Enhancing neutralizing antibodies against receptor binding domain of SARS-CoV-2 by a safe natural adjuvant system.

The receptor binding domain (RBD) plays a pivotal role in the viral entry as it enables the engagement of severe acute respiratory syndrome 2 (SARS-CoV-2) with the human angiotensin-converting enzyme 2 (ACE2) receptor for host cell entry. RBD is the major target for developing viral inhibitors and vaccines. Expression of recombinant RBD in E.coli is highly scalable with a low-cost procedure despite its high expression level compared to expression in mammalian and yeast cells. Using an alternative natural adjuvant system instead of alum adjuvant, increased immunogenicity of RBD antigen in serological assay including direct ELISA and surrogate Virus Neutralization Test (sVNT) was demonstrated with high levels of IgGs and neutralizing antibodies in mice sera immunized with RBD:AlSa (Alum and Sodium alginate) formulation. The sVNT is a simple and fast test that can be used instead of the conventional virus neutralization test requiring live virus and BSL3 laboratory to detect total neutralizing antibodies against RBD. Additionally, results showed a safety profile for sodium alginate which supported using it as an alternative natural adjuvant.

Enzymatic hydrolysis of microalgae proteins using serine proteases: A study to characterize kinetic parameters.

Protein composition and molecular weight play an important role in the digestibility of microalgae proteins. In this study for the first time, proteinous materials of Dunaliella salina and Spirulina platensis were extracted and purified by fast protein liquid chromatography. Then, they are affected by trypsin and chymotrypsin as indicator intestinal enzymes. The results showed that the extracted protein from S. plantesis (ProS) was more rapidly hydrolysed than proteins from D. salina (ProD) because of their lower molecular weight and likely their greater flexibility and open structure. Also, the extent of hydrolysis by trypsin and chymotrypsin of ProS were higher and faster than ProD due to the more number of hydrolytic sites in ProS for both enzymes. The catalytic efficiency and kcat displayed that ProS were more suitable substrate than ProD for intestinal enzymes. The results exhibited that chymotrypsin can act better and faster than trypsin on peptide bonds of proteins.