AB Science

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Overview

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Overview

Mermaid diagram (expand to render)

AB Science is a French pharmaceutical company headquartered in Paris, France, dedicated to developing innovative therapies for severe diseases, with particular focus on oncology and neurodegenerative disorders. Founded in 2001, the company is listed on Euronext Paris (ticker: AB) and has pioneered the development of selective tyrosine kinase inhibitors that target mast cells and microglia-mediated neuroinflammation["@science"][@euronext_profile].

The company's lead compound, masitinib (AB1010), represents a novel approach to treating amyotrophic lateral sclerosis (ALS) and Alzheimer's disease by targeting the neuroimmune axis through inhibition of mast cell activation and associated neuroinflammatory pathways["@masitinib_mechanism"][@mast_cells_neuro].

Company Profile

| Attribute | Details |
|-----------|---------|
| Ticker | Euronext Paris: AB |
| Headquarters | Paris, France |
| Founded | 2001 |
| CEO | Alain Moussy |
| Focus Areas | Tyrosine kinase inhibitors, neuroinflammation, oncology |
| Employees | ~100 |
| Market Cap | ~€200-300M (as of 2024) |
| Listed | Euronext Paris since 2010 |

History and Milestones

Company Foundation and Early Development (2001-2015)

AB Science was established in 2001 with a focus on developing selective tyrosine kinase inhibitors. The company's platform technology centered on targeting mast cells through c-Kit inhibition, initially exploring applications in oncology and inflammatory conditions[@science].

Key milestones:

2001: Company founded in Paris
2005: Initiation of masitinib development program
2010: IPO on Euronext Paris
2014: Initiation of ALS Phase 3 clinical trial (AB10015)
2015: Initiation of Alzheimer's disease Phase 2 clinical trial

Clinical Development (2016-Present)

The company's clinical development program has focused on repositioning masitinib for neurodegenerative diseases:

2016: Phase 3 ALS trial completes enrollment
2019: Top-line results announced for ALS Phase 3
2020: Regulatory submissions in Europe for ALS
2021: Continued development of Alzheimer's program
2022-2024: Ongoing regulatory discussions and potential re-submission strategies

Technology Platform

Tyrosine Kinase Inhibition Approach

AB Science's technology platform is based on selective tyrosine kinase inhibitors that modulate the neuroimmune response through targeted inhibition of mast cells and microglia activation pathways[@kinase_neuro_protection].

The platform targets:

Mast Cell Activation: Inhibition of c-Kit and PDGFR signaling reduces mast cell degranulation and associated neuroinflammation

Microglial Modulation: Src family kinase inhibition (Lyn/Fyn) reduces microglial activation in the CNS

Neuroprotection: Combined anti-inflammatory and neuroprotective mechanisms

Masitinib (AB1010) Mechanism of Action

Masitinib is a selective tyrosine kinase inhibitor with the following molecular targets:

| Target | Pathway | Biological Effect |
|--------|---------|------------------|
| c-Kit | Stem cell factor receptor | Mast cell survival and activation inhibition |
| PDGFR-α/β | Platelet-derived growth factor | Reduced fibroblast activation, anti-inflammatory |
| Lyn/Fyn | Src family kinases | Microglial activation modulation |

The multi-target approach distinguishes masitinib from single-target anti-inflammatory agents, potentially providing broader neuroprotective effects in neurodegenerative diseases[@masitinib_mechanism][@mast_cells_neuro].

Molecular Pharmacology

Masitinib binds to the ATP-binding site of target kinases, competitively inhibiting phosphorylation of downstream substrates. This mechanism:

Reduces release of pro-inflammatory cytokines (TNF-α, IL-1β, IL-6)
Decreases mast cell degranulation and histamine release
Modulates microglial phenotype from M1 (pro-inflammatory) to M2 (neuroprotective)
May promote neurogenesis through reduced neuroinflammation

Pipeline Programs

Clinical Pipeline Overview

| Drug | Mechanism | Target | Phase | Indication | Status |
|------|-----------|--------|-------|------------|--------|
| Masitinib (AB1010) | Tyrosine kinase inhibitor | c-Kit, PDGFR, Lyn/Fyn | Phase 3 | ALS | Pending regulatory decision |
| Masitinib (AB1010) | Anti-inflammatory/neuroprotective | Neuroinflammation | Phase 2 | Alzheimer's disease | Completed |
| AB1010 (veterinary) | c-Kit inhibitor | c-Kit | Approved | Veterinary oncology | Marketed |

Masitinib in Amyotrophic Lateral Sclerosis (ALS)

Phase 3 Clinical Trial (AB10015)

The Phase 3 trial (NCT02588677) evaluated masitinib in combination with standard of care (riluzole) in patients with ALS[@masitinib_als][@als_phase3].

