Structure and supramolecular organization of the canine distemper virus attachment glycoprotein.

Canine distemper virus (CDV) is an enveloped RNA morbillivirus that triggers respiratory, enteric, and high incidence of severe neurological disorders. CDV induces devastating outbreaks in wild and endangered animals as well as in domestic dogs in countries associated with suboptimal vaccination programs. The receptor-binding tetrameric attachment (H)-protein is part of the morbilliviral cell entry machinery.

LRP6 Is a Functional Receptor for Attenuated Canine Distemper Virus.

Wild-type canine distemper virus (CDV) is an important pathogen of dogs as well as wildlife that can infect immune and epithelial cells through two known receptors: the signaling lymphocytic activation molecule (SLAM) and nectin-4, respectively. Conversely, the ferret and egg-adapted CDV-Onderstepoort strain (CDV-OP) is employed as an effective vaccine for dogs. CDV-OP also exhibits promising oncolytic properties, such as its abilities to infect and kill multiple cancer cells .

Efficient recovery of attenuated canine distemper virus from cDNA.

To provide insights into the biology of the attenuated canine distemper virus (CDV) Onderstepoort (OP) strain (large plaque forming variant), design next-generation multivalent vaccines, or further investigate its promising potential as an oncolytic vector, we employed contemporary modifications to establish an efficient OP-CDV-based reverse genetics platform. Successful viral rescue was obtained however only upon recovery of a completely conserved charged residue (V13E) residing at the N-terminal region of the large protein (L). Although L-V13 and L-V13E did not display drastic differences in cellular localization and physical interaction with P, efficient polymerase complex (P+ L) activity was recorded only with L-V13E.

Biparatopic sybodies neutralize SARS-CoV-2 variants of concern and mitigate drug resistance.

The ongoing COVID-19 pandemic represents an unprecedented global health crisis. Here, we report the identification of a synthetic nanobody (sybody) pair, Sb#15 and Sb#68, that can bind simultaneously to the SARS-CoV-2 spike RBD and efficiently neutralize pseudotyped and live viruses by interfering with ACE2 interaction. Cryo-EM confirms that Sb#15 and Sb#68 engage two spatially discrete epitopes, influencing rational design of bispecific and tri-bispecific fusion constructs that exhibit up to 100- and 1,000-fold increase in neutralization potency, respectively.

Cryo-EM structure of the prefusion state of canine distemper virus fusion protein ectodomain.

Measles virus (MeV) and canine distemper virus (CDV), two members of the genus, are still causing important global diseases of humans and animals, respectively. To enter target cells, morbilliviruses rely on an envelope-anchored machinery, which is composed of two interacting glycoproteins: a tetrameric receptor binding (H) protein and a trimeric fusion (F) protein. To execute membrane fusion, the F protein initially adopts a metastable, prefusion state that refolds into a highly stable postfusion conformation as the result of a finely coordinated activation process mediated by the H protein.

Regulatory Role of the Morbillivirus Attachment Protein Head-to-Stalk Linker Module in Membrane Fusion Triggering.

Morbillivirus (e.g., measles virus [MeV] and canine distemper virus [CDV]) host cell entry is coordinated by two interacting envelope glycoproteins, namely, an attachment (H) protein and a fusion (F) protein.

Dimerization Efficiency of Canine Distemper Virus Matrix Protein Regulates Membrane-Budding Activity.

Paramyxoviruses rely on the matrix (M) protein to orchestrate viral assembly and budding at the plasma membrane. Although the mechanistic details remain largely unknown, structural data suggested that M dimers and/or higher-order oligomers may facilitate membrane budding. To gain functional insights, we employed a structure-guided mutagenesis approach to investigate the role of canine distemper virus (CDV) M protein self-assembly in membrane-budding activity.

Development of a 4-valent genotyping assay for direct identification of the most frequent Pseudomonas aeruginosa serotypes from respiratory specimens of pneumonia patients.

Pseudomonas aeruginosa is a common cause of nosocomial infections and is associated with high rates of mortality. In order to facilitate rapid and sensitive identification of the most prevalent serotypes of P. aeruginosa, we have developed a 4-valent real-time PCR-based assay using oligonucleotides specific for open-reading frames constituting the O-antigen-specific lipopolysaccharide loci of P.

A comparative characterization of dipentameric (IgM)(2) and pentameric IgM species present in preparations of a monoclonal IgM for therapeutic use.

IgM aggregates in biotechnologically produced preparations have been reported, however, in vitro characteristics and in vivo activity of IgM aggregates have not been well studied. We separated two species of the human monoclonal IgM antibody KBPA-101 by size-exclusion chromatography. Molecular weight determination indicated the presence of dipentameric and pentameric forms.