Characterization of BNT162b2 mRNA to Evaluate Risk of Off-Target Antigen Translation.

mRNA vaccines have been established as a safe and effective modality, thanks in large part to the expedited development and approval of COVID-19 vaccines. In addition to the active, full-length mRNA transcript, mRNA fragment species can be present as a byproduct of the cell-free transcription manufacturing process or due to mRNA hydrolysis. In the current study, mRNA fragment species from BNT162b2 mRNA were isolated and characterized. The translational viability of intact and fragmented mRNA species was further explored using orthogonal expression systems to understand the risk of truncated spike protein or off-target antigen translation. The study demonstrates that mRNA fragments are primarily derived from premature transcriptional termination during manufacturing, and only full-length mRNA transcripts are viable for expression of the SARS-CoV-2 spike protein antigen.

Edetate Disodium as a Polysorbate Degradation and Monoclonal Antibody Oxidation Stabilizer.

Polysorbates are frequently used in biotherapeutic formulations. Interest in assessing their stability, in particular the impact of their degradation products on the stability of therapeutic proteins, has been steadily growing in the past decade. The work presented summarizes a case study of a monoclonal antibody formulation that demonstrated a simultaneous loss of polysorbate and an increase in methionine oxidation. Spiking studies were conducted to determine both the cause and a potential mitigation for the monoclonal antibody (mAb) oxidation and polysorbate 80 (PS80) loss. The results indicated that a different source material exhibited different rates of mAb oxidation and PS80 loss and that in all evaluated materials, the addition of edetate disodium to the formulation mitigated both observed issues. The mAb was assessed for the presence of lipases and lipoprotein lipase was detected at low levels. It is proposed that edetate disodium was effective in mitigating the mAb oxidation and PS80 loss by chelating calcium in the formulation and therefore decreasing the activity of the lipases.