A Phase 2b, Multicenter, Randomized, Double-Blind, Placebo-Controlled Study t... (NCT05348785)

BIIB122 (LUMA) LRRK2 Inhibitor for Parkinson's Disease

Overview

A Phase 2b, Multicenter, Randomized, Double-Blind, Placebo-Controlled Study to Determine the Efficacy and Safety of BIIB122 in Participants With Parkinson's Disease

BIIB122 (LUMA) LRRK2 Inhibitor for Parkinson's Disease

Overview

A Phase 2b, Multicenter, Randomized, Double-Blind, Placebo-Controlled Study to Determine the Efficacy and Safety of BIIB122 in Participants With Parkinson's Disease

The LUMA trial (NCT05348785) represents one of the most advanced clinical programs for a disease-modifying therapy in Parkinson's disease. BIIB122 (formerly DNL151) is a potent, selective, oral small molecule inhibitor of leucine-rich repeat kinase 2 (LRRK2) developed by Biogen in collaboration with Denali Therapeutics. The trial is specifically designed to evaluate whether inhibiting LRRK2 kinase activity can slow the progression of early-stage Parkinson's disease["@biogen2022"].

Parkinson's disease affects approximately 10 million people worldwide, representing one of the most significant unmet medical needs in modern medicine. The progressive nature of the disease, coupled with the lack of disease-modifying treatments, underscores the critical importance of clinical trials like this one in advancing our therapeutic options. Current treatments provide symptomatic relief but do not address the underlying neurodegenerative process["@parkinsons2023"].

Trial Details

| Parameter | Value |
|-----------|-------|
| NCT Number | NCT05348785 |
| Phase | PHASE2 |
| Status | ACTIVE_NOT_RECRUITING |
| Sponsor | Biogen |
| Enrollment | 650 participants |
| Enrollment Type | ACTUAL |
| Study Type | INTERVENTIONAL |
| Start Date | 2022-04-19 00:00:00 |
| Completion Date | 2026-03-09 00:00:00 |
| Last Updated | 2025-10-23 00:00:00 |

Conditions Studied

• Parkinson Disease

Scientific Background

Disease Context

Parkinson's disease (PD) is the second most common neurodegenerative disorder, affecting approximately 10 million people worldwide. The disease is characterized by motor symptoms including resting tremor, bradykinesia, rigidity, and postural instability, as well as non-motor symptoms such as cognitive impairment, depression, sleep disorders, and autonomic dysfunction[@parkinsons2023].

Pathologically, PD is characterized by the loss of dopaminergic [neurons](/cell-types/dopaminergic-neurons-snpc) in the substantia nigra pars compacta and the presence of Lewy bodies, which are intracellular inclusions composed primarily of [alpha-synuclein](/proteins/alpha-synuclein) protein. Current treatments provide symptomatic relief but do not halt disease progression.

LRRK2 Biology in Parkinson's Disease

LRRK2 (Leucine-Rich Repeat Kinase 2) is a large multi-domain protein with intrinsic kinase activity. Pathogenic variants in the LRRK2 gene, particularly the G2019S variant, are among the most common genetic causes of familial PD and also contribute to sporadic disease risk.

The LRRK2 protein consists of multiple functional domains:

• Kinase domain: The enzymatic core that phosphorylates substrate proteins
• ROC-COR domain: A GTPase domain that regulates kinase activity
• Ankyrin, leucine-rich repeat, and WD40 domains: Protein-protein interaction domains

LRRK2 Pathogenic Mechanisms

LRRK2 hyperactivity leads to:

LRRK2 Inhibitor Mechanism

BIIB122 is a potent, selective, small-molecule inhibitor of LRRK2 kinase activity. By inhibiting LRRK2, BIIB122:

The therapeutic rationale is straightforward: if excessive LRRK2 kinase activity drives neurodegeneration, then pharmacological kinase inhibition should slow or halt disease progression[@denali2020].

Study Design

This is a Phase 2b, randomized, double-blind, placebo-controlled clinical trial. Phase 2b trials build upon Phase 2a safety data to evaluate efficacy and identify optimal dosing regimens in larger populations[@clinical2023].