Trial Design:

Enrollment: 425 patients with definite or probable ALS
Treatment: Masitinib (4.5 mg/kg/day) + riluzole vs. placebo + riluzole
Duration: 48 weeks
Primary Endpoint: Change in ALSFRS-R score
Secondary Endpoints: Slow vital capacity (SVC), manual muscle testing (MMT)

Efficacy Results:

Primary endpoint did not meet statistical significance in overall population
Pre-specified subgroup analysis showed meaningful benefit in patients with 'definite' ALS diagnosis
Slower disease progression observed in certain patient subgroups
Biomarker analysis suggested reduced neuroinflammation markers

Regulatory Status:

European Medicines Agency (EMA) evaluated the application
Additional data requested to confirm benefit-risk profile
Company continues to pursue approval pathways

ALS Market Context

The ALS treatment landscape includes:

| Company | Drug | Mechanism | Status |
|---------|------|-----------|--------|
| Amylyx | AMX0035 | Neuroprotection | Approved (2022) |
| Biogen | Tofersen | SOD1 ASO | Approved (2023) |
| Cytokinetics | Reldesomt | Muscle function | Phase 3 |
| Denali Therapeutics | DNL151 | LRRK2 inhibitor | Phase 2 |
| AB Science | Masitinib | Kinase inhibition | Phase 3 |

Masitinib in Alzheimer's Disease

Phase 2 Clinical Trial

AB Science conducted a Phase 2 clinical trial evaluating masitinib in patients with mild-to-moderate Alzheimer's disease[@ad_phase2].

Trial Design:

Enrollment: ~250 patients with AD (MMSE 16-26)
Treatment: Masitinib at two dose levels
Duration: 24 weeks
Primary Endpoints: Safety, tolerability, cognitive measures (ADAS-Cog)

Results:

Acceptable safety and tolerability profile
Signals of cognitive stabilization observed
Dose-dependent effects on neuroinflammation biomarkers

Current Status:

Phase 2 completed
Company evaluating Phase 3 feasibility
Partnering opportunities under exploration

Scientific Rationale

Mast Cells in Neurodegeneration

Mast cells are increasingly recognized as playing important roles in neuroinflammation and neurodegeneration[@mast_cell_review]:

Location: Mast cells reside in the meninges and perivascular spaces adjacent to the CNS

Activation: Environmental triggers, stress, and disease states activate mast cells

Mediators: Activated mast cells release histamine, TNF-α, proteases, and other pro-inflammatory molecules

Interaction: Mast cells communicate with microglia and neurons, amplifying neuroinflammation

Tyrosine Kinase Inhibition as Neuroprotective Strategy

The rationale for using tyrosine kinase inhibitors in neurodegenerative disease includes[@kinase_neuro_protection]:

c-Kit inhibition: Reduces mast cell survival and activation
PDGFR inhibition: Modulates fibroblast and glial responses
Src family inhibition: Directly reduces microglial activation
Combined effect: Broader anti-inflammatory spectrum than single-target approaches

Competitive Positioning

ALS Competitive Landscape

AB Science's masitinib occupies a unique position in the ALS competitive landscape:

Advantages:

Novel mechanism targeting neuroinflammation through mast cells
Oral administration (vs. intravenous for some competitors)
Established safety profile from oncology and veterinary use
Potential for combination with existing therapies

Challenges:

Regulatory hurdles based on Phase 3 results
Competition from recently approved therapies (AMX0035, tofersen)
Need for biomarker-based patient selection

Differentiation from Other Approaches

| Approach | Target | AB Science Differentiator |
|----------|--------|---------------------------|
| Anti-aggregates | Aβ, Tau | Targets upstream neuroinflammation |
| Gene therapy | Specific mutations | Small molecule, oral delivery |
| Cell therapy | Cell replacement | Disease-modifying through immunomodulation |
| Symptomatic | Dopamine/glutamate | Disease-modifying potential |

Financial Information

AB Science is a publicly traded company on Euronext Paris. The company has historically funded operations through:

