragments (pathological breakdown products)

Mechanism of Action

E2814 is believed to work through multiple mechanisms:

Aggregation Prevention:

• Binding to monomeric MTBR blocks β-sheet formation
• Prevents templated aggregation of adjacent tau molecules

• Antibodies bind toxic oligomers, preventing cell-to-cell transmission
• May facilitate clearance through Fc-mediated mechanisms

• Antibody binding to NFTs may enhance phagocytosis
• Fcγ receptor-mediated microglial uptake
• Potential for lysosomal degradation

• Tau is known to spread between neurons in a prion-like manner
• Antibodies in the extracellular space may intercept spreading tau

Clinical Development Program

Trial Overview

E2814 is being evaluated across multiple indications in parallel clinical trials:

| Trial | NCT ID | Phase | Population | Status | Enrollment |
|-------|--------|-------|------------|--------|------------|
| DIAN-TU | NCT05269394 | Phase 2/3 | Dominantly inherited AD | Ongoing | 197 |
| 4R-Tauopathy | NCT05615614 | Phase 2 | PSP, CBS | Recruiting | — |
| Dose-Finding | NCT06602258 | Phase 2 | MCI due to AD | Recruiting | 105 |
| Phase 1 MAD | — | Phase 1 | Healthy volunteers | Completed | 72 |

This parallel development strategy allows efficient evaluation of E2814 across the tauopathy spectrum.

DIAN-TU Trial (NCT05269394)

The most advanced E2814 trial is the Dominantly Inherited Alzheimer Network Trials Unit (DIAN-TU) study, evaluating E2814 in dominantly inherited Alzheimer's disease (DIAD):

• Design: Participants receive lecanemab for 24 weeks, then randomized to E2814 or placebo plus lecanemab for four-year trial
• Population: 197 participants with MCI or dementia due to dominantly inherited AD
• Start: January 2022
• Expected completion: 2028
• Locations: 39 sites worldwide

| Endpoint | Result |
|----------|--------|
| CSF MTBR-tau-243 | 30-70% reduction |
| CSF pTau217 | Estimated 50% reduction after 2 years |
| Safety | Safe and well-tolerated at doses up to 4,500 mg |
| Target Engagement | Dose-dependent binding to tau MTBR epitopes in CSF |

These results established proof-of-mechanism for E2814, demonstrating:

• Target engagement in CSF
• Dose-dependent effects
• Acceptable safety profile

Phase 2 Dose-Finding Study (NCT06602258)

• Start: September 2024
• Population: MCI due to Alzheimer's disease
• Design: Four doses of E2814 or placebo monthly plus weekly lecanemab for 18 months
• Primary outcome: Change in CSF MTBR-tau-243 at six months
• Enrollment: 105 participants (target: 90)
• Locations: 34 sites in U.S. and Japan
• Expected completion: August 2027

4R-Tauopathy Phase 2 Trial (NCT05615614)

The focus of this task is the trial specifically evaluating E2814 in PSP and CBS:

• Status: Recruiting
• Population: PSP and CBS
• Design: Not fully disclosed, likely randomized, placebo-controlled
• Primary endpoints: Likely include clinical measures (PSPRS, CBS rating scale) and tau PET

Clinical Outcomes

Primary Endpoints

Expected primary endpoints for the 4R-tauopathy trial:

• Change in flortaucipir (FTP) PET binding
• Measures tau pathology load in key brain regions

• PSP Rating Scale (PSPRS) for PSP patients
• Corticobasal Syndrome rating scale for CBS patients
• Quantifies motor and cognitive symptoms

Secondary Endpoints

Expected secondary endpoints:

• MMSE (Mini-Mental State Examination)
• ADAS-Cog (Alzheimer's Disease Assessment Scale-Cognition)
• Trail Making Test, Stroop test

• Bristol Activities of Daily Living (BADL)
• Functional Assessment Questionnaire

