Author:
Cai Cindy X.,Doria-Rose Nicole A.,Schneck Nicole A.,Ivleva Vera B.,Tippett Brad,Shadrick William R.,O’Connell Sarah,Cooper Jonathan W.,Schneiderman Zachary,Zhang Baoshan,Gowetski Daniel B.,Blackstock Daniel,Demirji Jacob,Lin Bob C.,Gorman Jason,Liu Tracy,Li Yile,McDermott Adrian B.,Kwong Peter D.,Carlton Kevin,Gall Jason G.,Lei Q. Paula
Abstract
AbstractCAP256V2LS, a broadly neutralizing monoclonal antibody (bNAb), is being pursued as a promising drug for HIV-1 prevention. The total level of tyrosine-O-sulfation, a post-translational modification, was known to play a key role for antibody biological activity. More importantly, here wedescribe for the first time the significance of the tyrosine-O-sulfation proteoforms. We developed a hydrophobic interaction chromatography (HIC) method to separate and quantify different sulfation proteoforms, which led to the direct functionality assessment of tyrosine-sulfated species. The fully sulfated (4-SO3) proteoform demonstrated the highest in vitro relative antigen binding potency and neutralization efficiency against a panel of HIV-1 viruses. Interestingly, highly variable levels of 4-SO3 were produced by different clonal CHO cell lines, which helped the bNAb process development towards production of a highly potent CAP256V2LS clinical product with high 4-SO3 proteoform. This study presents powerful insight for any biotherapeutic protein development where sulfation may play an important role in product efficacy.
Funder
National Institutes of Health
Publisher
Springer Science and Business Media LLC