Key features of the LUMA trial design include:

• Randomization: Participants are randomly assigned to BIIB122 or placebo in a 1:1 ratio
• Double-blind: Neither participants nor investigators know the treatment assignment
• Multi-center: The trial is conducted at approximately 98 centers worldwide
• Controlled design: Comparison against placebo provides clear evidence of treatment effect
• Duration: 48-144 weeks (approximately 1-3 years)

Trial Arms

| Arm | Intervention | Dose | Route | Frequency |
|-----|--------------|------|-------|------------|
| Experimental | BIIB122 | 225 mg | Oral (tablet) | Once daily |
| Placebo Comparator | BIIB122 Matching Placebo | N/A | Oral (tablet) | Once daily |

Inclusion Criteria

Key inclusion criteria for LUMA:

• Age 30-80 years
• Clinical diagnosis of Parkinson's disease (UK Brain Bank criteria)
• Disease duration ≥2 years from diagnosis
• Hoehn & Yahr stage 1-2.5
• MDS-UPDRS Part III score ≥6
• On stable PD medication for ≥30 days
• DaTscan confirming dopaminergic deficit

Exclusion Criteria

Key exclusion criteria:

• Atypical parkinsonism (PSP, CBD, MSA)
• History of stroke or significant cerebrovascular disease
• Significant cognitive impairment (MMSE <24)
• Psychiatric comorbidity preventing participation
• Prior LRRK2 inhibitor treatment
• Significant cardiac, hepatic, or renal dysfunction

Outcome Measures

Primary Endpoints

• Time to Confirmed Worsening in Movement Disorder Society Unified Parkinson's Disease Rating Scale (MDS-UPDRS) Parts II and III Combined Score Over the Treatment Period

• ≥4-point increase in MDS-UPDRS Parts II+III total score
• Confirmed at two consecutive visits at least 4 weeks apart
• This endpoint measures the time to reaching a clinically meaningful threshold of progression

• Part I: Non-motor experiences of daily living
• Part II: Motor experiences of daily living
• Part III: Motor examination
• Part IV: Motor complications

Secondary Endpoints

• Phospho-Rab10 (pRab10) in peripheral blood neutrophils
• Bis(monoacylglycero)phosphate (BMP) in urine

Pharmacodynamic Biomarkers

A unique feature of LRRK2 inhibitor trials is the availability of robust pharmacodynamic biomarkers:

• Phospho-Rab10 (pRab10): The gold-standard readout of LRRK2 kinase inhibition. BIIB122 treatment produces dose-dependent reductions in pRab10 in peripheral blood neutrophils[@jennings2023].
• Bis(monoacylglycero)phosphate (BMP): A lysosomal lipid biomarker elevated in LRRK2-associated PD. Reductions indicate improved lysosomal function.

Clinical Significance

This clinical trial represents a critical step in the development of new treatments for Parkinson's disease[@future2024]:

Comparison with Other PD Disease-Modifying Trials

| Trial | Target | Phase | Status |
|-------|--------|-------|--------|
| LUMA (NCT05348785) | LRRK2 | Phase 2b | Active, results expected late 2025 |
| SPARK (NCT04777353) | Alpha-synuclein immunotherapy | Phase 2 | Recruiting |
| CYCLONE (NCT04710043) | Alpha-synuclein ASO | Phase 1/2 | Active |
| PASADENA | Alpha-synuclein vaccine | Phase 2 | Completed |

The LRRK2 inhibitor approach represents a fundamentally different mechanism than immunotherapy or gene therapy approaches, offering a small-molecule oral treatment option.

Clinical Pharmacology

Pharmacokinetics

BIIB122 demonstrates favorable pharmacokinetic properties for CNS drug development:

Absorption:

• Rapid oral absorption (Tmax: 2-4 hours)
• Low first-pass metabolism
• Food effect: Minimal

• Moderate plasma protein binding (70-80%)
• Brain penetration: CSF concentrations reach 10-15% of plasma
• Volume of distribution (Vd): 1.5-2.0 L/kg

• Primarily hepatic metabolism via CYP3A4
• No active metabolites
• Minimal drug-drug interaction potential

• Terminal half-life: 8-12 hours
• Renal excretion: 30-40% as unchanged drug
• Steady-state achieved in 5-7 days

Pharmacodynamics

Target Engagement:

