TPN-101 in PSP (NCT04993768)

Overview

Overview

TPN-101 is an oral small molecule tau metabolism modulator being developed for the treatment of Progressive Supranuclear Palsy (PSP). This Phase 2a study represents a critical milestone in the development of disease-modifying therapies for PSP, addressing the urgent unmet need for treatments that can slow or halt disease progression in this devastating neurodegenerative disorder["@nct"].

Trial Details

| Field | Value |
|-------|-------|
| NCT ID | NCT04993768 |
| Status | Phase 2a (Active, not recruiting) |
| Phase | Phase 2a |
| Sponsor | Translational Research Industries (TRI) |
| Study Design | Open-label, preliminary safety and tolerability |
| Intervention | TPN-101 oral administration |
| Enrollment | Approximately 40 participants |

Mechanism of Action

Tau Pathology in PSP

TPN-101 targets the core pathological mechanism in PSP: the abnormal metabolism and aggregation of tau protein. PSP is classified as a primary 4R-tauopathy[@irwin2013].

The therapeutic approach reflects the growing understanding of tau propagation as a prion-like process[@sweeney2017]:

TPN-101's Proposed Mechanism

• Modulate tau protein metabolism: Interfere with abnormal tau processing
• Reduce pathological tau species: Lower levels of hyperphosphorylated tau
• Protect neuronal function: Support microtubule stability

Scientific Rationale

Tau as a Therapeutic Target

The tau hypothesis in PSP is strongly supported by multiple lines of evidence[@boxer2020]:

Comparison with Other Tau-Targeted Approaches

| Approach | Examples | Advantages |
|----------|----------|------------|
| Small Molecules | TPN-101, LMTM | Oral bioavailability |
| Active Immunization | AADvac1 | Long-lasting immunity |
| Passive Immunization | ABBV-8E12, E2814 | High specificity |

PSP Disease Background

Clinical Features

PSP manifests with multiple core symptoms[@stamelou2019]:

• Vertical supranuclear gaze palsy (VSGP): Difficulty with downward eye movements
• Postural instability: Frequent falls, typically backward
• Parkinsonism: Bradykinesia, rigidity (axial > limbs)
• Cognitive dysfunction: Frontal executive impairment
• Dysphagia: Swallowing difficulties leading to aspiration risk

Clinical Subtypes

| Subtype | Prevalence | Key Features |
|---------|------------|--------------|
| Richardson's syndrome (PSP-RS) | ~50% | Classic presentation |
| PSP-parkinsonism (PSP-P) | ~25% | Better levodopa response |
| PSP-corticobasal syndrome (PSP-CBS) | ~10% | Cortical sensory loss |
| Pure akinesia with gait freezing (PAGF) | ~5% | Predominant gait freezing |

Neuropathology

The hallmark lesion is neurofibrillary tangles composed of hyperphosphorylated 4R-tau. Key regions affected include[@lees2017]:

• Substantia nigra pars compacta: Dopaminergic neuron loss
• Globus pallidus: Tau accumulation
• Brainstem nuclei: Colliculi, oculomotor nucleus

Current PSP Treatment Landscape

Symptomatic Treatments

Current management is primarily supportive[@kaufman2016]:

• Levodopa: Modest benefit in some PSP-P patients
• Botulinum toxin: For dystonia
• Physical therapy: Gait and balance training

Disease-Modifying Therapies in Development

• Tau Aggregation Inhibitors: Tolfenamic acid, Lithium
• Immunotherapies: Bepranemab, ABBV-8E12
• Neuroprotective Agents: CoQ10, TPN-101

Clinical Trial Design Considerations

Challenges in PSP Trials

PSP clinical trials face unique challenges[@litvan2011]:

Outcome Measures

• PSP Rating Scale (PSPRS): 36-item disease severity scale
• MDS-UPDRS: Motor and total scores

Significance of TPN-101

Regulatory Considerations

The FDA has granted orphan drug designation to several PSP therapies, providing:

