Dynamic regulation of dynein localization revealed by small molecule inhibitors of ubiquitination enzymes

Author(s)

Monda, Julie Kathryn; Cheeseman, Iain M

Abstract

Cytoplasmic dynein is a minus-end-directed microtubule-based motor that acts at diverse subcellular sites. During mitosis, dynein localizes simultaneously to the mitotic spindle, spindle poles, kinetochores and the cell cortex. However, it is unclear what controls the relative targeting of dynein to these locations. As dynein is heavily post-translationally modified, we sought to test a role for these modifications in regulating dynein localization. We find that dynein rapidly and strongly accumulates at mitotic spindle poles following treatment with NSC697923, a small molecule that inhibits the ubiquitin E2 enzyme, Ubc13, or treatment with PYR-41, a ubiquitin E1 inhibitor. Subsets of dynein regulators such as Lis1, ZW10 and Spindly accumulate at the spindle poles, whereas others do not, suggesting that NSC697923 differentially affects specific dynein populations. We additionally find that dynein relocalization induced by NSC697923 or PYR-41 can be suppressed by simultaneous treatment with the non-selective deubiquitinase inhibitor, PR-619. However, we did not observe altered dynein localization following treatment with the selective E1 inhibitor, TAK-243. Although it is possible that off-target effects of NSC697923 and PYR-41 are responsible for the observed changes in dynein localization, the rapid relocalization upon drug treatment highlights the highly dynamic nature of dynein regulation during mitosis. Keywords:dynein, ubiquitin, NSC697923, PYR-41, mitosis, microtubules

Date issued

2018-09

URI

http://hdl.handle.net/1721.1/120942

Department

Massachusetts Institute of Technology. Department of Biology

Journal

Open Biology

Publisher

Royal Society

Citation

Monda, Julie K., and Iain M. Cheeseman. “Dynamic Regulation of Dynein Localization Revealed by Small Molecule Inhibitors of Ubiquitination Enzymes.” Open Biology 8, no. 9 (September 2018): 180095. © 2018 The Authors

Version: Final published version

ISSN

2046-2441