Abstract The Araris’ site-specific and 1-step linker conjugation technology aims at generating safe and highly potent ADCs without the need for antibody engineering prior to linker-payload conjugation. We developed a very stable anti-CD79b-MMAE ADC with this technology showing a higher therapeutic index compared to polatuzumab-vedotin in preclinical models. Our ADC may represent a safe and efficacious alternative for the treatment of patients with diffuse-large B-cell lymphoma (DLBCL).Using native polatuzumab (non-engineered, same antibody sequence as present in approved polatuzumab-vedotin) as the targeting antibody and monomethyl auristatin E (MMAE) as payload, we generated within 24hours highly homogeneous and pure ADCs with a well-defined drug-to-antibody ratio (DAR) of 1.9, with a &gt 98% monomer content. The ADC is highly stable under stressed conditions at elevated temperatures and maintains the FcyR/FcRn-binding properties of the parental mAb. In in-vitro assays our ADC demonstrated potent cytotoxicity in four tested cell-lines, similar to the approved polatuzumab-vedotin (Polivy®). Moreover, our anti-CD79b ADC (ARADC) is highly stable in mouse, cynomolgus and human sera exemplified by the absence of payload deconjugation or linker cleavage. Though highly stable, the ADC is still efficiently released by lysosomal human Cathepsin B cleavage or human liver-lysosome enzymes. Most importantly, the resulting ADC is extremely stable in circulation as shown in pharmacokinetic studies in mice and rats demonstrating an antibody-like exposure profile comparable to the unmodified polatuzumab antibody and twice as long as the approved polatuzumab-vedotin (half-life 10d vs 5d).Most importantly, the in vivo efficacy of ARADC (DAR 1.9) was compared with approved polatuzumab-vedotin (DAR 3.5) in two CD79b-expressing tumor models: Granta-519 and Ramos. ARADC provided equal tumor growth inhibition and survival at about half the payload dose relative to polatuzumab-vedotin in both models. At approximately equal payload doses, ARADC treatment led to greater antitumor effects and a considerably longer survival advantage over polatuzumab-vedotin in both models. Finally, the highest non-severely toxic dose (HNSTD) of ARADC was determined at 30mg/kg in a 4-week repeat dose toxicology study in rats. This observation, together with the high anti-tumor potency at low dose - the minimal effective dose (MED), results in an overall 4-6-fold increased therapeutic index (TI).These encouraging results obtained so far indicate that ARADC a) has very favorable biophysical properties, b) shows a clearly defined drug-to-antibody ratio, c) is highly stable in vitro and in vivo, d) is highly potent and efficacious in multiple tumor models and e) showed an improvement in TI by a factor of 4-6 and ultimately warrant further development of ARADC. Citation Format: Isabella Attinger-Toller, Philipp Probst, Romain Bertrand, Ramona Stark, Roger Santimaria, Emma Renard, Rachael Fay, Dragan Grabulovski, Bernd Schlereth, Philipp René Spycher. A CD79b targeting ADC with superior anti-tumor activity and therapeutic index [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 2910.