Anti-HIV Humoral Response Induced by Different Anti-Idiotype Antibody Formats: An In Silico and In Vivo Approach.
Valeria CaputoIlaria NegriLouiza MoudoudMartina LiberaLuigi BonizziMassimo ClementiRoberta Antonia DiottiPublished in: International journal of molecular sciences (2024)
Despite advancements in vaccinology, there is currently no effective anti-HIV vaccine. One strategy under investigation is based on the identification of epitopes recognized by broadly neutralizing antibodies to include in vaccine preparation. Taking into account the benefits of anti-idiotype molecules and the diverse biological attributes of different antibody formats, our aim was to identify the most immunogenic antibody format. This format could serve as a foundational element for the development of an oligo-polyclonal anti-idiotype vaccine against HIV-1. For our investigation, we anchored our study on an established b12 anti-idiotype, referred to as P1, and proposed four distinct formats: two single chains and two minibodies, both in two different orientations. For a deeper characterization of these molecules, we used immunoinformatic tools and tested them on rabbits. Our studies have revealed that a particular minibody conformation, MbVHVL, emerges as the most promising candidate. It demonstrates a significant binding affinity with b12 and elicits a humoral anti-HIV-1 response in rabbits similar to the Fab format. This study marks the first instance where the minibody format has been shown to provoke a humoral response against a pathogen. Furthermore, this format presents biological advantages over the Fab format, including bivalency and being encoded by a monocistronic gene, making it better suited for the development of RNA-based vaccines.
Keyphrases
- antiretroviral therapy
- hiv positive
- hiv infected
- human immunodeficiency virus
- hepatitis c virus
- immune response
- hiv testing
- hiv aids
- men who have sex with men
- gene expression
- single cell
- mass spectrometry
- molecular dynamics simulations
- genome wide
- molecular docking
- dna binding
- molecularly imprinted
- genome wide identification