Production and Immunogenicity Assessment of LTp50: An Escherichia coli-Made Chimeric Antigen Targeting S1- and S2-Epitopes from the SARS-CoV-2/BA.5 Spike Protein.

Subunit vaccines stand as a leading approach to expanding the current portfolio of vaccines to fight against COVID-19, seeking not only to lower costs but to achieve long-term immunity against variants of concern and have the main attributes that could overcome the limitations of the current vaccines. Herein a chimeric protein targeting S1 and S2 epitopes, called LTp50, was designed as a convenient approach to induce humoral responses against SARS-CoV-2. LTp50 was produced in recombinant Escherichia coli using a conventional pET vector, recovering the expected antigen in the insoluble fraction. LTp50 was purified by chromatography (purity > 90%). The solubilization and refolding stages helped to obtain a stable protein amenable for vaccine formulation. LTp50 was adsorbed onto alum, resulting in a stable formulation whose immunogenic properties were assessed in BALB/c mice. Significant humoral responses against the S protein (BA.5 variant) were detected in mice subjected to three subcutaneous doses (10 µg) of the LTp50/alum formulation. This study opens the path for the vaccine formulation optimization using additional adjuvants to advance in the development of a highly effective anti-COVID-19 vaccine directed against the antigenic regions of the S protein, which are less prone to mutations.

Current advances in the algae-made biopharmaceuticals field.

INTRODUCTION: The biopharmaceuticals industry demands new production platforms to address several challenges; such as cost reduction to make biologics accessible in low-income countries, safety enhancement of the product, development of products administered by noninvasive routes, and expansion of potential biosimilars and biobetters. Microalgae are emerging hosts for biopharmaceuticals production with the potential to meet such requirements. AREAS COVERED: Nowadays successful cases on the production of vaccines, antibodies, antimicrobial peptides, growth factors/cytokines, and hormones in algae have been reported. This review comprises an updated outlook covering protein expression strategies, a compilation of functional biopharmaceuticals produced in algae, and companies investing in this technology. EXPERT OPINION: Key perspectives for the field include optimizing yields, scaling up production and completing preclinical trials. The experience from the field of plant-made biopharmaceuticals is commented as a key reference that will aid in the development of the algae-made biopharmaceuticals field.