Abstract
Mitotic spindles, which consist of microtubules (MTs) and associated proteins, play critical roles in controlling cell division and maintaining tissue homeostasis. The orientation of the mitotic spindle is closely related with the duration of mitosis. However, the molecular mechanism in regulating the orientation of the mitotic spindles is largely undefined. In this study, we found that Palladin is a novel MT-associated protein and regulator of spindle orientation, which maintains proper spindle orientation by stabilizing astral MTs. Palladin depletion distorted spindle orientation, prolonged the metaphase, and impaired proliferation of HeLa cells. Results showed that Palladin depletion-induced spindle misorientation and astral MT instability could be rescued by constitutively active AKT1 or dominant negative GSK3β. Our findings revealed that Palladin regulates spindle orientation and mitotic progression mainly through the AKT1–GSK3β pathway.
Highlights
Spindle orientation determines the axis of cell division
Palladin (PALLD, RIG-K) was originally cloned from the acute promyelocytic leukemia NB4 cell line induced by all-trans retinoic acid (ATRA) in our lab and was one of the up-regulated ATRA-inducing genes[13]
Our results showed that PALLD influenced cell proliferation mainly through regulating mitotic progression, especially at the metaphase
Summary
Spindle orientation determines the axis of cell division. precise orientation and architectural integrity of the mitotic spindle is critical for mitosis[1]. Palladin (PALLD, RIG-K) was originally cloned from the acute promyelocytic leukemia NB4 cell line induced by all-trans retinoic acid (ATRA) in our lab and was one of the up-regulated ATRA-inducing genes[13]. It has been characterized as a key actin-binding and microfilament-associated protein[14]. We found that PALLD interacted with AKT1 via the third IgC domain to maintain AKT1-GSK3β activation and spindle orientation. These findings suggested that PALLD played important roles in spindle orientation maintenance and mitotic progression
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