Continuous Tracking for Effective Tackling: Ad5/35 Platform-Based JN1 Lineage Vaccines Development in Response to Evolving SARS-CoV-2 Variants.

Publication date: Feb 01, 2025

The SARS-CoV-2 virus is continuously evolving, such that JN. 1 and its subvariants, including KP. 2, KP. 3, and LB. 1, are now predominant variants globally. JN. 1 is derived from BA. 2.86, which harbors more than 30 mutations in the spike protein compared with those of XBB and BA. 2, and it carries an additional L455S mutation. Given the rapid evolution of these variants, assessing the neutralization capacity of current JN. 1 lineage vaccines against prevalent variants, such as KP. 3, is critical. Phylogenetic trees using spike protein sequences and antigenic cartography based on neutralization results reveal that JN. 1 lineage variants are antigenically distant from previously circulating variants. Moreover, JN. 1 subvariants showed inadequate neutralization titers compared with other variants against XBB. 1.5-containing vaccine in mice. Immunization with vaccines targeting the JN. 1, KP. 2, KP. 3, and LB. 1 variants demonstrated significant neutralizing activity against predominant variants in mice. These results highlight the importance of vaccine development to keep pace with the evolution of SARS-CoV-2 variants and the need for updated vaccines targeting the JN. 1 variant.

Concepts	Keywords
Cartography	Animals
L455s	Antibodies, Neutralizing
Mice	Antibodies, Neutralizing
Rapid	Antibodies, Viral
Vaccines	Antibodies, Viral
	COVID-19
	COVID-19 Vaccines
	COVID-19 Vaccines
	COVID‐19 vaccine
	Female
	Humans
	Mice
	Mutation
	Neutralization Tests
	neutralizing activity
	Phylogeny
	SARS-CoV-2
	SARS‐CoV‐2 variants
	Spike Glycoprotein, Coronavirus
	Spike Glycoprotein, Coronavirus
	spike protein, SARS-CoV-2
	Vaccine Development

Semantics

Type	Source	Name
disease	IDO	protein
disease	MESH	COVID-19

Original Article

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