Novel Efficient Multistage Lead Optimization Pipeline Experimentally Validated for DYRK1B Selective Inhibitors

Abstract: In addition to general challenges in drug discovery such as the identification of lead compounds in time- and cost-effective ways, specific challenges also exist. Particularly, it is necessary to develop pharmacological inhibitors that effectively discriminate between closely related molecular targets. DYRK1B kinase is considered a valuable target for cancer-specific mono- or combination chemotherapy; however, the inhibition of its closely related DYRK1A kinase is not beneficial. Existing inhibitors target bot… Show more

“…Alexandrov and colleagues have recently reported an inventive pipeline for optimization of DYRK1B selective inhibitors (Alexandrov et al, 2022). However, the major obstacle for this and other structure based design methods was that experimental structure of DYRK1B was not available.…”

“…Alexandrov et al ( 7 ) reported a pipeline for optimizing selective inhibitors for DYRK1B. However, the key challenge in this and other structure-based design approaches was the lack of the experimental structure for DYRK1B.…”

“…This result demonstrates that a concentration of 10 μM AZ191 is sufficient to inhibit DYRK1B activity and thereby restore the functionality of the calcineurin/NFAT pathway in our cellular model. Alexandrov et al (7) reported a pipeline for optimizing selective inhibitors for DYRK1B. However, the key challenge in this and other structure-based design approaches was the lack of the experimental structure for DYRK1B.…”

“…To allow investigation of specific effects of each paralogue inhibition selective inhibitors are needed. For example, it has been suggested that selective inhibition may be beneficial in certain types of cancer (Alexandrov et al, 2022; Hu et al, 2013). Inhibitor development for closely related molecular targets is challenging and absence of crystal structure of DYRK1B further complicates the effort.…”

“…To understand the specific effects of inhibiting each paralogue, selective inhibitors are needed. These selective inhibitors would also play a key role in the treatment of certain types of cancer ( 7 , 30 ). However, developing selective inhibitors for closely related molecular targets is challenging and the lack of a crystal structure of DYRK1B further complicates the effort.…”

Structural perspective on the design of selective DYRK1B inhibitors

“…Alexandrov and colleagues have recently reported an inventive pipeline for optimization of DYRK1B selective inhibitors (Alexandrov et al, 2022). However, the major obstacle for this and other structure based design methods was that experimental structure of DYRK1B was not available.…”

“…Alexandrov et al ( 7 ) reported a pipeline for optimizing selective inhibitors for DYRK1B. However, the key challenge in this and other structure-based design approaches was the lack of the experimental structure for DYRK1B.…”

“…This result demonstrates that a concentration of 10 μM AZ191 is sufficient to inhibit DYRK1B activity and thereby restore the functionality of the calcineurin/NFAT pathway in our cellular model. Alexandrov et al (7) reported a pipeline for optimizing selective inhibitors for DYRK1B. However, the key challenge in this and other structure-based design approaches was the lack of the experimental structure for DYRK1B.…”

“…To allow investigation of specific effects of each paralogue inhibition selective inhibitors are needed. For example, it has been suggested that selective inhibition may be beneficial in certain types of cancer (Alexandrov et al, 2022; Hu et al, 2013). Inhibitor development for closely related molecular targets is challenging and absence of crystal structure of DYRK1B further complicates the effort.…”

“…To understand the specific effects of inhibiting each paralogue, selective inhibitors are needed. These selective inhibitors would also play a key role in the treatment of certain types of cancer ( 7 , 30 ). However, developing selective inhibitors for closely related molecular targets is challenging and the lack of a crystal structure of DYRK1B further complicates the effort.…”

Structural perspective on the design of selective DYRK1B inhibitors

CRISPR/Cas9-mediated knockout of DYRK1B in triple-negative breast cancer cells: implications for cell proliferation, apoptosis, and therapeutic sensitivity

Drug targets regulate systemic metabolism and provide new horizons to treat nonalcoholic steatohepatitis