Technology ID
TAB-2564
Pyruvate Kinase M2 Activators for the Treatment of Cancer
E-Numbers
E-298-2011-1
Lead Inventor
Thomas, Craig (National Human Genome Research Institute (NIH/NHGRI))
Co-Inventors
Jiang, Jian-kang (NCATS)
Boxer, Matthew (NCATS)
Shen, Min (NCATS)
Auld, Douglas (Novartis Institutes for BioMedical Research)
Applications
Therapeutics
Research Materials
Diagnostics
Therapeutic Areas
Oncology
Development Status
- Early-stage
- In vitro data available
Lead IC
NCATS
ICs
NCATS
This technology describes a series of small-molecule activators of the pyruvate kinase M2 isoform (PK-M2).
Pyruvate kinase (PK) is a critical metabolic enzyme that catalyzes the last step of the glycolytic pathway. It exists in several isoforms with different patterns of tissue expression. One isoform, PK-M2, is expressed in cells with a high rate of nucleic acid synthesis, including most tumors, which makes this enzyme an attractive target for cancer therapy. PK-M2 can occur in either a tetrameric form or a dimeric form in proliferating cells; a high tetramer to dimer ratio leads to energy production, while a low ratio channels metabolites into synthetic processes. In tumor cells, oncoproteins induce dimerization of PK-M2, resulting in the inactive form of the protein and allowing synthesis of building blocks for cell proliferation. Activation of PK-M2 in these cells may prevent the buildup of metabolic intermediates and thereby stall tumor cell proliferation. Further, after embryonic development PK-M2 expression is primarily restricted to tumor cells, so specific activators of PK-M2 would be expected to affect only tumor cells, and would be less likely to be toxic in normal tissues.
Investigators at the National Center for Advancing Translational Sciences have discovered a series of small molecules that specifically activate the PK-M2 isoform and that may be useful for the treatment of cancer. These compounds are based upon a substituted thieno[3,2-b]pyrrole[3,2-d]pyridazinone scaffold.
Pyruvate kinase (PK) is a critical metabolic enzyme that catalyzes the last step of the glycolytic pathway. It exists in several isoforms with different patterns of tissue expression. One isoform, PK-M2, is expressed in cells with a high rate of nucleic acid synthesis, including most tumors, which makes this enzyme an attractive target for cancer therapy. PK-M2 can occur in either a tetrameric form or a dimeric form in proliferating cells; a high tetramer to dimer ratio leads to energy production, while a low ratio channels metabolites into synthetic processes. In tumor cells, oncoproteins induce dimerization of PK-M2, resulting in the inactive form of the protein and allowing synthesis of building blocks for cell proliferation. Activation of PK-M2 in these cells may prevent the buildup of metabolic intermediates and thereby stall tumor cell proliferation. Further, after embryonic development PK-M2 expression is primarily restricted to tumor cells, so specific activators of PK-M2 would be expected to affect only tumor cells, and would be less likely to be toxic in normal tissues.
Investigators at the National Center for Advancing Translational Sciences have discovered a series of small molecules that specifically activate the PK-M2 isoform and that may be useful for the treatment of cancer. These compounds are based upon a substituted thieno[3,2-b]pyrrole[3,2-d]pyridazinone scaffold.
Commercial Applications
- Targeted therapeutic agent for cancer and other cell proliferation disorders.
Competitive Advantages
- Compounds are specific to one isoform of pyruvate kinase
- Compounds target tumor cells and not normal cells, so side effects may be reduced
- Compounds are small molecules which may be further optimized
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