JAK2V617F is the Primary Driver Mutation Leading to Activated JAK-STAT Signaling, Uncontrolled Proliferation, and Disease Progression in MPNs •    The JAK-STAT pathway mediates growth factor signaling, most notably: −    Thrombopoietin receptor for platelet production −    Erythropoietin receptor for red blood cell production •    The JAK2V617F mutation leads to growth factor-independent hyperactivation of JAK-STAT pathway and uncontrolled myeloid and erythroid proliferation •    Inhibition of wildtype JAK2 causes anemia and thrombocytopenia and current JAK inhibitors, like ruxolitinib (Jakafi®), while effective, equally inhibit both WT and V617F-mutated (VF+) JAK2 •    JAK2 JH2 inhibitors that selectively target VF+ progenitor cells have potential to reduce mutant allele burden, modify disease progression, and transform treatment outcomes for MPN patients

A JAK2V617F Mutant Selective Inhibitor Could Become a Disease Modifying Option for the Majority of MPN Patients and Represents an Expansive Opportunity Sources: NCI SEER Database (accessed Dec 2024), Leukemia & Lymphoma Society Facts & Figures; F. Passamonte et.al., “Clinical Significance of JAK2 V617F Mutant Allele Burden”; Haematologica 2009 Jan;94(1):7–10

Prelude Scientists Recently Discovered the First Known JAK2 Inhibitors That Bind in the JAK2 JH2 “Deep Pocket” Where the V617F Mutation Resides Allosteric JH2 Regulatory Domain vs Catalytic Domain Prelude JAK2 JH2 Inhibitors Bind into the “Deep Pocket” Adjacent to V617F Mutation

JAK2V617F Mutant Selective Inhibitors Are Highly Differentiated From 1st Generation JAK Inhibitors in a Large and Growing Market •    Global sales of ruxolitinib (Jakafi® /Jakavi®) in MPNs grew to over $4.5B in 20241,2 −    Continuing strong sales growth for ruxolitinib in PV •    First generation JAK inhibitors have delivered transformative efficacy for MF patients −    Highly effective at reducing symptoms and spleen size −    However, toxicities from wild-type activity limit ability to reach maximal efficacy •    Ruxolitinib is the only JAK inhibitor approved in PV (2L) and none are approved in ET •    Prelude’s JAK2V617F mutant selective inhibitors demonstrate: −    Potent and selective reduction in JAK2V617F cells in vitro compared to WT cells −    Improved efficacy, reduced toxicity, and rapid reduction of mutant alleles in vivo −    Potential for transformative efficacy and disease modification in PV, ET and MF First Public Disclosure of Preclinical Data on Prelude’s JAK2V617F Program Accepted for Oral Presentation at ASH 20253 1 - Incyte Pharmaceuticals (Q4 2024 Financial Results and Corporate Update Presentation, February 10, 2025); JAKAFI is a registered trademark of Incyte 2 - Novartis Pharmaceuticals (Full Year 2024 Product Sales, Accessed August 2025; JAKAVI is a registered trademark of Novartis 3 - Abstract can be found on the ASH 2025 website ASH Annual Meeting & Exposition - Hematology.org.

Option Agreement With Incyte Provides Significant Capital to Further Advance the JAK2V617F and KAT6A Degrader Programs Exclusive option agreement with Incyte announced November 2025

Our Investment Thesis Centers on Advancing Two Programs – Both Representing Highly Differentiated Approaches to Clinically Validated Targets JAK2V617F Mutant Selective Inhibitors Potentially transformative JAK2V617F allosteric JH2 inhibitors with potential to reduce mutant allele burden and modify the course of disease progression in patients with myeloproliferative neoplasms (MPNs) KAT6A Highly Selective Oral Degraders First-in-class KAT6A degraders, with absolute selectivity over KAT6B – a differentiated approach against a clinically validated target in ER+ breast cancer with pan-tumor potential in other malignancies

Prelude’s First-In-Class Oral KAT6A Selective Degraders •    A KAT6A/B dual inhibitor is now in pivotal phase 3 trials in combination with fulvestrant, after progression on a CDK4/6 inhibitor −    Demonstrated efficacy in post CDK4/6 inhibitor setting in a broad population of ER+ BC including PIK3CA-, ESR1-mutated patients, providing clinical validation for target −    Clinically relevant safety observations including dysgeusia and grade 3/4 neutropenia −    Combinations with other agents, particularly CDK4/6 inhibitors could prove challenging with potential for overlapping toxicities and required dose modifications •    Our KAT6A program aims to demonstrate a superior clinical profile −    Optimal efficacy −    Lower neutropenia and dysgeusia −    Improved combinability profile with other agents (e.g. oral SERDs, AIs, CDK4/6s, PI3Kis) •    ER+ breast cancer treatment market is projected to reach $42B by 20331 −    Most common type of breast cancer, representing 70% of all cases 1.    Vision Research Reports; "Estrogen Receptor Positive Breast Cancer Treatment Market Forecast 2024-2033. Estrogen Receptor Positive Breast Cancer Treatment Market Size | Companies

Selectively Degrading KAT6A is a Novel Approach with Potential to Deliver Differentiated Safety and Efficacy Over Non-Selective KAT6A/B Inhibitors

Our Lead KAT6A Selective Degrader Development Candidate Lead DC is a Potent KAT6A Degrader in Preclinical Models Absolute Degradation Selectivity (KAT6A vs KAT6B) In Vivo Efficacy •    Absolute kinetic selectivity for 6A/6B (>1000-fold) •    Global proteomics demonstrates selective KAT6A degradation •    Excellent oral PK across species •    Compelling in vivo efficacy as monotherapy in multiple models •    Reduced effect on neutrophils in preclinical models •    Non-GLP DRF studies complete •    IND-enabling studies initiated

Our Lead DC Drives Tumor Regressions in T47-D Model with Significantly Greater Monotherapy Activity than KAT6A/B Inhibitor + Fulvestrant Combination Tumor Regressions Observed at Low Doses Significant TGI as Monotherapy vs. KAT6A/Bi + fulvestrant •    Lead DC demonstrates dose-dependent efficacy, driving tumor regressions at low daily oral doses in preclinical models •    Human equivalent dose projection of 5-10 mg QD •    Well-tolerated with no observed body weight loss in preclinical models Prelude Data on File

KAT6A Selective Degraders Show Potential for Lower Bone Marrow Toxicity in Preclinical Models Compared to KAT6A/B Dual Inhibitors Dose Response of CFU-GM Neutrophils Day 5 Ex vivo and in vivo studies with KAT6A selective degraders show limited effects on neutrophils in contrast to dual KAT6A/B inhibitors and degraders Prelude Data on File

KAT6A Selective Degrader Program Summary •    Prelude invented multiple first-in-class, highly selective KAT6A degraders which demonstrate favorable preclinical results •    KAT6A degraders show potential to achieve best-in-class efficacy and ability to differentiate on safety and combinability early in clinical development •    Lead DC has completed dosing in non-GLP studies in rats and dogs •    On-track to advance to IND filing in mid-2026 •    Phase 1 start expected 2H 2026