Experiment ID: PUR-PD-001
Hypothesis: Purinergic signaling dysfunction (ATP/adenosine receptor signaling) is a primary upstream driver of alpha-synuclein aggregation, neuroinflammation, and dopaminergic neurodegeneration in PD.
Phase: Preclinical + Clinical (Multi-phase)
Duration: 36 months
Objective: Determine whether P2X7R activation directly promotes alpha-synuclein aggregation and propagation.
Methods:
- Primary rat midbrain neurons and iPSC-derived dopaminergic neurons from PD patients (LRRK2 G2019S, idiopathic)
- Treatment groups:
- Control (vehicle)
- ATP (100 μM, 1h daily for 7 days) — P2X7R agonist
- ATP + A-438079 (10 μM) — P2X7R antagonist rescue
- Alpha-synuclein pre-formed fibrils (PFF, 2 μg/mL) — seed control
- ATP + PFF — combined challenge
Endpoints:
- Alpha-synuclein phosphorylation at Ser129 (pS129) — Western blot, ELISA
- Oligomer formation — Thioflavin T fluorometry, SEC-MALS
- Neuronal viability — MTT assay, MAP2 immunostaining
- Calcium imaging — Fluo-4 AM live cell imaging
- IL-1β/IL-18 release — Luminex cytokine panel
Power Analysis: n=6 per group; 80% power to detect 30% difference in pS129, α=0.05
Objective: Characterize how A2AR signaling modulates alpha-synuclein aggregation kinetics.
Methods:
- Recombinant alpha-synuclein aggregation assay (ThT kinetic assay)
- Treatment with:
- CGS-21680 (100 nM) — A2AR agonist
- SCH-58261 (100 nM) — A2AR antagonist
- Forskolin (10 μM) — direct cAMP activator
- H-89 (10 μM) — PKA inhibitor
Endpoints:
- Aggregation half-time (T50)
- Maximum ThT fluorescence (Fmax)
- Morphology of aggregates — TEM
- Phosphorylation at Ser129, Tyr125 — mass spectrometry
Objective: Determine how P2Y1R signaling modulates astrocyte-neuron metabolic coupling.
Methods:
- Co-culture of primary astrocytes and neurons
- [U-13C]glucose metabolic tracing
- P2Y1R agonist (MRS2365, 100 nM) and antagonist (MRS2500, 1 μM)
Endpoints:
- Lactate release (13C labeling)
- Glutamate uptake (functional assay)
- GLT-1 expression — Western blot
- Neuronal ATP levels — Luciferin-luciferase assay
Objective: Test whether P2X7R antagonism provides neuroprotection in MPTP-induced parkinsonism.
Animals: C57BL/6 mice, 10-12 weeks, male (n=48)
Groups:
- Saline control
- MPTP (30 mg/kg, i.p., 5 days)
- MPTP + Brilliant Blue G (50 mg/kg, i.p., daily)
- MPTP + A-438079 (30 mg/kg, i.p., daily)
- MPTP + combination (P2X7R + A2AR antagonist)
- A2AR antagonist (SCH-58261, 1 mg/kg) alone
Endpoints (at 7, 14, 30 days post-MPTP):
- Behavioral: cylinder test, stepping test, grid test
- Neurochemical: striatal dopamine (HPLC), tyrosine hydroxylase (IHC)
- Neuroinflammation: Iba1+ microglial density, IL-1β levels (ELISA)
- Alpha-synuclein: pS129 burden (IHC), oligomers (ELISA)
- In vivo imaging: [11C]PK-11195 PET for microglial activation
Objective: Determine if A2AR deletion modifies alpha-synuclein pathology.
Animals: Thy1-αSyn (wild-type and A2AR-/-) (n=30)
Endpoints:
- Motor behavior at 3, 6, 9 months
- Dopaminergic neuron count (TH+ cells in SNc)
- Alpha-synuclein burden and phosphorylation
- Microglial activation state
Objective: Validate extracellular ATP/ADP/adenosine levels as early PD biomarkers.
Cohort:
- PD patients (n=80, Hoehn & Yahr 1-2)
- Prodromal PD (RBD + hyposmia) (n=30)
- Healthy controls (n=40)
Endpoints:
- CSF ATP, ADP, adenosine (LC-MS/MS)
- CSF IL-1β, IL-18 (Luminex)
- CSF alpha-synuclein pS129 (Simoa)
- Clinical: MDS-UPDRS, MoCA, olfactory function
Correlation Analysis: Biomarker levels vs. disease duration, motor severity, non-motor symptoms
Objective: Image P2X7R and A2AR density in living PD brains.
Cohort: PD (n=20), HC (n=10)
Radiotracers:
- [11C]A-740001 for P2X7R (or [18F]JNJ-64413739 if available)
- [11C]SCH-442416 for A2AR
Analysis: PET-MRI quantification of receptor binding (SUVR) in striatum, substantia nigra, cortex
| Endpoint |
Method |
Timepoint |
Target Effect |
| pS129 alpha-synuclein |
ELISA |
Phase 1 |
40% reduction with antagonist |
| Dopaminergic neurons |
TH+ IHC |
Phase 2 |
30% protection |
| CSF ATP/ADP ratio |
LC-MS/MS |
Phase 3 |
AUC >0.80 for PD vs. HC |
| Motor behavior |
Cylinder test |
Phase 2 |
25% improvement |
- Primary: Two-way ANOVA with Tukey's post-hoc (in vitro), mixed-effects model (in vivo)
- Clinical: ROC curve analysis for biomarker discrimination, Pearson correlation for associations
- Significance threshold: p < 0.05, FDR correction for multiple comparisons
| Risk |
Mitigation |
| P2X7R antagonist blood-brain barrier penetration |
Use BBB-permeable compounds (BBG, A-438079) |
| Inter-species differences |
Validate key findings in human iPSC neurons |
| Biomarker variability |
Standardize CSF collection protocol, same-center analysis |
| PET tracer availability |
Identify alternative tracers, establish synthesis protocols |
| Category |
Cost (USD) |
| Phase 1 (in vitro) |
$350,000 |
| Phase 2 (animal) |
$500,000 |
| Phase 3 (clinical) |
$650,000 |
| PET synthesis/imaging |
$200,000 |
| Personnel (3 years) |
$600,000 |
| Total |
$2,300,000 |
Month 1-6: Phase 1.1 (P2X7R-αSyn in vitro)
Month 6-12: Phase 1.2-1.3 (A2AR, astrocyte studies)
Month 12-18: Phase 2.1 (MPTP + P2X7R antagonist)
Month 18-24: Phase 2.2 (A2AR KO cross), Phase 3.1 initiation
Month 24-30: Phase 3.1 (CSF biomarker cohort)
Month 30-36: Phase 3.2 (PET imaging), data analysis
- Animal use: IACUC approval, 3Rs compliance (replacement, reduction, refinement)
- Human subjects: IRB approval, informed consent, data protection (HIPAA/GDPR)
- Sample handling: Standardized protocols, biobank integration
- In vitro: P2X7R antagonism reduces pS129 by ≥40% in human neurons
- In vivo: P2X7R antagonist improves dopaminergic survival by ≥30%
- Clinical: CSF ATP/ADP ratio discriminates PD from controls (AUC ≥0.80)
- Translation: Identifies clinical-ready compound for rapid Phase II trial