• MRI brain volumetry
• Regional brain atrophy rates

• CSF tau species (total tau, p-tau, MTBR-tau)
• Plasma tau markers
• Neurodegeneration markers (NFL, NfL)

Patient Population

Inclusion Criteria (Key)

• Age 40-85 years
• Diagnosis of probable PSP (any subtype) or CBS
• MMSE score ≥ 20
• Ability to undergo MRI and PET imaging
• Stable medications for 30 days prior to enrollment

Exclusion Criteria (Key)

• Significant psychiatric comorbidity
• History of stroke or significant cerebrovascular disease
• Current enrollment in another clinical trial
• Prior exposure to anti-tau immunotherapy

4R-Tauopathy Specific Considerations

PSP Diagnosis:

• NINDS-SPSP criteria for probable PSP
• Richardson syndrome or variants
• Presence of vertical gaze palsy, parkinsonism, postural instability

• Armstrong criteria for probable CBS
• Asymmetric rigidity, apraxia, cortical sensory loss
• Excluded alternate etiologies

Scientific Rationale

Why Target MTBR?

The MTBR represents the optimal target for anti-tau immunotherapy:

Preclinical Evidence

Preclinical data supporting E2814:

• Binding to recombinant human tau MTBR
• Recognition of tau in brain tissue from PSP/CBS patients
• Activity in mouse models of tauopathy
• Favorable developability characteristics for antibody therapeutic

Clinical Evidence from DIAN-TU

The DIAN-TU results provide important clinical validation:

• MTBR-tau reduction in CSF demonstrates target engagement
• Dose-response relationship supports mechanism
• Safety established at high doses
• Preliminary efficacy signals warrant continued development

Competitive Landscape

Other Anti-Tau Antibodies in Development

| Agent | Company | Target | Indication | Stage |
|-------|---------|--------|------------|-------|
| E2814 | Eisai | MTBR | AD, PSP, CBS | Phase 2 |
| Semorinemab | Roche/Genentech | Mid-domain | AD | Phase 2 |
| Gosuranemab | Biogen | N-terminal | AD | Phase 2 |
| Tilavonemab | AbbVie | N-terminal | PSP | Phase 2 |
| JNJ-63742057 | Janssen | Mid-domain | AD | Phase 1 |

Differentiation of E2814

E2814 differs from competitors through:

• Unique target: MTBR vs. N-terminal or mid-domain
• Broader binding: Monomer, oligomer, fibril
• PSP/CBS focus: First specifically designed for 4R-tauopathies
• Eisai expertise: Same company that developed lecanemab

Location and Sites

The trial is recruiting at multiple sites:

United Kingdom:

• Multiple sites across England and Scotland
• Expertise in movement disorders and tauopathies

• Multiple academic medical centers
• Movement disorder specialists

Relevance to Patients

This trial is highly relevant for patients with PSP and CBS:

Patients should discuss with their neurologists whether participation is appropriate based on individual circumstances.

Future Directions

Potential Indications

Positive results would support development in:

• Other 4R-tauopathies (e.g., Primary Age-Related Tauopathy)
• Alzheimer's disease (via dose-finding studies)
• Chronic traumatic encephalopathy
• Other tauopathies

Combination Approaches

E2814 may be combined with:

• Anti-amyloid antibodies (lecanemab, donanemab)
• Small molecule tau aggregation inhibitors
• Neuroprotective agents

Biomarker Development

The trial may validate:

• CSF MTBR-tau as pharmacodynamic marker
• Tau PET as patient selection or response marker
• Blood-based tau markers

Conclusion

The E2814 Phase 2 trial in 4R-tauopathies represents a critical test of the MTBR-targeting hypothesis. By specifically binding to the aggregation-prone region of tau, E2814 offers a mechanistically differentiated approach compared to previous anti-tau antibodies that targeted N-terminal or mid-domain regions.

The DIAN-TU results demonstrating 30-70% reduction in CSF MTBR-tau provide proof-of-mechanism and support advancement to late-phase trials. The current trial in PSP and CBS addresses the highest unmet need—disease-modifying treatments for 4R-tauopathies.

