MDS 2026 Parkinsons Emerging Therapeutics Congress: Movement Disorder Society (MDS) International Congress 2026
Dates: October 4-8, 2026
Location: Seoul, Korea — COEX Convention and Exhibition Center
Theme: Understanding Aging in Movement Disorders
Overview
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therapeutics["therapeutics"] -->|"inhibits"| neuroinflammation["neuroinflammation"]
Therapeutics["Therapeutics"] -->|"references"| SIRT6["SIRT6"]
Therapeutics["Therapeutics"] -->|"references"| AADC["AADC"]
Therapeutics["Therapeutics"] -->|"references"| CX3CR1["CX3CR1"]
Therapeutics["Therapeutics"] -->|"references"| BACE1["BACE1"]
Therapeutics["Therapeutics"] -->|"references"| APOE["APOE"]
Therapeutics["Therapeutics"] -->|"references"| VCP["VCP"]
Therapeutics["Therapeutics"] -->|"references"| GFAP["GFAP"]
Therapeutics["Therapeutics"] -->|"references"| NURR1["NURR1"]
Therapeutics["Therapeutics"] -->|"references"| BDNF["BDNF"]
Therapeutics["Therapeutics"] -->|"references"| NLRP3["NLRP3"]
Therapeutics["Therapeutics"] -->|"references"| TFEB["TFEB"]
Therapeutics["Therapeutics"] -->|"references"| PPARGC1A["PPARGC1A"]
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...
MDS 2026 Parkinsons Emerging Therapeutics Congress: Movement Disorder Society (MDS) International Congress 2026
Dates: October 4-8, 2026
Location: Seoul, Korea — COEX Convention and Exhibition Center
Theme: Understanding Aging in Movement Disorders
Overview
Mermaid diagram (expand to render)
The development of disease-modifying therapies for Parkinson's disease (PD) remains one of the most important goals in movement disorder research. While current treatments effectively manage symptoms, they do not slow or halt disease progression. MDS 2026 will showcase the latest advances in disease-modifying approaches, including alpha-synuclein-targeted therapies, gene therapies, cell-based treatments, and novel neuroprotective strategies["@lang2006"][@stocchi2015].
Alpha-Synuclein-Targeted Therapies
Immunotherapies
Active Immunization
PD01A (Affiris): Peptide vaccine targeting aggregated α-synucleinPhase 1: Safe and well-tolerated
Phase 2: Demonstrated antibody response, trial ongoing
ACI-35 (AC Immune/Lilly): Liposome-based vaccine with phosphorylated α-synucleinInduces antibodies targeting pathological phosphorylated α-synuclein
Passive Immunization
Prasinezumab (RO7046015/PRX002): Monoclonal antibody against aggregated α-synucleinPhase 2 (PASADENA): Reduced progression of motor symptoms
Phase 2b (PADOVA): Ongoing in patients with motor fluctuations
Cinpanemab (BIIB054): Monoclonal antibody targeting α-synucleinPhase 2 (SPARK): Primary endpoint not met, subgroup analysis encouraging
AL-108 (Alzheon): Oligomer modulator targeting α-synuclein aggregationSmall Molecule Aggregation Inhibitors
Mannitol: Sugar alcohol reducing α-synuclein aggregation (in use for other purposes)Anle138b: Oligomer modulator showing promise in preclinical modelsSynuClean-D: Compound preventing α-synuclein fibrillationEPI-589: Redoxactive small molecule targeting neuroinflammation and α-synGene Therapies
AAV-Based Gene Delivery
Aromatic L-Amino Acid Decarboxylase (AADC)
VY-AADC (Voyager Therapeutics): AAV2 vector delivering AADC gene to striatumResults: Improved motor function, reduced levodopa requirements
Phase 1b: Sustained benefits for 4+ years
Phase 2: SPARK trial completed
Glutamic Acid Decarboxylase (GAD)
AAV-GAD (Neurologix): Gene therapy for GABA productionResults: Improved motor scores in pilot study
Neurotrophic Factors
AAV-NTN (Cerevel/Roche): Neurturin delivery for neuroprotectionResults: Mixed; REGN0040 ongoing
Gene Silencing Approaches
ASOs (Antisense Oligonucleotides): Targeting SNCA gene expressionIONIS-SYNC Rx (Ionis/Biogen): Phase 1/2a completedWVE-003 (Wave Life Sciences): Allele-selective targeting of mutant SNCACRISPR-Based Approaches
Gene Editing: Targeting SNCA, LRRK2, GBA mutationsPrime Editing: Precise DNA correctionsBase Editing: Single nucleotide modificationsCell-Based Therapies
Dopaminergic Cell Replacement
Embryonic Stem Cell (ESC) Derivatives
ESC-derived dopamine neurons: Clinical trials ongoing in Japan (Kyoto University)
Showing promising survival and function
Allogeneic vs. Autologous: Current trials use allogeneic cellsInduced Pluripotent Stem Cell (iPSC) Therapy
Autologous iPSC-derived dopamine neurons: Japan: First human trial initiated (Kobe University)
Advantages: No immunosuppression required
Challenges: Cost, manufacturing scale-up
Allogeneic iPSC banks: HLA-matched cell lines in developmentStromal Cell Therapies
Mesenchymal stem cells (MSCs): Neuroprotective and immunomodulatory effectsMultiple trials in various phases
Delivery: Intravenous, intra-arterial, intrathecal
Tissue Engineering
