On April 8, 2021 IMMUNOPRECISE ANTIBODIES LTD. (the "Company" or "IPA") (NASDAQ: IPA) (TSX VENTURE: IPA) a leader in full-service, therapeutic antibody discovery and development, reported that its subsidiary Talem Therapeutics LLC ("Talem") has advanced development of a candidate panel of vetted, novel, therapeutic antibodies, collectively referred to as TATX-112, against an undisclosed target, into formal lead candidate characterization (Press release, ImmunoPrecise Antibodies, APR 8, 2021, View Source [SID1234577731]).

Schedule your 30 min Free 1stOncology Demo!
Discover why more than 1,500 members use 1stOncology™ to excel in:

Early/Late Stage Pipeline Development - Target Scouting - Clinical Biomarkers - Indication Selection & Expansion - BD&L Contacts - Conference Reports - Combinatorial Drug Settings - Companion Diagnostics - Drug Repositioning - First-in-class Analysis - Competitive Analysis - Deals & Licensing

                  Schedule Your 30 min Free Demo!

It is well documented that certain genes, when mutated and expressed in different tissues and organs, may play a role in more than one disease.

Oncology

The target is a protein receptor that is overexpressed in a variety of types of deadly cancers. In solid tumors, stimulation of the target by its ligand is described to result in activation of intracellular signaling pathways that promote cancer cell growth, survival, invasiveness, metastatic behavior, and suppress chemotherapeutic sensitivity of the tumor cells. Therefore, interference with the target signaling is anticipated to be an attractive approach to induce tumor suppression, or halting tumor cell growth. As current therapies focusing on inhibiting intracellular target signaling consist primarily of non-target selective small molecule inhibitors, they may be high risk for unintentionally causing undesirable side-effects to the patient by functionally blocking related receptor proteins, which are more widely expressed in the human body, in parallel. In contrast, Talem has developed the TATX-112 antibodies with the goal of specifically blocking the interaction between the target and its ligand, e.g. functionally interfering with the target’s biology, which is expected to significantly improve specificity of such tumor therapy due to its relatively higher expression levels in tumors compared to normal tissue. That higher specificity is expected to increase the therapeutic window by lowering the potential risk of side effects and positively impacting treatment efficacy. Additionally, the target’s expression profile makes this membrane protein a promising candidate for antibody-drug conjugate-based therapies.

Neurodegenerative Diseases

In addition to its role in oncology, the target plays a vital role in the nervous system by enhancing neuronal development, survival, protection, and function. Alzheimer’s and other neurodegenerative diseases are associated with reduced expression levels of the target and impaired receptor signaling. Stimulating intracellular target signaling using agonistic antibodies is an appealing therapeutic approach to suppress disease progression with an expectedly higher safety profile than less-selective small molecules. Such therapeutic strategy requires blood-brain-barrier passage which can be facilitated by a bi- or multi-specific antibody format, including an antibody fragment that induces transport over the blood-brain-barrier upon binding.

Talem’s Pipeline

As the different clinical application options for TATX-112 antibodies require a functionally diversified set of lead candidates and antibody format flexibility, Talem relied on two of IPA’s proprietary target-enrichment antibody discovery platforms, B cell Select and DeepDisplay. Following selection of both target-reactive B cells from target immunized chicken and human scFvs from IPA’s in-house phage libraries, 50 sequence-unique antibodies of particular interest were prioritized for more in-depth characterization to bin antibodies for further (indication-specific) clinical development.

In addition to TATX-112, Talem is continuing development efforts of its other potential products leveraging its pipeline of highly differentiated therapeutic antibody programs for the potential treatment of various disease areas, including heart disease, inflammation, infectious diseases and cancer. The Company’s most advanced development program, TATX-03 ("anti-SARS PolyTope"), is a fully human, synergistic, antibody cocktail containing potently neutralizing antibodies against non-overlapping epitopes on SARS-CoV-2.

"Generating a diversified anti-target antibody panel during the discovery phase is key to a successful therapeutic lead campaign, in particular for programs that are aimed at obtaining antibodies with different modes of action," stated ImmunoPrecise President and CEO, Dr. Jennifer Bath. Leveraging our robust target-enrichment antibody discovery technologies, B cell Select and DeepDisplay, we discovered a highly sequence diverse pool of anti-target antibodies, which allows proper down-selection of the best-performing lead candidates for further development, thereby increasing the chance of successful clinical application."

About B cell Select

IPA’s B cell Select platform enables the interrogation of a greater diversity of an antibody repertoire. By interrogating isolated B cells, IPA can analyze full organism repertoires with very little manipulation. This proprietary platform is species independent allowing for the generation of antibodies from samples not possible using other methods. B cell Select has the potential to develop antibodies from any species (including humans) as well as from any tissue. As the platform explores the entire antibody repertoire, it provides the opportunity to develop antibodies for anything that is possible in an animal’s immune repertoire including any protein class, complex therapeutic targets, post-translational modifications, and small molecules.

The B cell Select platform enables the interrogation of 10 million blood cells to generate native monoclonal antibodies from immunized animals that specifically target an antigen. The B cell Select process takes place early in the antibody development process allowing for the rapid selection of top candidates, drastically increasing the success rate of antibody discovery. The platform also harnesses the power of the immune system to generate natural pairing of the antibodies produced by selected B cells.

About DeepDisplay

IPA’s DeepDisplay is a phage display approach based on building custom immune libraries from multiple species, including transgenic animals, or the selection of antigen-specific recombinant antibody fragments from our proprietary human or llama phage libraries. Our libraries have been made from human patient and naïve (scFv) repertoires, as well as from naïve llama (VHH) repertoires. Custom immune libraries are prepared from blood, spleen, lymph nodes, and bone marrow of immunized animals or humans and capture the entire immune repertoire for panning, rescue, and identification of unique antibodies with pre-specified characteristics.