Klaus-Peter Behr scite author profile

S u m m a r y Cloaca1 swabs from adult breeding geese of both sexes from six separate farms were culturally examined for mycoplasmas. Geese from these flocks did not show any clinical signs of illness, increased mortality or drop in egg production during the reproductive season.The results revealed the presence of mycoplasmas in all the flocks tested. Mycoplasma (M.) cloacale was found in 6 flocks, M. anseris in 4 flocks, Mycoplasma species 1220 in 3 flocks and non-identifiable Mycoplasmas in 2 flocks. More than one Mycoplasma species was simultaneously isolated from 14 out of 37 geese.

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Neuraminidase-associated plasminogen recruitment enables systemic spread of natural avian Influenza viruses H3N1

Schön

Breithaupt

Höper

et al. 2021

PLoS Pathog

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Repeated outbreaks due to H3N1 low pathogenicity avian influenza viruses (LPAIV) in Belgium were associated with unusually high mortality in chicken in 2019. Those events caused considerable economic losses and prompted restriction measures normally implemented for eradicating high pathogenicity avian influenza viruses (HPAIV). Initial pathology investigations and infection studies suggested this virus to be able to replicate systemically, being very atypical for H3 LPAIV. Here, we investigate the pathogenesis of this H3N1 virus and propose a mechanism explaining its unusual systemic replication capability. By intravenous and intracerebral inoculation in chicken, we demonstrate systemic spread of this virus, extending to the central nervous system. Endoproteolytic viral hemagglutinin (HA) protein activation by either tissue-restricted serine peptidases or ubiquitous subtilisin-like proteases is the functional hallmark distinguishing (H5 or H7) LPAIV from HPAIV. However, luciferase reporter assays show that HA cleavage in case of the H3N1 strain in contrast to the HPAIV is not processed by intracellular proteases. Yet the H3N1 virus replicates efficiently in cell culture without trypsin, unlike LPAIVs. Moreover, this trypsin-independent virus replication is inhibited by 6-aminohexanoic acid, a plasmin inhibitor. Correspondingly, in silico analysis indicates that plasminogen is recruitable by the viral neuraminidase for proteolytic activation due to the loss of a strongly conserved N-glycosylation site at position 130. This mutation was shown responsible for plasminogen recruitment and neurovirulence of the mouse brain-passaged laboratory strain A/WSN/33 (H1N1). In conclusion, our findings provide good evidence in natural chicken strains for N1 neuraminidase-operated recruitment of plasminogen, enabling systemic replication leading to an unusual high pathogenicity phenotype. Such a gain of function in naturally occurring AIVs representing an established human influenza HA-subtype raises concerns over potential zoonotic threats.

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Klaus-Peter Behr

Pathogenesis ofRiemerella anatipestiferin turkeys after experimental mono-infection via respiratory routes or dual infection together with the avian metapneumovirus

Isolation of Mycoplasmas from Clinically Healthy Adult Breeding Geese in Germany

Neuraminidase-associated plasminogen recruitment enables systemic spread of natural avian Influenza viruses H3N1

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