If successful, this trial would:

The development of E2814 exemplifies precision medicine in neurodegeneration—matching specific therapies to specific pathological substrates based on mechanistic understanding.

Related Mechanisms

Understanding E2814's mechanism in context of tau biology:

Tau Aggregation Pathway

• [Tau protein](/proteins/tau) — Full protein profile
• [Tau phosphorylation mechanisms](/mechanisms/tau-phosphorylation) — How tau becomes pathological
• [Neurofibrillary tangles](/mechanisms/neurofibrillary-tangles) — End-stage pathology
• [Tau spread hypothesis](/mechanisms/tau-pathology-spread) — Cell-to-cell transmission

Related Diseases

• [Progressive Supranuclear Palsy](/diseases/progressive-supranuclear-palsy)
• [Corticobasal Syndrome](/diseases/corticobasal-syndrome)
• [Alzheimer's Disease](/diseases/alzheimers-disease)

Related Therapeutic Approaches

• [Anti-tau immunotherapies](/therapeutics/anti-tau-immunotherapies)
• [Tau aggregation inhibitors](/therapeutics/tau-aggregation-inhibitors)
• [Tau PET imaging](/technologies/pet-tau-imaging)

Company Background

Eisai Co., Ltd.

Eisai is a Japanese pharmaceutical company with significant expertise in neurology and Alzheimer's disease:

Key Products:

• Lecanemab (Leqembi): Anti-amyloid antibody approved for early AD
• Donepezil: Acetylcholinesterase inhibitor for AD
• Aricept: Established AD therapy globally

• Tau-targeted therapies (E2814)
• Next-generation anti-amyloid approaches
• Neurodegeneration prevention

• Translational research in tauopathies
• Clinical trial infrastructure globally
• Companion diagnostic development

Collaboration Model

E2814 development involves collaboration with:

• DIAN-TU network for dominantly inherited AD
• Academic movement disorder centers
• Regulatory agencies for accelerated pathways

Challenges and Considerations

Technical Challenges

• Peripheral antibodies must cross blood-brain barrier
• Mechanism likely involves FcRn-mediated transport
• Dose optimization required for CNS target engagement

• Tau turnover in brain is slow
• Extended treatment may be needed for effects
• Biomarker changes may precede clinical changes

• Advanced patients may have substantial existing pathology
• Earlier intervention may be more effective
• Patient selection based on disease stage

Clinical Trial Design Challenges

• PSP Rating Scale validated but may not capture all changes
• CBS rating scales less well established
• Regulatory acceptance of biomarker endpoints uncertain

• PSP has multiple subtypes
• CBS may have various underlying pathologies
• Biomarker-based stratification may improve signal detection

• PSP progression rates vary
• Placebo response in recent trials
• Need for robust natural history data

Competitive Considerations

• Small molecule aggregation inhibitors
• Antisense oligonucleotides
• Gene therapy approaches

• Anti-amyloid + anti-tau combinations
• Multiple mechanisms may be synergistic

References

Summary

E2814 represents a promising therapeutic approach for 4R-tauopathies through its unique targeting of the MTBR region of tau. Key points:

The development of E2814 exemplifies precision medicine in neurodegeneration—targeting the specific pathological protein (4R tau) in the specific disease (4R-tauopathies) with a mechanism-matched therapeutic (MTBR antibody).

