Serotype-agnostic affinity purification of adeno-associated virus (AAV) via peptide-functionalized chromatographic resins.

Adeno-associated viruses (AAVs) have emerged as a prominent family of vectors for gene delivery, providing therapeutic options to diseases once deemed incurable. At the same time, they necessitate efficient and affordable purification methods that can be platformed to serve all AAV serotypes. Current chromatographic tools, while affording high product purity, fail to bind certain serotypes, provide limited yield and lifetime, and impose harsh elution conditions that can compromise the vector's activity and safety. Addressing these challenges, this work demonstrates the application of new peptide ligands as the first serotype-agnostic technology for AAV purification by affinity chromatography. Our study reveals a pH-dependent affinity interaction: AAV2, AAV3, AAV6, AAV9, and AAVrh.10 are effectively captured at neutral pH, while binding AAV1, AAV5, AAV7, and AAV8 is stronger in a slightly acidic environment. The elution of bound AAVs was achieved using magnesium chloride at neutral pH for all serotypes, consistently affording capsid yields above 50% and genome yields above 80%, together with a >100-fold reduction in host cell proteins and nucleic acids. In particular, peptide ligand A10 exhibited remarkable binding capacity (> 1014 vp per mL of resin) and purification performance for all AAV serotypes, demonstrating broad applicability for gene therapy manufacturing. Finally, this work introduces novel alkaline-stable variants of A10 and demonstrates their use as the first affinity ligands capable of performing multiple cycles of AAV2, AAV8, and AAV9 purification with intermediate caustic cleaning without loss of capacity or product quality. Collectively, these results demonstrate the promise of this technology to further the impact and affordability of gene therapy.

Development of peptide affinity ligands for the purification of polyclonal and monoclonal Fabs from recombinant fluids.

Engineered multi-specific monoclonal antibodies (msAbs) and antibody fragments offer valuable therapeutic options against metabolic disorders, aggressive cancers, and viral infections. The advancement in molecular design and recombinant expression of these next-generation drugs, however, is not equaled by the progress in downstream bioprocess technology. The purification of msAbs and fragments requires affinity adsorbents with orthogonal biorecognition of different portions of the antibody structure, namely its Fc (fragment crystallizable) and Fab (fragment antigen-binding) regions or the CH1-3 and CL chains. Current adsorbents rely on protein ligands that, while featuring high binding capacity and selectivity, need harsh elution conditions and suffer from high cost, limited biochemical stability, and potential release of immunogenic fragments. Responding to these challenges, we undertook the de novo discovery of peptide ligands that target different regions of human Fab and enable product release under mild conditions. The ligands were discovered by screening a focused library of 12-mer peptides against a feedstock comprising human Fab and Chinese hamster ovary host cell proteins (CHO HCPs). The identified ligands were evaluated via binding studies as well as molecular docking simulations, returning excellent values of binding capacity (Qmax ∼ 20 mg of Fab per mL of resin) and dissociation constant (KD = 2.16·10-6 M). Selected ligand FRWNFHRNTFFP and commercial Protein L ligands were further characterized by measuring the dynamic binding capacity (DBC10%) at different residence times (RT) and performing the purification of polyclonal and monoclonal Fabs from CHO-K1 cell culture fluids. The peptide ligand featured DBC10% ∼ 6-16 mg/mL (RT of 2 min) and afforded values of yield (93-96%) and purity (89-96%) comparable to those provided by Protein L resins.

Novel peptoid-based adsorbents for purifying IgM and IgG from polyclonal and recombinant sources.

Polyclonal immunoglobulin therapeutics comprising dosed IgG and IgM combinations are powerful tools in fighting cancer and severe infections. The inability of protein ligands to produce polyclonal IgG- and IgM-enriched formulations and recover monoclonal IgM calls for novel ligands with superior biorecognition activity. In this study, a peptoid ligand discovered by our group, and integrated into affinity adsorbents LigaTrap Technologies' "Human IgG" and "Human IgM", were utilized to purify IgG and IgM from complex fluids. IgG purification from human serum using LigaTrap IgG afforded 94.6% purity and 62.9% yield, on par with Protein A/G resins. When challenged with CHO and HEK cell culture harvests with low IgG titer (<1 mg/mL), LigaTrap IgG returned values of yield and purity well above 60% and 90%. LigaTrap IgM was evaluated for purifying IgM in comparison with commercial adsorbents, and afforded a product purity of 93% from a CHO harvest (IgM titer of 1 mg/mL) and 75.1% yield from a HEK harvest (0.5 mg/mL). LigaTrap-M provided IgM enrichment up to 11-fold higher than HiTrap resin. The peptoid adsorbents separated IgG-depleted human serum into IgM- and IgA-enriched fractions. These results demonstrate the potential of the peptoid ligand for manufacturing polyclonal Ig formulations and monoclonal IgM therapeutics.