Up to 25% off this spring for our immunoassay, flow cytometry and NanoString services
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Up to 25% off this spring for our immunoassay, flow cytometry and NanoString services
Signed in as:
filler@godaddy.com
Targeted Protein Degraders (TPDs) comprise a class of small molecules that induce protein degradation of a specific disease-causing protein by exploiting cellular endogenous ubiquitin-proteasome and autophagy–lysosome pathway system. In recent years, various molecule classes have evolved, including PROTACs (Proteolysis-targeting Chimeras), molecular glue, CHAMP (Chaperone-mediated Protein Degradation/Degrader), LYTAC (Lysosome-targeting Chimeras), to name a few.
PROTACs and other TPDs offer a fast and reversible chemical knock-down approach to control protein function. The impact of TPDs has changed the landscape of drug innovation. TPDs are emerging as a new therapeutic method to treat diseases such as cancer, inflammation or neurodegenerative disorders caused by the aberrant expression of a pathogenic protein. While traditional drugs can target only around 20% of the proteome, this new technology could reach the remaining 80% which is currently undruggable in terms of conventional methods, such as inhibitors and agonist/antagonists.
TPD discovery technology platforms at PicoImmune laboratories covers a variety of target protein ligands. In addition, PicoImmune has established as well as improved the TPD biological screening and testing platforms throughout the pre-clinical stages.
PicoImmune is confident in providing efficient, cost-effective, and professional services to support our clients to successfully reach their drug development milestones.
Example 1: Simple Western to quantify IKZF1/3 degradation in human lymphoma cells treated with a molecular glue compound
Example 2: In-Cell Western to quantify c-MYC degradation in MV-4-11 leukemia cells treated with a PROTAC compound
Example 3: Simple Western to quantify TRIM24 degradation in MCF-7 human breast cancer cells treated with a PROTAC compound
Example 4: IHC staining of protein degradation in tumor tissues from a xenograft model
Example 5: Traditional western blot to examine time kinetics of GSPT1 degradation and caspase activation in cancer cells treated with a molecular glue compound
Example 6: Simple Western to quantify SALL4 and PLZF degradation in induced pluripotent stem cells (iPSCs) treated with a CRBN-binding molecular glue compounds. SALL4 and PLZF are two thalidomide-dependent cereblon neo-substrates and may be related to drug-induced teratogenicity.
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Our scientists at PicoImmune are super excited to help you out with your R&D efforts.