Structure-Guided Prediction of the Functional Impact of DCLK1 Mutations on Tumorigenesis
Details
Publication Year 2023-03-22,Volume 11,Issue #3,Page 990
Journal Title
Biomedicines
Abstract
Doublecortin-like kinase 1 (DCLK1) is a functional serine/threonine (S/T)-kinase and a member of the doublecortin family of proteins which are characterized by their ability to bind to microtubules (MTs). DCLK1 is a proposed cancer driver gene, and its upregulation is associated with poor overall survival in several solid cancer types. However, how DCLK1 associates with MTs and how its kinase function contributes to pro-tumorigenic processes is poorly understood. This review builds on structural models to propose not only the specific functions of the domains but also attempts to predict the impact of individual somatic missense mutations on DCLK1 functions. Somatic missense mutations in DCLK1 are most frequently located within the N-terminal MT binding region and likely impact on the ability of DCLK1 to bind to αβ-tubulin and to polymerize and stabilize MTs. Moreover, the MT binding affinity of DCLK1 is negatively regulated by its auto-phosphorylation, and therefore mutations that affect kinase activity are predicted to indirectly alter MT dynamics. The emerging picture portrays DCLK1 as an MT-associated protein whose interactions with tubulin heterodimers and MTs are tightly controlled processes which, when disrupted, may confer pro-tumorigenic properties.
Publisher
MDPI
Keywords
Dclk1; Dcx; PEST domain; cancer; cryo-EM; crystal structure; doublecortin domain; kinase; microtubules; missense mutations
Research Division(s)
Chemical Biology
PubMed ID
36979969
Open Access at Publisher's Site
https://doi.org/ 10.3390/biomedicines11030990
Terms of Use/Rights Notice
Refer to copyright notice on published article.


Creation Date: 2023-04-13 11:09:50
Last Modified: 2023-04-13 11:40:59
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