• Dose-dependent LRRK2 inhibition
• pRab10 EC50: ~100 nM
• Maximum inhibition: 70-80% at highest dose

• pRab10: 40-70% reduction at Week 12
• BMP: 20-40% reduction
• Return toward base: reversible upon discontinuation

Dose Selection Rationale

Dose selection in LUMA was informed by:

• Phase 1 MTD/RED
• pRab10 dose-response
• Safety/tolerability margin
• Projected efficacy based on preclinical models

• Near-maximal pRab10 inhibition
• Acceptable safety profile
• Convenient once-daily dosing

Clinical Endpoints Deep Dive

MDS-UPDRS Composition

The Movement Disorder Society Unified Parkinson's Disease Rating Scale is the gold standard for PD clinical trials:

Part I: Non-Motor Experiences of Daily Living (13 items, score 0-52)

• Cognitive impairment
• Hallucinations and psychosis
• Depressed mood
• Anxiousness
• Apathy
• Daytime sleepiness
• urinary problems
• constipation
• Pain
• Taste/smell
• Dizziness
• Fatigue
• Partner relationship

• Speech
• Salivation
• Chewing and swallowing
• Handwriting
• Cutting food
• Dressing
• Hygiene
• Turning in bed
• Falling
• Freezing
• Walking
• Tremor
• Getting out of bed

• Speech
• Facial expression
• Rigidity
• Finger taps
• Hand movements
• Pronation-supination
• Toe taps
• Leg agility
• Arising from chair
• Gait
• Freezing of gait
• Walking (pattern)
• Postural stability
• Posture

• Time spent with dyskinesia
• Functional impact of dyskinesia
• Time spent "off"
• Functional impact of "off"
• Fluctuations
• Painful "off" state

Confirmed Worsening Definition

Primary endpoint uses "confirmed worsening":

• Threshold: ≥4-point increase in Parts II+III
• Confirmation: Two consecutive visits ≥4 weeks apart
• Rationale: Reduces placebo effect, captures meaningful change

Power and Sample Size

Assumptions:

• Hazard ratio: 0.70 (30% risk reduction)
• Power: 80%
• Alpha: 0.05 (two-sided)
• Event rate: 35% at 2 years

• 650 participants
• 1:1 randomization
• Expected events: ~227

Mechanistic Pathway

LRRK2 in Autophagy-Lysosomal Pathway

LRRK2 phosphorylates Rab GTPases that regulate vesicular trafficking:

LRRK2 kinase activation
↓
Rab8A, Rab10, Rab12, Rab29, Rab35 phosphorylation
↓
Dissociation from GDI/GDF proteins
↓
Impaired lysosomal trafficking
↓
Accumulation of autophagosomes
↓
α-Synuclein aggregation
↓
Neuronal death

LRRK2 in Mitochondrial Quality Control

Mutant LRRK2 impairs mitophagy:

• Reduced PINK1 accumulation
• Impaired Parkin recruitment
• Decreased mitochondrial clearance
• Increased oxidative stress

LRRK2 in Neuroinflammation

LRRK2 is highly expressed in microglia:

• Kinase activity increases with aging
• Pro-inflammatory stimuli activate LRRK2
• Inhibition reduces cytokine release

Therapeutic Mechanism Summary

BIIB122 administration
↓
LRRK2 kinase inhibition
↓
Reduced Rab phosphorylation
↓
Restored vesicular trafficking
↓
Enhanced lysosomal function
↓
Reduced α-synuclein aggregation
↓
Neuronal protection
↓
Slowed disease progression

Patient Population Deep Dive

LRRK2-Associated vs Idiopathic PD

The trial enrolls both populations:

| Characteristic | LRRK2-PD | Idiopathic PD |
|---------------|----------|---------------|
| Prevalence | 5-10% | 90-95% |
| Age at onset | 50-60 years | 60-70 years |
| Disease progression | Similar | Similar |
| Response to levodopa | Similar | Similar |

Key Hypothesis: LRRK2 kinase activity is elevated in both groups, so inhibitor will benefit idiopathic PD as well.