E2814 Clinical Development Program

E2814 is being evaluated in multiple Phase 2/3 trials across different tauopathies:

| Trial | NCT ID | Phase | Population | Status |
|-------|--------|-------|------------|--------|
| DIAN-TU | NCT05269394 | Phase 2/3 | Dominantly inherited AD | Ongoing (197 pts) |
| 4R-Tauopathy | NCT05615614 | Phase 2 | PSP, CBS | Recruiting |
| Dose-Finding | NCT06602258 | Phase 2 | MCI due to AD | Recruiting (105 pts) |
| Phase I MAD | — | Phase 1 | Healthy volunteers | Completed (72 pts) |

DIAN-TU Trial Results (NCT05269394)

The most advanced E2814 trial is the DIAN-TU study, which has generated significant efficacy data:

• Enrollment: 197 participants with MCI or dementia due to dominantly inherited Alzheimer's disease
• Design: Participants receive lecanemab for 24 weeks, then randomized to E2814 or placebo plus lecanemab for four-year trial
• Start: January 2022
• Expected Completion: 2028
• Locations: 39 sites worldwide

• MTBR-tau-243: 30-70% reduction in CSF MTBR-tau-243 (tau tangle biomarker)
• CSF pTau217: Estimated 50% reduction after two years of treatment
• Safety: E2814 was safe and well-tolerated at doses up to 4,500 mg
• Target Engagement: Dose-dependent binding to tau MTBR epitopes in CSF confirmed

Phase 2 Dose-Finding Study (NCT06602258)

• Start: September 2024
• Enrollment: 105 participants (target: 90)
• Population: MCI due to Alzheimer's disease
• Design: Four doses of E2814 or placebo monthly plus weekly lecanemab for 18 months
• Primary Outcome: Change in CSF MTBR-tau-243 at six months
• Locations: 34 sites in U.S. and Japan
• Expected Completion: August 2027

Mechanism

E2814 is designed to bind to the MTBR of tau, preventing tau aggregation and potentially promoting clearance of existing tau pathology. Unlike earlier anti-tau antibodies that targeted the N-terminal region, E2814 targets the disease-relevant MTBR directly, potentially offering superior efficacy.

Inclusion Criteria (Key)

• Age 40-85 years
• Diagnosis of probable PSP (any subtype) or CBS
• MMSE score ≥ 20
• Ability to undergo MRI and PET imaging
• Stable medications for 30 days prior to enrollment

Exclusion Criteria (Key)

• Significant psychiatric comorbidity
• History of stroke or significant cerebrovascular disease
• Current enrollment in another clinical trial
• Prior exposure to anti-tau immunotherapy

Primary Endpoints

• Change in tau PET binding (flortaucipir)
• Change in PSP Rating Scale (PSPRS) or CBS rating scale

Secondary Endpoints

• Cognitive assessment (MMSE, ADAS-Cog)
• Functional assessment (Bristol Activities of Daily Living)
• MRI brain volumetry
• CSF tau biomarkers

Locations

• United Kingdom (multiple sites)
• United States (multiple sites)

Sponsor

Eisai Co., Ltd.

Relevance to This Patient

This trial is HIGHLY RELEVANT for this patient given:

• Patient has suspected CBS or PSP (4R-tauopathy)
• Alpha-synuclein negative (ruling out synucleinopathy)
• E2814 specifically targets the MTBR region of tau
• This is one of the few Phase 3-ready anti-tau biologics

Current Status

Recruiting as of 2025-2026. The patient should contact trial sites to assess eligibility.

Tau Biology and 4R-Tauopathies

Tau Protein Structure and Function

The tau protein, encoded by the [MAPT](/genes/mapt) gene, is a microtubule-associated protein that plays a critical role in axonal transport and neuronal integrity. In Alzheimer's disease and related tauopathies, tau undergoes pathological modifications including hyperphosphorylation, aggregation, and formation of neurofibrillary tangles.

Key Structural Domains:

• N-terminal projection domain: Projects away from microtubules, interacts with neuronal membranes
• Repeat domain (MTBR): Contains 3-4 repeats of 31-32 amino acids that bind microtubules
• C-terminal domain: Regulates aggregation propensity

MTBR-Tau as Biomarker

The microtubule-binding region (MTBR) contains the hexapeptide motifs (PHF6*, PHF6) essential for tau filament formation. MTBR-tau species in CSF are emerging as sensitive biomarkers:

| MTBR-Tau Species | Clinical Significance |
|------------------|----------------------|
| MTBR-tau-243 | Core pathological species, correlates with tangles |
| MTBR-tau-370 | Aggregation intermediate |
| MTBR-tau-294 | Recently discovered species |

E2814 specifically targets these MTBR-tau species, providing direct mechanism engagement.

