Nucleophosmin (NPM1) is a gene that is mutated in about 30% of AML patients. Mutant NPM1 is a driver mutation, meaning it is responsible for starting and sustaining leukemia. NPM1 is also a founder mutation, meaning it is present in all leukemia cells of a patient, making it an ideal target.The mutations in NPM1 result in a change in the amino acid sequence, e., they generate neoantigens. NPM1 mutation is present in: of all AML patients 30% of patients with normal cytogenetics 50%

TCX-102 Program

Discovery

IND-ENABLING

PHASE 1

HEMATOLOGIC

Discovery

IND-Enabling

PHASE 1

TCX-102: AML mutNPM1

IND EXPECTED IN 2Q2025

BlueSphere’s TCX-102 program is an autologous, engineered TCR T-cell therapy. This program builds upon the TCX-101 program by targeting an additional subset of patients with AML that have mutations in a gene called nucleophosmin-1 (NPM1).

Our lead candidate TCR candidate for this program has been identified and is currently in IND-enabling studies.

How does a T cell therapy work?

T cells kill targeted cells by using their TCR to identify fragments of antigens (peptides) presented by Human Leukocyte Antigens (HLA) molecules expressed by target cells. Think of this as a ‘lock and key’ system.
The TCR on the T cells acts as the key and the HLA-peptide on the target cell acts as the lock. If a T cell ‘key’ finds the right ‘lock’, it destroys the cell.
T cells can be engineered to have specific keys. When given to patients that have cancerous cells with a corresponding lock, then the TCR T cell therapy works to kill those cancerous cells.

What is NPM1?

Nucleophosmin (NPM1) is a gene that is mutated in about 30% of AML patients. Mutant NPM1 is a driver mutation, meaning it is responsible for starting and sustaining leukemia.
NPM1 is also a founder mutation, meaning it is present in all leukemia cells of a patient, making it an ideal target.
The mutations in NPM1 result in a change in the amino acid sequence, e., they generate neoantigens.

NPM1 mutation is present in:

of all AML patients

30%

of patients with normal cytogenetics

50%

How can mutant NPM1 be used as a cancer therapy target?

Fragments of the mutated NPM1 protein are expressed on the HLA molecules of AML-specific cells and can act as ‘lock’s for specific T cell ‘keys’ to target and kill.
TCX-102 is an engineered TCR T-cell therapy that recognizes and kills mutant NPM1-expressing cells.
Since mutated NPM1 is only present in leukemia cells, T cells that target the mutation will only kill leukemia cells and not harm the normal blood cells or blood cell precursors.
This cell therapy product is autologous, meaning it takes the patient’s own T cells, modifies them to be specific for targeting mutant NPM1, and reintroduces them into the patient where they then search for and kill the mutant NPM1-expressing cancerous cells. It is not given in combination with allogeneic stem cell transplant.

Together, TCX-101 and TCX-102 create a best-in-class portfolio for high-risk leukemia patients that address multiple critical points in AML disease progression to have a high impact on survival.

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