Our goal is to create a transformative new class of highly durable, off-the-shelf, redosable medicines that provide long-lasting production of therapeutic proteins: Engineered B Cell Medicines (BCMs).
A Powerful Platform
We have built a powerful engineered B cell medicines platform to deliver transformative therapies for patients, opening a new and paradigm-shifting class of cellular medicines.
Through precision engineering, we can create B cells designed to produce specific therapeutic proteins needed for a specific disease. The modularity of our platform allows us to develop medicines to treat a broad range of diseases.
Our therapies are based on a cell that naturally produces several thousand antibodies per second to prevent or reverse disease progression. BCMs can also spare patients from potentially harmful side effects and invasive pretreatment procedures that often accompany traditional cell and gene therapies.
Therapeutic Focus
We are building a broad portfolio initially across rare disease and oncology and are currently moving these programs toward the clinic. As we advance, we will optimize multiple different prototypes, enabling expansion into new indications and therapeutic areas.
A Programmable Platform
Precise Genome Editing Of Peripheral Blood B Cells
This step is highly modular. Starting with circulating B cells, we use precision genome engineering to insert a gene into an exact chromosomal location. By swapping in different genes of interest, we can create new product candidates for multiple diseases.
Engineered To Differentiate B Cells Into Protein-secreting Plasma Cells
Engineered B cells are expanded and then, by changing culture conditions, they are differentiated into plasma cells that secrete the desired therapeutic protein. All of these steps have been optimized for scale-up and clinical manufacturing.
Designed To Act As Medicine Factories
With the capacity to produce thousands of antibodies per cell every second, they are ready for patient treatment. When infused into patients, these plasma cells migrate to the bone marrow to produce the desired therapeutic protein at constant levels. Being terminally differentiated and more able to evade immune detection, these properties give our BCMs a unique potential of both controlled and repeat dosing.
The potential for patient impact is profound and spans an exceptionally broad therapeutic space.
