Discovery of ABBV-154, an anti-TNF Glucocorticoid Receptor Modulator Immunology Antibody-Drug Conjugate (iADC).
Adrian D HobsonJianwen XuDennie S WelchChristopher C MarvinMichael J McPhersonBradley GatesXiaoli LiaoMarkus HollmannMichael J GattnerKristina DzeykHetal SarvaiyaVikram M ShenoyMargaret M FettisAgnieszka K BischoffLu WangLing C SantoraLu WangJulia FitzgibbonsPaulin SalomonAxel HernandezYing JiaChristian A GoessSuzanne L MathieuShaughn H BryantMary E LarsenBaoliang CuiYu TianPublished in: Journal of medicinal chemistry (2023)
Stable attachment of drug-linkers to the antibody is a critical requirement, and for maleimide conjugation to cysteine, it is achieved by ring hydrolysis of the succinimide ring. During ADC profiling in our in-house property screening funnel, we discovered that the succinimide ring open form is in equilibrium with the ring closed succinimide. Bromoacetamide (BrAc) was identified as the optimal replacement, as it affords stable attachment of the drug-linker to the antibody while completely removing the undesired ring open-closed equilibrium. Additionally, BrAc also offers multiple benefits over maleimide, especially with respect to homogeneity of the ADC structure. In combination with a short, hydrophilic linker and phosphate prodrug on the payload, this afforded a stable ADC (ABBV-154) with the desired properties to enable long-term stability to facilitate subcutaneous self-administration.
Keyphrases
- minimally invasive
- diffusion weighted imaging
- molecular dynamics
- diffusion weighted
- cancer therapy
- rheumatoid arthritis
- small molecule
- molecular dynamics simulations
- emergency department
- magnetic resonance
- resting state
- drug induced
- drug release
- functional connectivity
- fluorescent probe
- contrast enhanced
- living cells
- anaerobic digestion
- aqueous solution
- solid phase extraction