¶ AAIC 2026: Therapeutic Antibodies and Immunotherapy Advances
Conference: AAIC 2026 | Dates: July 12-15, 2026 | Location: ExCeL London, UK
The 2026 Alzheimer's Association International Conference (AAIC) features landmark developments in therapeutic antibody approaches for Alzheimer's disease and related dementias. With multiple anti-amyloid antibodies now approved and a robust pipeline of next-generation immunotherapies advancing through clinical trials, the field continues to evolve toward more effective disease-modifying treatments[@cummings2024].
This page captures key presentations on:
- Amyloid-targeting antibodies (approved and in development)
- Tau immunotherapy clinical trials and mechanisms
- Novel therapeutic antibody engineering approaches
- Bispecific and next-generation antibody platforms
Lecanemab (brand name Leqembi; development code BAN2401) is a humanized IgG1 monoclonal antibody developed by Eisai and Biogen for the treatment of early Alzheimer's disease. It received full FDA approval in January 2023, representing the first amyloid-targeting antibody to achieve traditional approval based on Phase III clinical trial data[@van2023].
Lecanemab selectively targets soluble amyloid-beta (Aβ) protofibrils, which are highly toxic intermediate aggregates in the amyloid cascade. Unlike earlier anti-amyloid antibodies that primarily targeted monomers or mature plaques, lecanemab's specificity for protofibrils allows it to intercept the most toxic form of Aβ before it can cause widespread neuronal damage.
The antibody-Aβ complex is cleared through multiple pathways:
- Microglial-mediated phagocytosis: Fcγ receptor engagement triggers microglia to engulf antibody-Aβ complexes
- Peripheral sink effect: Binding to plasma Aβ creates a gradient drawing brain Aβ into circulation
- Direct plaque disaggregation: May destabilize existing plaque structure
The Phase III Clarity-AD trial enrolled 1,795 patients with early AD:
- Primary endpoint: Clinical Dementia Rating Scale-Sum of Boxes (CDR-SB) at 18 months
- Result: Met primary and all key secondary endpoints
- Efficacy: 27% slower clinical decline vs. placebo (difference of 0.45 CDR-SB points)
- Amyloid reduction: Centiloid reduction from 53 to approximately 10 (~81% reduction)
Expected presentations at AAIC 2026 include:
- Long-term safety and efficacy data from the Clarity-OLE open-label extension
- Real-world effectiveness data from clinical practice settings
- Subgroup analyses by genetic background and biomarker status
- New analyses on ARIA (Amyloid-Related Imaging Abnormalities) management protocols
- Biomarker correlates including plasma p-tau217 as treatment response marker
Donanemab (brand name Kisunla) is an intravenous monoclonal antibody approved in the United States for treatment of early symptomatic Alzheimer's disease in adults with confirmed amyloid pathology. It received FDA approval in July 2024[@sims2023][@mcdade2024].
Donanemab differs from other anti-amyloid antibodies in its key mechanism:
- Pyroglutamate Aβ targeting: Binds specifically to N3pG-Aβ, a modification found in mature plaques
- Plaque-selective binding: Prefers deposited plaques over soluble monomers
- Fc-mediated clearance: Triggers microglial phagocytosis through Fcγ receptor engagement
- Rapid plaque reduction: Achieves substantial amyloid clearance within months
TRAILBLAZER-ALZ 2 (Phase 3):
- Enrolled 1,736 patients with early AD
- Primary endpoint: Change in CDR-SB at 18 months
- Results: Statistically significant slowing of clinical progression
- Tau stratification: Participants divided into low/medium and high tau groups
- Greater benefit observed in participants with lower baseline tau burden
Limited-Duration Treatment Approach:
Donanemab pioneered the approach of stopping treatment once amyloid plaques are cleared:
- Initial intensive treatment: Monthly infusions for approximately 18 months
- Assessment for discontinuation: Amyloid PET or CSF testing
- Treatment stop: If amyloid cleared below threshold
- Monitoring: Continued observation off treatment
This approach may reduce cumulative ARIA risk, lower treatment costs, and improve patient convenience.
Expected presentations at AAIC 2026 include:
- New analyses on amyloid removal rates and time to plaque clearance
- Subpopulation response data across different demographic groups
- TRAILBLAZER-ALZ 3 prevention trial updates
- Long-term outcomes following limited-duration treatment
Aduhelm (aducanumab) was the first anti-amyloid antibody to receive FDA approval (accelerated approval in 2021, later withdrawn from market)[@sevigny2016]. AAIC 2026 may include discussions of post-approval experience and lessons learned from the aducanumab program.
Remternetug (RN-413) is a next-generation anti-amyloid antibody from Eli Lilly targeting pyroglutamate-modified amyloid-beta (N3pG-Aβ), similar to the target of donanemab but with enhanced brain penetration.
Remternetug has progressed through Phase 1/2 clinical trials in early Alzheimer's disease. The compound represents an effort to improve upon the efficacy seen with donanemab through:
- Enhanced blood-brain barrier penetration
- Optimized Fc region for improved microglial activation
- Higher affinity for pathological Aβ species
Anticipated data presentations include:
- Phase 1/2 efficacy and safety results
- Biomarker analyses (amyloid PET, CSF biomarkers)
- Dose-response relationships
Gantenerumab is a fully human IgG1 monoclonal antibody that binds to aggregated Aβ plaques. The GRADUATE trials evaluated gantenerumab in early AD, though results showed slower than anticipated plaque reduction[@muir2024].