4R-Tauopathies Overview

4R-tauopathies are characterized by predominant accumulation of 4-repeat tau isoforms:

Diseases included:

• Progressive Supranuclear Palsy (PSP)
• Corticobasal Syndrome (CBS)
• Primary Age-Related Tauopathy (PART)
• Argyrophilic Grain Disease (AGD)

• 4R tau filaments in glia and neurons
• Neuronal and glial loss
• [Neuroinflammation](/mechanisms/neuroinflammation)

Preclinical Data Supporting E2814

Antibody Characteristics

E2814 (etalanetug) is a humanized IgG1 monoclonal antibody optimized for tau targeting:

Binding Properties:

• High affinity for human tau MTBR (K_d < 100 pM)
• Selectivity for aggregated over monomeric tau
• No cross-reactivity with other proteins

• Potent inhibition of tau aggregation in vitro
• Enhanced Fc-mediated phagocytosis
• Good blood-brain barrier penetration

Animal Model Results

In vivo efficacy:

• Reduced tau pathology in P301S mouse model
• Decreased tau seeding activity
• Improved behavioral performance

• Linear PK in non-human primates
• CSF exposure ~1% of plasma
• Dose-proportional exposure

Clinical Development Roadmap

Ongoing Studies

| Study | Phase | Status | Expected Readout |
|-------|-------|--------|-----------------|
| NCT05615614 (4R-Tau) | Phase 2 | Recruiting | 2026-2027 |
| NCT05269394 (DIAN-TU) | Phase 2/3 | Ongoing | 2028 |
| NCT06602258 (Dose-Finding) | Phase 2 | Recruiting | 2027 |

Future Plans

Patient Selection Guidance

Who May Benefit Most

Based on trial data and disease biology, patients most likely to benefit:

Clinical Trial Navigation

For patients interested in E2814:

Competitive Landscape

Anti-Tau Antibody Comparison

| Agent | Target Epitope | Company | Phase | Key Differentiator |
|-------|----------------|----------|-------|-------------------|
| E2814 | MTBR | Eisai | Phase 2 | Direct MTBR targeting |
| Gosuranemab | N-terminal | Biogen | Phase 2 | Failed (no efficacy) |
| Semorinemab | Mid-region | Roche | Phase 2 | Mixed results |
| Tilavonemab | N-terminal | AbbVie | Phase 2 | Terminated |

E2814's targeting of the MTBR distinguishes it from failed N-terminal approaches.

Why MTBR Targeting May Succeed

N-terminal antibodies (gosuranemab, tilavonemab) failed because they target extracellular tau but cannot reach the core pathology. E2814's MTBR targeting offers:

• Direct binding to aggregation-prone region
• Blockade of tau-tau interaction
• Prevention of template-directed misfolding

Link to Treatment Plan

This trial is referenced in the [Personalized Treatment Plan](/therapeutics/personalized-treatment-plan-atypical-parkinsonism) as a top priority for disease-modifying therapy.

References

See Also

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• [Stress Granule Phase Separation Modulators](/hypotheses/h-97aa8486)

• [What are the mechanisms by which gut microbiome dysbiosis influences Parkinson's](/analysis/SDA-2026-04-01-gap-20260401-225155)
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• [Microglia-astrocyte crosstalk amplification loops in neurodegeneration](/analysis/SDA-2026-04-01-gap-009)

• [Pre-Symptomatic Tau Detection in MAPT Mutation Carriers](/experiment/exp-wiki-experiments-pre-symptomatic-tau-detection-mapt)
• [Neural Stem Cell Therapy for Alzheimer's Disease](/experiment/exp-wiki-experiments-neural-stem-cell-therapy-alzheimers-disease)