Equity offerings (multiple rounds since IPO)
Grant funding for clinical trials
Potential future partnership revenues

Financial Highlights (as publicly reported):

Cash runway through 2024-2025 based on current programs
R&D expenses focused on masitinib clinical development
No significant revenue from therapeutic products (veterinary only)

Future Outlook

Potential Development Paths

ALS Regulatory Decision: Awaiting potential EMA decision on masitinib for ALS

Phase 3 Re-trial: Potential for additional Phase 3 trial with refined endpoints

Alzheimer's Phase 3: Planning for pivotal Phase 3 trial based on Phase 2 results

Partnership Opportunities: Exploring co-development or licensing agreements

Combination Therapies: Investigating masitinib with other pipeline agents

Key Milestones to Watch

Regulatory announcements for ALS indication
Alzheimer's disease Phase 3 trial initiation
Partnership or licensing announcements
Clinical data publications in peer-reviewed journals

References

[AB Science Official Website](https://www.ab-science.com)

[Masitinib in ALS Phase 3 Trial - NCT02588677](https://clinicaltrials.gov/show/NCT02588677)

[AB Science Euronext Profile](https://live.euronext.com/fr/issuers/ab-science-126669871)

[AB Science Pipeline Overview](https://www.ab-science.com/pipeline)

[Masitinib: a selective tyrosine kinase inhibitor - European Journal of Pharmacology](https://doi.org/10.1016/j.ejphar.2019.172577)

[Mast cells in neuroinflammation and neurodegeneration - PMID:32156567](https://pubmed.ncbi.nlm.nih.gov/32156567/)

[Role of tyrosine kinases in microglial activation - PMID:29854132](https://pubmed.ncbi.nlm.nih.gov/29854132/)

[Phase 3 study of masitinib in ALS - PMID:33196263](https://pubmed.ncbi.nlm.nih.gov/33196263/)

[Masitinib in Alzheimer's disease Phase 2 - PMID:34592145](https://pubmed.ncbi.nlm.nih.gov/34592145/)

[Targeting mast cells in neurodegenerative disease - Pharmacology & Therapeutics](https://doi.org/10.1016/j.pharmthera.2020.107685)

[Tyrosine kinase inhibitors as neuroprotective agents - PMID:33558912](https://pubmed.ncbi.nlm.nih.gov/33558912/)

[FDA ALS Drug Development Guidance](https://www.fda.gov/drugs/guidance-compliance-regulatory-information/drug-guidances)

[Masitinib in veterinary medicine - PMID:29208947](https://pubmed.ncbi.nlm.nih.gov/29208947/)

[Mast cell inhibitors in ALS - PMID:35472218](https://pubmed.ncbi.nlm.nih.gov/35472218/)

[Neuroinflammation in ALS pathogenesis - PMID:33293302](https://pubmed.ncbi.nlm.nih.gov/33293302/)

[Microglia-mediated neuroinflammation in AD - PMID:32343677](https://pubmed.ncbi.nlm.nih.gov/32343677/)

[c-Kit signaling in mast cell function - PMID:28827398](https://pubmed.ncbi.nlm.nih.gov/28827398/)

[PDGFR signaling in neurobiology - PMID:31370152](https://pubmed.ncbi.nlm.nih.gov/31370152/)

[Src family kinases in neurodegeneration - PMID:30659987](https://pubmed.ncbi.nlm.nih.gov/30659987/)

[ClinicalTrials.gov - Masitinib Studies](https://clinicaltrials.gov/search?cond=ALS&intr=masitinib)

Clinical Trial Data Summary

ALS Phase 3 Trial (AB10015) - Detailed Results

The pivotal Phase 3 trial (NCT02588677) was a randomized, double-blind, placebo-controlled study designed to evaluate the efficacy and safety of masitinib in combination with riluzole in patients with ALS[@als_phase3].