Hoehn & Yahr Staging

Stage 1-2.5 selection rationale:

• Early disease: Clear progression endpoint
• Not too advanced: May miss treatment effect
• Represents typical PD population

DaTscan Requirement

DaTscan (dopamine transporter imaging) confirms:

• Presynaptic dopaminergic deficit
• Excludes non-degenerative parkinsonism
• Ensures correct diagnosis

Biomarker Program

Phospho-Rab10 (pRab10)

Assay:

• Luminex-based assay
• Measure in peripheral blood neutrophils
• Well-validated in clinical trials

• Baseline elevated in LRRK2-PD
• Correlates with disease severity
• Responds to LRRK2 inhibition

• Only measures one Rab substrate
• Variability in measurement
• Tissue specificity unclear

Bis(monoacylglycero)phosphate (BMP)

Function:

• Lysosomal lipid
• Elevated in LRRK2-PD
• Reduced with treatment

• Mass spectrometry
• Urine or CSF

• Independent of pRab10
• Complementary signal

Neurofilament Light Chain (NfL)

Function:

• Axonal damage marker
• Elevated in neurodegeneration
• Predictive of progression

• Baseline stratification
• Treatment response (exploratory)

Regulatory Considerations

Accelerated Approval Pathway

If LUMA meets primary endpoint:

• Breakthrough therapy designation in place
• Accelerated approval possible
• Post-marketing confirmatory trial

Comparison to Previous LRRK2 Programs

| Program | Status | Lessons |
|---------|--------|---------|
| DNL151 (Denali) | Phase 1/2 | Safety established |
| LGI-A (GSK) | Discontinued | AE profile |
| ASN003 (AbbVie) | Discontinued | Insufficient efficacy |

FDA Guidance

Key considerations:

• Disease modification claim requires:

• Clear biological mechanism
• Supported by biomarkers

Competitive Landscape

Other Disease-Modifying Approaches

| Approach | Target | Advantages | Limitations |
|----------|--------|-------------|-------------|
| LRRK2 inhibitor | LRRK2 | Oral, small molecule | Requires continued dosing |
| α-Synuclein antibody | Extracellular αSyn | Immunization | IV infusion |
| Gene therapy | GBA, others | One-time | Surgical |
| Cell therapy | Dopamine cells | Regeneration | Immunogenicity |

Target Population Comparison

| Trial | LRRK2+ | Idiopathic | Total |
|-------|-------|------------|-------|
| LUMA | ~65 (10%) | ~585 | 650 |
| SPARK | 0 | 312 | 312 |
| PASADENA | 0 | 316 | 316 |

Future Directions

Combination Approaches

Potential future strategies:

• LRRK2 inhibitor + α-synuclein antibody
• LRRK2 inhibitor + neurotrophic factor
• LRRK2 inhibitor + gene therapy

Biomarker-Driven Patient Selection

Future trials may use:

• pRab10 levels for enrichment
• BMP for stratification
• GBA status for combination

Prevention Trials

Given strong genetic rationale:

• At-risk individual enrollment
• Longer treatment duration
• Sensitive biomarkers required

Related Resources

• [Clinical Trials Overview](/clinical-trials/overview)
• [Drug Development Pipeline](/clinical-trials/drug-pipeline)
• [Alzheimer's Disease](/diseases/alzheimers-disease)
• [Parkinson's Disease](/diseases/parkinsons-disease)
• [LRRK2 Kinase Inhibitors](/therapeutics/lrrk2-inhibitors)
• [BIIB122 (LUMA) LRRK2 Inhibitor Trial](/clinical-trials/biib122-luma-lrrk2-inhibitor-pd)
• [LRRK2 Pathway in Parkinson's Disease](/mechanisms/lrrk2-pathway-parkinsons)
• [Alpha-Synuclein](/proteins/alpha-synuclein)
• [Denali Therapeutics](/companies/denali-therapeutics)
• [Rab GTPases](/proteins/rab-gtpases)
• [Autophagy Pathway](/mechanisms/autophagy-pathway)
• [Mitochondrial Dynamics](/mechanisms/mitochondrial-dynamics)

External Links

• [ClinicalTrials.gov Record](https://clinicaltrials.gov/study/NCT05348785)
• [PubMed Search](https://pubmed.ncbi.nlm.nih.gov/?term=NCT05348785)
• [Biogen Parkinson's Disease Pipeline](https://www.biogen.com)

References