Cell encapsulated in alginate beads: Controlled neurot factor release3D bioprinting: Creating structured neural tissue constructsLRRK2-Targeted Therapies
LRRK2 Inhibitors
DNL151 (Denali Therapeutics/Biogen): LRRK2 kinase inhibitorPhase 1: Safe, target engagement demonstrated
Phase 2: Ongoing in PD patients
BIIB122 (Biogen): LRRK2 inhibitor, acquired from DenaliPhase 2b: Testing in early PD
DNL758 (Denali): CNS-penetrant LRRK2 inhibitorLRRK2 Modulators
Stereotyped ASOs: Targeting LRRK2 mRNA for allele-specific silencingGBA-Targeted Approaches
GCase Modulation
Ambroxol: GCase chaperonePhase 2: Showing increased GCase activity in CSF
Potential for combination with other approaches
L渠-483 (IDCP): GCase activator in developmentGene Therapy
AAV-GBAs1: Gene delivery of functional GCaseAnti-Neuroinflammatory Therapies
Microglial Modulation
TREM2-targeting antibodies: Controlling microglial activationCSF1R inhibitors: Targeting colony-stimulating factor 1 receptorMinocycline: Broad anti-inflammatory effects (clinical trials mixed)Neuroimmune Modulation
NLRP3 inhibitors: Blocking inflammasome activationIL-1β antagonists: Canakinumab being exploredMitochondrial and Bioenergetic Therapies
Mitochondrial Biogenesis
CoQ10: Electron transport chain supportPhase 2: Mixed results (QE3 trial negative)
Subgroup analysis: Earlier patients may benefit
Mitochondrial toxins: KATs (kinase activators)Mitophagy Enhancement
Rapamycin: mTOR inhibition promotes autophagyUrolithin A: Mitophagy inducer (showing promise in muscle function)Other Novel Approaches
GLP-1 Receptor Agonists
Exenatide: GLP-1 receptor agonistPhase 2: Improved motor scores in off-med state
Phase 3: Exenatide-PD trial underway
Liraglutide: Similar approach, ongoing trialsSemaglutide: Once-weekly GLP-1 agonistIron Chelation
Deferoxamine: Reducing iron accumulation in substantia nigraDeferasirox: Oral iron chelator in trialsSigma-1 Receptor Agonists
Pridopidine: Targeting sigma-1 receptor for neuroprotectionCalcium Channel Blockers
Isradipine: L-type calcium channel blockerPhase 3 (STEADY-PD III): Did not meet primary endpoint
Potassium Channel Openers
Ipratropium: Kv7 channel activator showing neuroprotective effectsDisease-Modifying Trial Design
Challenges
Slow disease progression: Requires long trials or sensitive endpointsLack of validated biomarkers: Surrogate endpoints neededHeterogeneous patient populations: Different pathogenic subtypesInnovative Trial Designs | Design | Description | Advantages |Delayed-start | Randomized to treatment vs. placebo, then both to treatment | Measures disease modification |Placebo-delay | All patients eventually receive treatment | Ethical advantages |Adaptive designs | Sample size re-estimation, arm selection | Efficiency |Pre-motor enrollment | Prodromal PD subjects | Earlier intervention |
Outcome Measures
Clinical: MDS-UPDRS, MoCA, various disability scalesBiomarker: αSyn-SAA,NfL, neuroimagingDigital: Wearable-based measuresSessions and Presentations
Expected Topics
Alpha-Synuclein Immunotherapy: Current Status Gene Therapy for PD: From Promise to Reality Cell Replacement Therapy: The Stem Cell Frontier LRRK2-Targeted Approaches Disease-Modifying Trial Design: Lessons Learned GLP-1 Agonists for Neuroprotection Emerging Targets: New Pathways to Explore
Related Pages
[MDS 2026 — Main Congress Page](/events/mds-2026)](/events)
[MDS 2026 — Parkinson's Disease Sessions](/events/mds-2026-parkinsons-sessions)](/events)
[Parkinson's Disease](/diseases/parkinsons-disease)](/proteins/parkin)
[Parkinson's Disease Treatment](/therapeutics/parkinsons-disease-treatment)](/therapeutics)
[Alpha-Synuclein Protein](/proteins/alpha-synuclein)](/proteins)
[LRRK2 Gene](/genes/lrrk2)](/genes)
[GBA Gene](/genes/gba)](/genes)
[Cell Therapy for Parkinson's](/therapeutics/cell-therapy-parkinsons)](/therapeutics)
[Gene Therapy for Parkinson's](/therapeutics/gene-therapy-parkinsons)](/therapeutics)
[MDS 2026 — Clinical Trials](/events/mds-2026-parkinsons-clinical-trials)](/clinical-trials)
[MDS 2026 — Diagnostics & Biomarkers](/events/mds-2026-parkinsons-diagnostics-biomarkers)
References
[Lang AE, et al. Disease-modifying therapy in Parkinson's disease (2006)](https://doi.org/10.1002/mds.20769)
[Stocchi F, et al. Disease modification in Parkinson's disease (2015)](https://doi.org/10.1007/s40263-015-0268-5)
[Barker RA, et al. Disease modification in Parkinson's disease (2020)](https://doi.org/10.3233/JPD-200231)
[MDS Congress 2026](https://www.mdscongress.org)
External Links
[MDS Congress 2026](https://www.mdscongress.org)
[Michael J. Fox Foundation - Therapeutic Pipeline](https://www.michaeljfox.org/)
[International Parkinson and Movement Disorders Society](https://www.movementdisorders.org/)](/proteins/parkin)
[ClinicalTrials.gov - Parkinson's Disease](https://clinicaltrials.gov/) Show full description