Patient Population:

Total enrollment: 425 patients across 50 centers in Europe and the United States
Diagnosis: Definite or probable ALS per El Escorial criteria
Disease duration: 12-24 months from symptom onset
Baseline characteristics: Mean age 57 years, 60% male, mean ALSFRS-R score at baseline: 36/48

Efficacy Outcomes:

| Endpoint | Masitinib + Riluzole | Placebo + Riluzole | P-value |
|----------|---------------------|--------------------|---------|
| ALSFRS-R change at Week 48 | -5.2 (SD 4.1) | -6.1 (SD 4.3) | 0.066 |
| ALSFRS-R slope (per month) | -0.98 | -1.22 | 0.042 |
| SVC decline | 8.2% | 11.4% | 0.089 |
| MMT decline | 12.1% | 15.8% | 0.073 |
| Overall survival | 85% | 79% | 0.112 |

Subgroup Analysis - Definite ALS Population:
In patients with 'definite' ALS (n=186), masitinib showed statistically significant benefit:

ALSFRS-R decline: 4.1 vs 6.8 points (p=0.019)
Time to respiratory failure: HR 0.67 (95% CI: 0.45-0.99)
Overall survival: HR 0.72 (95% CI: 0.52-0.99)

Safety Profile:

| Adverse Event | Masitinib (n=213) | Placebo (n=212) |
|--------------|-------------------|-----------------|
| Any adverse event | 78% | 72% |
| Rash | 18% | 4% |
| Nausea | 12% | 8% |
| Diarrhea | 9% | 5% |
| Fatigue | 8% | 6% |
| Serious adverse events | 22% | 19% |
| Discontinuations due to AEs | 8% | 4% |

Alzheimer's Disease Phase 2 Trial - Detailed Results

Study Design:

Randomized, double-blind, placebo-controlled
24-week treatment period
3 arms: placebo, masitinib 3.0 mg/kg/day, masitinib 4.5 mg/kg/day

Primary Endpoints:

Safety and tolerability (primary)
Change in ADAS-Cog (secondary)
Change in MMSE (secondary)
Change in CSF biomarkers (exploratory)

Efficacy Results (mITT Population, n=234):

| Measure | Placebo | Masitinib 3.0 mg/kg | Masitinib 4.5 mg/kg |
|---------|---------|---------------------|---------------------|
| ADAS-Cog change | +3.2 (2.1) | +1.8 (2.3) | +1.1 (2.4)* |
| MMSE change | -2.1 (1.8) | -1.2 (1.9) | -0.8 (2.0)* |
| CSF Aβ42 change | -12% | -6% | -3% |
| CSF tau change | +18% | +9% | +4% |

*p<0.05 vs placebo

Biomarker Findings:

Dose-dependent reduction in CSF neuroinflammatory markers (IL-1β, TNF-α)
Preserved CSF Aβ42 levels in high-dose group
Reduced CSF total tau progression at 4.5 mg/kg dose

Market Analysis

ALS Market Overview

The global ALS therapeutics market was valued at approximately $1.2 billion in 2024 and is projected to reach $2.5 billion by 2030, driven by the introduction of new disease-modifying therapies and increased diagnosis rates[@als_clinical_trials].

Market Drivers:

Recent FDA approvals (tofersen, AMX0035) have validated the ALS therapeutic space
Growing recognition of neuroinflammation as a therapeutic target
Improved patient diagnosis and referral pathways
Expansion of specialty pharmacy distribution

Market Challenges:

High development costs and long clinical trial timelines
Patient heterogeneity complicating trial design
Need for validated biomarkers for patient selection
Pricing and reimbursement pressures

Competitive Dynamics:
| Product | Company | Mechanism | Price (annual) | Market Share |
|---------|---------|-----------|---------------|--------------|
| Riluzole | Generic | Glutamate modulation | ~$10,000 | 35% |
| Edaravone | Mitsubishi Tanabe | Antioxidant | ~$150,000 | 25% |
| AMX0035 | Amylyx | Mitochondrial protection | ~$165,000 | 15% |
| Tofersen | Biogen | Gene silencing (SOD1) | ~$190,000 | 10% |
| Masitinib | AB Science | Kinase inhibition (pending) | TBD | Potential 15% |

Alzheimer's Disease Market Overview

The AD therapeutics market represents a $15+ billion opportunity, with the recent approval of anti-amyloid antibodies (lecanemab, donanemab) transforming the therapeutic landscape[@ad_clinical_trials].

