A novel Hendra virus (HeV) genotype (HeV genotype 2 [HeV-g2]) was recently isolated from a deceased horse, revealing high-sequence conservation and antigenic similarities with the prototypic strain, HeV-g1. As the receptor-binding (G) and fusion (F) glycoproteins of HeV are essential for mediating viral entry, functional characterization of emerging HeV genotypic variants is key to understanding viral entry mechanisms and broader virus-host co-evolution. We first confirmed that HeV-g2 and HeV-g1 glycoproteins share a close phylogenetic relationship, underscoring HeV-g2’s relevance to global health. Our in vitro data showed that HeV-g2 glycoproteins induced cell-cell fusion in human cells, shared receptor tropism with HeV-g1, and cross-reacted with antibodies raised against HeV-g1. Despite these similarities, HeV-g2 glycoproteins yielded reduced syncytia formation compared to HeV-g1. By expressing heterotypic combinations of HeV-g2, HeV-g1, and Nipah virus (NiV) glycoproteins, we found that while HeV-g2 G had strong fusion-promoting abilities, HeV-g2 F consistently displayed hypofusogenic properties. These fusion phenotypes were more closely associated with those observed in the related NiV. Further investigation using HeV-g1 and HeV-g2 glycoprotein chimeras revealed that multiple domains may play roles in modulating these fusion phenotypes. Altogether, our findings may establish intrinsic fusogenic capacities of viral glycoproteins as a potential driver behind the emergence of new henipaviral variants.