>Quality Characterization Analytical Service
Macromolecules play an integral role in therapeutic research and development, encompassing therapeutic drugs such as monoclonal antibodies, recombinant proteins, polypeptides, antibody-drug conjugates (ADCs), and bispecific antibodies. Unlike small molecule drugs that are less than 1kDa, macromolecules have a significantly higher molecular weight in the 10-1000kDa range. Due to this size, there are numerous potential modification sites and can easily aggregate in solution to form particles. Thus, quality characterization in different stages throughout the drug life cycle and production process is critical in ensuring the success of drug research and development and accelerate the drug development timeline.
Several key elements of macromolecular drug characterization include accurate amino acid sequencing, molecular weight determination, stability, and degree of polymerization. Of these characteristics, stability is one of the main indicators for evaluating the quality of pharmaceutical preparations and is the main basis for determining the service life of pharmaceutical preparations.
ACROBiosystems has built a quality characterization and analysis service platform based on SEC-MALS and UNcle. Our platform enables the analysis of melting temperature (Tm), particle size, molecular weight, degree of polymerization, and purity. Both instruments have low sample consumption, high sample throughputs, and are label-free testing methods. With our available technologies, our platform meets the testing needs of the entire drug research and development, process and process development, product quality control and others.
|Principle of SEC-MALS|
|Size-exclusion Chromatography (SEC) is a chromatographic method that separates components by its molecular size. Uniformly porous beads are packed into a column to separate a sample based on molecular size. Multi-angle light scattering (MALS) is a post-column detection method that measures the intensity of scattered light at multiple angles at the same time. Through the combination of SEC-MALS, the molecular weight of an analyte can be directly calculated based on light scattering without being dependent on retention time.|
※ Recombinant Proteins
※ Polypeptides (Column and method shall be provided)
|Principle of UNcle|
|UNcle is a technology platform that analyzes various protein characteristics. The folding state of the protein is tracked by detecting the changes in its endogenous fluorescence through differential scanning fluorimetry (DSF). This determines the Tm of the protein stability and detects the thermal stability or chemical stability of the protein. Using dynamic light scattering (DLS), the particle size and its distribution can be calculated through the fluctuation and the correlation function of light intensity.|
※ Tm determination: Protein, Adeno-Associated Virus(AAV), Lipid Nanoparticle(LNP)
※ Particle size determination：Unlimited
SEC-MALS can determine the purity and degree of polymerization of various antibodies and proteins, while analyzing the modification of protein complexes by measuring the absolute molecular weight.
UNcle can carry out preparation development/optimization/formula screening, thermal stability evaluation and screening of drug candidate molecules (recombinant protein, monoclonal antibody, BsAb, ADC, AAV) by determining Tm and particle size.
Three known antibody drugs, OKT3, Herceptin, and Ipilimumab, were determined by SEC-MALS. The molecular weight of the three antibodies is within a close range of 150-160 kDa. SEC-MALS was performed on the peaks with the retention time, calculating a molecular weight of 161.6, 15, and 172.2 kDa for each peak. The calculated molecular weight by SEC-MALS were close to the expected theoretical molecular weight (Fig. 1).
SEC-MALS can be used to determine glycosylation, PEG-modified proteins, membrane proteins and other complex modifications.
The degree of polymerization and protein purity is a critical part of protein characterization. For example, the SARS-CoV-2 virus S-protein functions as a trimer, consisting of three identical molecules encoded by the same gene. The researchers found that the conformational form of the S protein is naturally unstable, even if it does not bind to the host cell receptor ACE2. Similarly, there are also spontaneous conformational changes from prefusion to postfusion, which poses a signficiant challenges for vaccine development and neutralizing antibody screening. Cat. No. SPN-C52H9 (SARS-CoV-2 S protein, His Tag, Super stable trimer (MALS & NS-EM verified).
Fig 3. SDS-PAGE identified the SARS-CoV-2 S protein under reduced conditions. His Tag, Super stable trimer (MALS & NS-EM verified) (Cat. No. SPN-C52H9 ) The purity is over 90%, and the molecular weight is about 550-660 kDa by SEC-MALS. The size and appearance of the SARS-CoV-2 trimer verified with NS-EM were like those reported in the published literature.
Candidate drug molecules can be screened based on their different initial conformations, which alters the calculated Tm values. As such, four different samples can be screened based on the calculated Tm.
Fig 4. A2829-180803F1 Bulk Tm is relatively low, and the initial BCM value is significantly lower than that of the other three samples. It is speculated that its initial conformation state is different from that of the other three samples. The Tm detection value is also different from the other three samples.
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