Abstract
Despite a reduction in global HIV prevalence the development of a pipeline of new therapeutics or pre-exposure prophylaxis to control the HIV/AIDS epidemic are of high priority. Antibody-based therapies offer several advantages and have been shown to prevent HIV-infection. Plant-based production is efficient for several biologics, including antibodies. We provide a short review on the work by Singh et al., 2020 who demonstrated the transient production of potent CAP256-VRC26 broadly neutralizing antibodies. These antibodies have engineered posttranslational modifications, namely N-glycosylation in the fragment crystallizable region and O-sulfation of tyrosine residues in the complementary-determining region H3 loop. The glycoengineered Nicotiana benthamiana mutant (ΔXTFT) was used, with glycosylating structures lacking β1,2-xylose and/or α1,3-fucose residues, which is critical for enhanced effector activity. The CAP256-VRC26 antibody lineage targets the first and second variable region of the HIV-1 gp120 envelope glycoprotein. The high potency of this lineage is mediated by a protruding O-sulfated tyrosine in the CDR H3 loop. Nicotiana benthamiana lacks human tyrosyl protein sulfotransferase 1, the enzyme responsible for tyrosine O-sulfation. The transient coexpression of the CAP256-VRC26 antibodies with tyrosyl protein sulfotransferase 1 in planta had restored the efficacy of these antibodies through the incorporation of the O-sulfation modification. This approach demonstrates the strategic incorporation of posttranslational modifications in production systems, which may have not been previously considered. These plant-produced CAP256-VRC26 antibodies have therapeutic as well as topical and systemic pre-exposure prophylaxis potential in enabling the empowerment of young girls and women given that gender inequalities remain a major driver of the epidemic.
Highlights
Despite the global reduction in HIV prevalence, of the 38 million people living with human immunodeficiency virus/ acquired immunodeficiency syndrome (HIV/ AIDS), only 25.4 million people are currently on antiretroviral treatment [1]
We provide a short review on the paper entitled “Plantbased production of highly potent anti-HIV antibodies with engineered posttranslational modifications”
The ability to perform crucial N-glycosylation lacking β1,2-xylose and/or α1,3fucose residues using glycoengineered N. benthamiana (ΔXTFT) plants complemented with the coexpression of the antibodies with human tyrosyl protein sulfotransferase 1 had been demonstrated, enabling the O-sulfation of tyrosine residues in the complementary-determining region (CDR) Complementary-determining region H3 (H3) loop
Summary
Despite the global reduction in HIV prevalence, of the 38 million people living with human immunodeficiency virus/ acquired immunodeficiency syndrome (HIV/ AIDS), only 25.4 million people are currently on antiretroviral treatment [1]. This publication reported the production of potent CAP256VRC26 bNAbs with engineered PTMs in the antigen and fragment crystallizable (Fc) (receptor binding) region of the antibodies, respectively [17].
Sign-in/Register to view highlights & summary 
Published Version (
Free)
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call