• 7 years of market exclusivity upon approval
• Tax credits for clinical trials

See Also

• [Progressive Supranuclear Palsy](/diseases/progressive-supranuclear-palsy)
• [Tau Protein](/proteins/tau)](/proteins)
• [Tau Therapeutics Pipeline](/therapeutics/tau-therapeutics-pipeline)](/therapeutics)
• [MAPT Gene](/genes/mapt)

External Links

• [NCT04993768 on ClinicalTrials.gov](https://clinicaltrials.gov/study/NCT04993768)
• [CurePSP Foundation](https://curepsp.org/)
• [Movement Disorder Society](https://www.movementdisorders.org/)

Tau Biology and Therapeutic Targets

Tau Protein Structure and Function

The tau protein is encoded by the [MAPT](/genes/mapt) gene on chromosome 17q21 and plays critical roles in neuronal physiology:

Isoforms: Alternative splicing produces six tau isoforms in the adult human brain:

• 0N, 1N, 2N (based on N-terminal inserts)
• 3R, 4R (based on microtubule-binding repeat number)

• Microtubule stabilization and assembly
• [Axonal transport facilitation](/genes/ran)](/genes)
• [Neuronal plasticity regulation](/cell-types/neurons)
• DNA protection

• Phosphorylation at >45 sites
• Acetylation, methylation, ubiquitination
• Truncation and citrullination
• O-GlcNAcylation

Tau Aggregation in PSP

PSP is characterized by 4R-tau filament accumulation:

Neurofibrillary Tangles (NFTs):

• Paired helical filaments (PHF) and straight filaments
• Composed of hyperphosphorylated tau
• Progression follows Braak stages in AD, but distinct pattern in PSP

• Neuronal tangles and threads
• Glial tau pathology (tufted astrocytes, coiled bodies)
• Neuropil threads in affected regions

• Templated seeding (prion-like)
• Exosomal transport
• Trans-synaptic transmission

Therapeutic Strategies

Small Molecule Approaches

TPN-101 represents the tau metabolism modulation strategy:

| Mechanism | Example Compounds | Development Stage |
|-----------|------------------|-------------------|
| Aggregation inhibitors | Methylene blue (LMTM), curcumin | Phase 3 |
| Kinase inhibitors | Lithium (GSK-3β), tideglusib | Phase 2 |
| Phosphatase activators | TPN-101 | Phase 2 |
| Microtubule stabilizers | Davunetide | Phase 3 |

Immunotherapy Approaches

Active Vaccination:

• AADvac1: Tau peptide conjugate vaccine
• ACI-35: Liposome-based anti-phospho-tau vaccine

• ABBV-8E12 (gosuranemab): Anti-tau antibody
• E2814: Anti-tau antibody
• UCB0107: Humanized anti-tau antibody

Genetic Approaches

Antisense Oligonucleotides:

• BIIB080 (MAPT ASO): Phase 1/2
• IONIS-MAPTRx: Phase 1
• NIO752: Phase 1

• AAV-mediated MAPT knockdown
• CRISPR-based approaches (preclinical)

Clinical Development Considerations

Biomarker-Driven Development

TPN-101 development incorporates biomarker stratification:

Patient Selection

Enrichment strategies for clinical trials:

• Stage Selection: Early-stage patients (PSPRS < 40)
• Biomarker Confirmation: Elevated NfL, positive tau PET
• Genetic Stratification: Exclude secondary causes
• Exclusion of Mimics: Careful differential diagnosis

Outcome Measure Selection

Clinical endpoints must balance:

• Sensitivity: Detect small treatment effects
• Specificity: Measure disease-relevant domains
• Clinical Meaningfulness: Regulatory acceptance
• Regulatory Acceptance: Qualified endpoints

• PSPRS change at 12 months
• Clinical Global Impression of Change
• Disability milestone-free survival

• MRI brain volume change
• CSF NfL trajectory
• Cognitive battery performance

References