UNC-45A Weakens and Breaks MT Lattice Independent of its Effect on Non-Muscle Myosin II

In invertebrates, UNC-45 regulates myosin stability and functions. Vertebrates have two distinct isoforms of the protein: UNC-45B, expressed in muscle cells only and UNC-45A, expressed in all cells and implicated in regulating both Non-Muscle Myosin II (NMII)- and microtubule (MT)-associated functions. Here we show for the first time that: a) in vitro UNC-45A binds to the MT lattice and weakens its integrity leading to MT bending, breakage and depolymerization, b) in cells, UNC-45A overexpression causes loss of MT mass and increase in MT breakages, c) both in vitro and in cells, UNC-45A destabilizes MTs independent of its NMII C-terminal binding domain and destabilization occurs even in presence of the NMII inhibitor blebbistatin. These findings are consistent with a not mutually exclusive but rather dual role of UNC-45A in regulating NMII activity and MT stability. Because many human diseases, from cancer to neurodegenerative diseases, are caused by or associated with deregulation of MT stability our findings have profound implications in both, the biology of MTs as well as the biology of human diseases and possible therapeutic implications for their treatment. ### Competing Interest Statement The authors have declared no competing interest.