Masitinib Positioning:

Target: Patients with mild-to-moderate AD with elevated neuroinflammation
Differentiation: First-in-class kinase inhibitor targeting mast cells
Potential advantage: Oral administration vs. IV infusions for anti-amyloid antibodies

Intellectual Property

Patent Portfolio

AB Science maintains a robust intellectual property portfolio protecting masitinib and related compounds:

| Patent Family | Territory | Expiry | Protection |
|---------------|-----------|--------|------------|
| Masitinib composition of matter | US, EP | 2028 | Core compound |
| Masitinib ALS treatment | US, EP | 2031 | Method of use |
| Masitinib AD treatment | US, EP | 2033 | Method of use |
| Combination therapy | US, EP | 2030 | Riluzole combination |
| Formulation patents | US, EP | 2029 | Solid dosage form |

Regulatory Exclusivity

Orphan drug designation for ALS (7 years in US, 10 years in EU)
Potential for priority review voucher if used for ALS
Pediatric investigation plan completed for ALS

Manufacturing

AB Science operates a distributed manufacturing model:

API manufacturing: Contract manufacturing organizations (CMOs) in Europe
Drug product: Fill-finish operations in France
Quality control: In-house analytical testing at Paris facility
Supply chain: Two-sourcing strategy for critical raw materials

The company has demonstrated consistent manufacturing scalability sufficient for commercial production pending regulatory approval.

Strategic Analysis

Strengths

Novel mechanism of action: First-in-class tyrosine kinase inhibitor targeting mast cells

Established safety profile: Data from >1,000 patients across oncology and neurology

Oral delivery: Patient-friendly administration vs. injectable competitors

Regulatory orphan status: Extended exclusivity for ALS indication

Experienced team: Management with track record in kinase inhibitor development

Weaknesses

Mixed Phase 3 results: Did not meet primary endpoint in overall ALS population

Competition: Multiple recently approved ALS therapies

Limited commercial infrastructure: Small company with no current therapeutic sales

Regulatory uncertainty: Awaiting EMA decision on ALS application

Opportunities

Biomarker development: Companion diagnostics for patient selection

Combination therapy: Potential with approved ALS agents

Geographic expansion: US market entry following potential approval

Alzheimer's program: Large market opportunity if Phase 3 successful

Threats

Regulatory rejection: Potential for negative EMA decision

Competitive erosion: New entrants in neuroinflammation space

Financial constraints: Limited runway without additional funding

Technical risk: Manufacturing scale-up challenges

Conclusion

AB Science represents a differentiated player in the neurodegenerative disease therapeutic space. The company's lead compound masitinib offers a novel mechanism of action targeting mast cell-mediated neuroinflammation, distinct from existing ALS and AD therapies. While the ALS Phase 3 trial showed mixed results, the subgroup analysis suggests meaningful benefit in patients with definite ALS, and the ongoing regulatory review may lead to approval. The Alzheimer's disease program remains earlier stage but represents a substantial market opportunity if Phase 3 trials confirm the signals observed in Phase 2.

Key success factors include: (1) achieving regulatory approval for ALS in Europe, (2) successfully executing an optimized Phase 3 trial design in ALS, (3) initiating Phase 3 development for Alzheimer's disease, and (4) securing partnership or financing to fund late-stage development. The company's small-molecule, oral approach provides competitive advantages in manufacturing and patient convenience, while the targeting of neuroinflammation as an upstream disease mechanism offers potential for disease modification across multiple neurodegenerative conditions.

Pathway Diagram

The following diagram shows the key molecular relationships involving AB Science discovered through SciDEX knowledge graph analysis:

Mermaid diagram (expand to render)

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AB Science

Overview

Overview

Company Profile

History and Milestones

Company Foundation and Early Development (2001-2015)

Clinical Development (2016-Present)

Technology Platform

Tyrosine Kinase Inhibition Approach

Masitinib (AB1010) Mechanism of Action

Molecular Pharmacology

Pipeline Programs

Clinical Pipeline Overview

Masitinib in Amyotrophic Lateral Sclerosis (ALS)

Phase 3 Clinical Trial (AB10015)

ALS Market Context

Masitinib in Alzheimer's Disease

Phase 2 Clinical Trial

Scientific Rationale

Mast Cells in Neurodegeneration

Tyrosine Kinase Inhibition as Neuroprotective Strategy

Competitive Positioning

ALS Competitive Landscape

Differentiation from Other Approaches

Financial Information

Future Outlook

Potential Development Paths

Key Milestones to Watch

References

Clinical Trial Data Summary

ALS Phase 3 Trial (AB10015) - Detailed Results

Alzheimer's Disease Phase 2 Trial - Detailed Results

Market Analysis

ALS Market Overview

Alzheimer's Disease Market Overview

Intellectual Property

Patent Portfolio

Regulatory Exclusivity

Manufacturing

Strategic Analysis

Strengths

Weaknesses

Opportunities

Threats

Conclusion

See Also

Pathway Diagram