Here we investigated the pathogenesis and contact transmission of bovine- and human-derived highly pathogenic avian influenza (HPAI) H5N1 clade 2.3.4.4b genotype B3.13 viruses in mammalian models. Using reverse genetics, we rescued three naturally occurring viruses: rTX2/24 (bovine-derived), rTexas/37 and rMichigan/90 (both human-derived), and compared their infection dynamics, replication and pathogenicity with the wild-type bovine TX2/24 strain in vitro and in vivo. All four viruses demonstrated comparable replication kinetics in four mammalian cell lines. However, the rMichigan/90 strain exhibited significantly smaller plaques in bovine and human cells. In vivo studies showed that mice infected with any of the viruses succumbed to infection within 4-5 days; however, mice infected with the rMichigan/90 virus exhibited slightly lower viral replication and shedding compared to the other strains. Similarly, as in the mouse experiments, in hamsters, all viruses induced body weight loss and oral shedding, with robust virus replication observed in tissues, but the rMichigan/90 virus presented reduced replication and shedding. Contact transmission studies in hamsters revealed limited transmissibility for these viruses, with only one out of four animals inoculated with the rMichigan/90 virus transmitting it to a naive contact. These findings indicate that both bovine- and human-derived H5N1 genotype B3.13 viruses present high pathogenicity in mammals, though the overall transmissibility remains low.