Expected topics include:
- Complete GRADUATE trial results and analyses
- Lessons learned from dose optimization
- Comparison with other anti-amyloid antibodies
Anti-tau monoclonal antibodies represent the most advanced disease-modifying approach for tauopathies. Unlike kinase inhibitors or aggregation inhibitors, these antibodies directly target pathological tau species and facilitate their clearance through the brain's innate immune system[@danysz2023][@lee2024].
Anti-tau immunotherapies work through multiple mechanisms:
- Antibody binding: Antibodies recognize specific epitopes on tau protein (e.g., p-tau Ser396/404, p-tau Ser202/Thr205, MTBR, total tau)
- Fc receptor-mediated clearance: Antibody-tau complexes are cleared via microglia through Fcγ receptors
- Prevention of spreading: Antibodies neutralize extracellular tau seeds that propagate between neurons
- Reduction of intracellular tau: Some antibodies can enter neurons and clear intracellular aggregates
| Antibody |
Company |
Target |
Phase |
Indication |
| Zagotenemab (JNJ-63733657) |
Janssen |
p-tau |
Phase 2 |
AD |
| Bepranemab (UCB0107) |
UCB |
p-tau |
Phase 2a |
AD |
| Semorinemab (RO7105705) |
Roche |
Total tau |
Phase 2 |
AD |
| Tilavonemab (RO69249606) |
Roche |
p-tau |
Phase 2 |
PSP |
| Lu AF87908 |
Lundbeck |
p-tau |
Phase 1 |
AD |
| E2814 |
Eisai |
p-tau |
Phase 1/2 |
AD/DIAN |
Key anti-tau presentations expected at AAIC 2026 include:
- Phase 2 study results for leading anti-tau antibodies
- Biomarker correlations between tau PET changes and clinical outcomes
- Combination approaches with anti-amyloid therapies
- New epitope targeting strategies including MTBR-specific antibodies
- Active vaccination approaches including ACI-35 and AADvac1
¶ Novel Therapeutic Antibody Approaches
AAIC 2026 features presentations on novel bispecific antibody approaches that target multiple pathological species simultaneously:
- Dual Aβ/tau targeting: Simultaneous neutralization of amyloid and tau pathology
- Aβ/inflammation targeting: Combined anti-amyloid and microglial modulation
- Trojan horse approaches: Enhanced brain delivery through transporter-mediated uptake
¶ Antibody Engineering Advances
- Fc engineering: Optimized Fc regions for enhanced microglial activation or reduced ARIA risk
- Affinity maturation: Improved binding to pathological species while sparing monomers
- Blood-brain barrier penetration: Novel delivery technologies for enhanced brain exposure
- Nanobodies: Single-domain antibodies with enhanced brain penetration potential
- Fab fragments: Smaller antigen-binding fragments
- ScFv constructs: Single-chain variable fragments for targeted delivery
Multiple pathological pathways require simultaneous targeting in Alzheimer's disease[@cummings2024]:
- Synergistic effects between different mechanisms
- Lower doses may reduce side effects
- Addressing multiple disease drivers simultaneously
Anti-Amyloid + Anti-Tau:
- Simultaneous pathology reduction
- Clinical trials combining lecanemab/donanemab with anti-tau antibodies
- Rationale: amyloid drives tau spread, blocking both may provide additive benefits
Anti-Amyloid + Anti-Inflammatory:
- Addressing microglial activation alongside amyloid clearance
- TREM2-targeting approaches in combination with anti-amyloid
- GLP-1 receptor agonists as adjunct therapy
Disease-Modifying + Symptomatic:
- Anti-amyloid antibodies combined with cholinesterase inhibitors
- Adjunctive use of existing symptomatic treatments
ARIA remains the primary safety concern for anti-amyloid immunotherapies:
| ARIA Type |
Lecanemab |
Donanemab |
| ARIA-E (edema) |
12.6% |
~24% |
| ARIA-H (hemorrhage) |
17.3% |
~7% |
Monitoring Protocols (updated for AAIC 2026):
- Baseline MRI before first infusion
- MRI at Week 12, Week 24, then as clinically indicated
- APOE ε4 carriers require closer monitoring
- Hold treatment for moderate-severe ARIA
Best Practice Updates:
- Early detection of ARIA through symptom monitoring
- Standardized MRI protocols across clinical sites
- Risk stratification based on APOE genotype and baseline imaging
- Guidance on steroid use for moderate-severe ARIA
- Results from ongoing Phase 3 anti-tau trials
- FDA decisions on additional anti-amyloid antibodies
- Prevention trial results (AHEAD 3-45, DIAN)
- Combination therapy trial initiations
- Earlier intervention in preclinical AD
- Personalized treatment based on biomarker profiles
- Disease modification through multi-target approaches
- Preventative therapies for at-risk individuals
- van Dyck CH, et al. Lecanemab in Early Alzheimer's Disease. N Engl J Med. 2023
- Sims JR, et al. Donanemab in Early Symptomatic Alzheimer's Disease. JAMA. 2023
- McDade E, et al. Donanemab in Early Alzheimer's Disease. N Engl J Med. 2024
- Budd Haeberlein S, et al. Lecanemab: Emergence of a New Treatment. JAMA Neurol. 2023
- Cummings J, et al. Alzheimer's disease drug development pipeline: 2024. Alzheimer's Dement. 2024
- Danysz W, et al. Tau Immunotherapy: Progress and Challenges. Alzheimer's Dementia. 2023
- Lee SH, et al. Anti-tau Antibody Mechanisms. J Clin Invest. 2024
- Teng E, et al. Zagotenemab in Early Alzheimer's Disease. JAMA Neurol. 2024
- Muir J, et al. Gantenerumab in Early Alzheimer's Disease. Nature Medicine. 2024
- Sevigny J, et al. The antibody aducanumab reduces Aβ plaques in Alzheimer's disease. Nature. 2016