Enteric pharmacokinetics of monomeric and multimeric camelid nanobody single-domain antibodies.

Single-domain antibodies (sdAbs) derived from Camelidae heavy-chain-only antibodies (also called nanobodies or VHHs) have advantages over conventional antibodies in terms of their small size and stability to pH and temperature extremes, their ability to express well in microbial hosts, and to be functionally multimerized for enhanced properties. For these reasons, VHHs are showing promise as enteric disease therapeutics, yet little is known as to their pharmacokinetics (PK) within the digestive tract. To improve understanding of enteric VHH PK, we investigated the functional and structural stability of monomeric and multimeric camelid VHH-agents following in vitro incubation with intestinal extracts (chyme) from rabbits and pigs or fecal extracts from human sources, and in vivo in rabbits.

Co-administration of an effector antibody enhances the half-life and therapeutic potential of RNA-encoded nanobodies.

The incidence of Clostridioides difficile infection (CDI) and associated mortality have increased rapidly worldwide in recent years. Therefore, it is critical to develop new therapies for CDI. Here we report on the development of mRNA-LNPs encoding camelid-derived VH-based neutralizing agents (VNAs) targeting toxins A and/or B of C.

Understanding structure activity relationships of Good HEPES lipids for lipid nanoparticle mRNA vaccine applications.

Lipid nanoparticles (LNPs) have shown great promise as delivery vehicles to transport messenger ribonucleic acid (mRNA) into cells and act as vaccines for infectious diseases including COVID-19 and influenza. The ionizable lipid incorporated within the LNP is known to be one of the main driving factors for potency and tolerability. Herein, we describe a novel family of ionizable lipids synthesized with a piperazine core derived from the HEPES Good buffer.

The Impact of Actotoxumab Treatment of Gnotobiotic Piglets Infected With Different Clostridium difficile Isogenic Mutants.

Nosocomial infections with Clostridium difficile are on the rise in the Unites States, attributed to emergence of antibiotic-resistant and hypervirulent strains associated with greater likelihood of recurrent infections. In addition to antibiotics, treatment with Merck anti-toxin B (TcdB) antibody bezlotoxumab is reported to reduce recurrent infections. However, treatment with anti-toxin A (TcdA) antibody actotoxumab was associated with dramatically increased disease severity and mortality rates in humans and gnotobiotic piglets.

Therapeutic Efficacy of Bumped Kinase Inhibitor 1369 in a Pig Model of Acute Diarrhea Caused by Cryptosporidium hominis.

Recent reports highlighting the global significance of cryptosporidiosis among children have renewed efforts to develop control measures. We evaluated the efficacy of bumped kinase inhibitor (BKI) 1369 in the gnotobiotic piglet model of acute diarrhea caused by , the species responsible for most human cases. Five-day treatment with BKI 1369 reduced signs of disease early during treatment compared to those of untreated animals.

A holistic view of the dynamisms of teleost IgM: a case study of Streptococcus iniae vaccinated rainbow trout (Oncorhynchus mykiss).

To date, little is known about how trout IgM, the primary antibody of fish, varies in titer, specificity, disulfide cross-linking, and affinity following immunization with a pathogen. Work using defined antigens has demonstrated that the disulfide cross-linking structure of IgM becomes increasingly more polymerized during an immune response, coinciding with an increase in affinity, but it is unknown if this has relevance to aquatic pathogens. Understanding how IgM varies following vaccination with an aquatic pathogen is of considerable importance as effector functions allocated to multiple antibody isotypes in mammals are essentially relegated to this single molecule.