Pharmacologic and genetic approaches define human pancreatic β cell mitogenic targets of DYRK1A inhibitors
Courtney Ackeifi, Ethan Swartz, Kunal Kumar, Hongtao Liu, Suebsuwong Chalada, Esra Karakose, Donald K. Scott, Adolfo Garcia-Ocaña, Roberto Sanchez, Robert J. DeVita, Andrew F. Stewart, Peng Wang
Courtney Ackeifi, Ethan Swartz, Kunal Kumar, Hongtao Liu, Suebsuwong Chalada, Esra Karakose, Donald K. Scott, Adolfo Garcia-Ocaña, Roberto Sanchez, Robert J. DeVita, Andrew F. Stewart, Peng Wang
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Research Article Endocrinology Metabolism

Pharmacologic and genetic approaches define human pancreatic β cell mitogenic targets of DYRK1A inhibitors

Abstract

Small molecule inhibitors of dual specificity, tyrosine phosphorylation-regulated kinase 1A (DYRK1A), including harmine and others, are able to drive human β cell regeneration. While DYRK1A is certainly a target of this class, whether it is the only or the most important target is uncertain. Here, we employ a combined pharmacologic and genetic approach to refine the potential mitogenic targets of the DYRK1A inhibitor family in human islets. A combination of human β cell RNA sequencing, DYRK1A inhibitor kinome screens, pharmacologic inhibitors, and targeted silencing of candidate genes confirms that DYRK1A is a central target. Surprisingly, however, DYRK1B also proves to be an important target: silencing DYRK1A results in an increase in DYRK1B. Simultaneous silencing of both DYRK1A and DYRK1B yields greater β cell proliferation than silencing either individually. Importantly, other potential kinases, such as the CLK and the GSK3 families, are excluded as important harmine targets. Finally, we describe adenoviruses that are able to silence up to 7 targets simultaneously. Collectively, we report that inhibition of both DYRK1A and DYRK1B is required for induction of maximal rates of human β cell proliferation, and we provide clarity for future efforts in structure-based drug design for human β cell regenerative drugs.

Authors

Courtney Ackeifi, Ethan Swartz, Kunal Kumar, Hongtao Liu, Suebsuwong Chalada, Esra Karakose, Donald K. Scott, Adolfo Garcia-Ocaña, Roberto Sanchez, Robert J. DeVita, Andrew F. Stewart, Peng Wang

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Figure 6

Exploring the role of DYRK1A, DYRK1B, GSK3α, and GSK3β in harmine-, 5-IT–, and GNF4877-induced proliferation.

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Exploring the role of DYRK1A, DYRK1B, GSK3α, and GSK3β in harmine-, 5-IT...
(A) Adenoviral overexpression of DYRK1A or DYRK1B human β cell proliferation induced by harmine, 5-IT, or GNF4877 in the doses shown. Note that overexpression of either DYRK1A or DYRK1B markedly attenuates the induction of proliferation induced by harmine or 5-IT and, to a lesser extent, GNF4877. (B) The effect of the GSK3α and GSK3β inhibitors, tideglusib and CHIR99021, on human β cell proliferation alone or in combination with harmine. GNF4877 and harmine serve as positive controls, and GNF4877 generates a larger effect than harmine, as in Figure 5. *P < 0.05 vs. DMSO control, #P < 0.05 vs. harmine alone, all by 1-way ANOVA with Bonferroni’s multiple-comparisons test. Note that the addition of tideglusib or CHIR99021 to harmine seems to enhance its effects, rendering it comparable to GNF4877. (C) The effect of silencing GSK3α or GSK3β on proliferation induced by harmine, 5-IT, or GNF4877. Note that, in this paradigm, silencing the GSKs appears to have little effect on human β cell proliferation. NS, P > 0.05 by paired 2-tailed t test. (D) The effect of expressing a constitutively active GSK3β on harmine-, 5-IT–, and GNF4877-induced proliferation. In this paradigm, expressing a constitutively active GSK3β isoform has no effect on the mitogenic efficacy of harmine, 5-IT, or GNF4877. Ns, P > 0.05 by paired 2-tailed t tests. Data are shown as mean ± SEM, and the numbers of human islet donors in each panel are indicated by the symbols. Collectively, the studies in this panel, combined with those in B and C and Figure 3, suggest that if GSK3 inhibition contributes to the enhanced efficacy to GNF4877 or 5-IT as compared with harmine, it is a small contribution. Data are shown as mean ± SEM. In A, C, and D, *P < 0.05 vs. Ad.Con by 2-way ANOVA with Bonferroni’s multiple-comparisons test. NS, P > 0.05 all by 2-way ANOVA with Bonferroni’s multiple-comparisons test.