Nonclinical teratogenicity safety assessment of CRBN-engaging targeted protein degraders: Points to consider.

Targeted protein degraders (or degraders) are an emerging small molecule drug modality with transformative therapeutic potential. Currently, most degraders are developed for severe life-threatening disorders and engage the E3 ligase cereblon. One barrier to the broader use of degraders is the potential risk of embryofetal toxicity with cereblon-engaging degraders, exemplified by thalidomide.

Elarekibep (PRS-060/AZD1402), a new class of inhaled Anticalin medicine targeting IL-4Ra for type 2 endotype asthma.

Background: Type 2 endotype asthma is driven by IL-4 and IL-13 signaling via IL-4Ra, which is highly expressed on airway epithelium, airway smooth muscle, and immunocytes in the respiratory mucosa, suggesting potential advantages of an inhalable antagonist. Lipocalin 1 (Lcn1), a 16 kDa protein abundant in human periciliary fluid, has a robust drug-like structure well suited to protein engineering, but it has never been used to make an inhaled Anticalin protein therapeutic.

Objectives: We sought to reengineer Lcn1 into an inhalable IL-4Ra antagonist and assess its pharmacodynamic/kinetic profile.

BSTP Review of 12 Case Studies Discussing the Challenges, Pathology, Immunogenicity, and Mechanisms of Inhaled Biologics.

The inhalation route is a relatively novel drug delivery route for biotherapeutics and, as a result, there is a paucity of published data and experience within the toxicology/pathology community. In recent years, findings arising in toxicology studies with inhaled biologics have provoked concern and regulatory challenges due, in part, to the lack of understanding of the expected pathology, mechanisms, and adversity induced by this mode of delivery. In this manuscript, the authors describe 12 case studies, comprising 18 toxicology studies, using a range of inhaled biotherapeutics (monoclonal antibodies, fragment antigen-binding antibodies, domain antibodies, therapeutic proteins/peptides, and an oligonucleotide) in rodents, nonhuman primates (NHPs), and the rabbit in subacute (1 week) to chronic (26 weeks) toxicology studies.

Sustained plasma hepcidin suppression and iron elevation by Anticalin-derived hepcidin antagonist in cynomolgus monkey.

Background And Purpose: Anaemia of chronic disease (ACD) has been linked to iron-restricted erythropoiesis imposed by high circulating levels of hepcidin, a 25 amino acid hepatocyte-derived peptide that controls systemic iron homeostasis. Here, we report the engineering of the human lipocalin-derived, small protein-based anticalin PRS-080 hepcidin antagonist with high affinity and selectivity.

Experimental Approach: Anticalin- and hepcidin-specific pharmacokinetic (PK)/pharmacodynamic modelling (PD) was used to design and select the suitable drug candidate based on t extension and duration of hepcidin suppression.

Functional characterization of a VEGF-A-targeting Anticalin, prototype of a novel therapeutic human protein class.

Human tear lipocalin (Tlc) was utilized as a protein scaffold to engineer an Anticalin that specifically binds and functionally blocks vascular endothelial growth factor A (VEGF-A), a pivotal inducer of physiological angiogenesis that also plays a crucial role in several neovascular diseases. Starting from a naive combinatorial library where residues that form the natural ligand-binding site of Tlc were randomized, followed by affinity maturation, the final Anticalin PRS-050 was selected to bind all major splice forms of VEGF-A with picomolar affinity. Moreover, this Anticalin cross-reacts with the murine ortholog.