Your search keyword '"UNC-45A"' showing total 3 results

1. UNC-45A breaks the microtubule lattice independently of its effects on non-muscle myosin II.

Author

Habicht, Juri, Mooneyham, Ashley, Hoshino, Asumi, Shetty, Mihir, Xiaonan Zhang, Emmings, Edith, Qing Yang, Coombes, Courtney, Gardner, Melissa K., and Bazzaro, Martina

Subjects

MYOSIN, HUMAN biology, MUSCLE cells, NEURODEGENERATION, DEPOLYMERIZATION, MICROTUBULES

Abstract

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 that, in vitro and in human and rat cells, UNC-45A binds to the MT lattice, leading to MT bending, breakage and depolymerization. Furthermore, we show that UNC-45A destabilizes MTs independent of its C-terminal NMII-binding domain and even in the presence of the NMII inhibitor blebbistatin. These findings identified UNC-45A as a novel type of MT-severing protein with a dual non-mutually exclusive role 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 the biology of MTs, as well as the biology of human diseases and possible therapeutic implications for their treatment. [ABSTRACT FROM AUTHOR]

Published

2021

2. UNC-45A is preferentially expressed in epithelial cells and binds to and co-localizes with interphase MTs.

Author

Habicht, Juri, Mooneyham, Ashley, Shetty, Mihir, Zhang, Xiaonan, Shridhar, Vijayalakshmi, Winterhoff, Boris, Zhang, Ying, Cepela, Jason, Starr, Timothy, Lou, Emil, and Bazzaro, Martina

Subjects

EPITHELIAL cells, CANCER cells, SPINDLE apparatus, HELA cells, TUBULINS

Abstract

UNC-45A is an ubiquitously expressed protein highly conserved throughout evolution. Most of what we currently know about UNC-45A pertains to its role as a regulator of the actomyosin system. However, emerging studies from both our and other laboratories support a role of UNC-45A outside of actomyosin regulation. This includes studies showing that UNC-45A: regulates gene transcription, co-localizes and biochemically co-fractionates with gamma tubulin and regulates centrosomal positioning, is found in the same subcellular fractions where MT-associated proteins are, and is a mitotic spindle-associated protein with MT-destabilizing activity in absence of the actomyosin system. Here, we extended our previous findings and show that UNC45A is variably expressed across a spectrum of cell lines with the highest level being found in HeLa cells and in ovarian cancer cells inherently paclitaxel-resistant. Furthermore, we show that UNC-45A is preferentially expressed in epithelial cells, localizes to mitotic spindles in clinical tumor specimens of cancer and co-localizes and co-fractionates with MTs in interphase cells independent of actin or myosin. In sum, we report alteration of UNC45A localization in the setting of chemotherapeutic treatment of cells with paclitaxel, and localization of UNC45A to MTs both in vitro and in vivo. These findings will be important to ongoing and future studies in the field that further identify the important role of UNC45A in cancer and other cellular processes. [ABSTRACT FROM AUTHOR]

Published

2019

3. UNC-45A Is Highly Expressed in the Proliferative Cells of the Mouse Genital Tract and in the Microtubule-Rich Areas of the Mouse Nervous System.

Author

Clemente, Valentino, Hoshino, Asumi, Meints, Joyce, Shetty, Mihir, Starr, Tim, Lee, Michael, and Bazzaro, Martina

Subjects

GENITALIA, NERVOUS system, CENTRAL nervous system, MICE, OVARIAN cancer, FEMALE reproductive organs

Abstract

UNC-45A (Protein unc-45 homolog A) is a cytoskeletal-associated protein with a dual and non-mutually exclusive role as a regulator of the actomyosin system and a Microtubule (MT)-destabilizing protein, which is overexpressed in human cancers including in ovarian cancer patients resistant to the MT-stabilizing drug paclitaxel. Mapping of UNC-45A in the mouse upper genital tract and central nervous system reveals its enrichment not only in highly proliferating and prone to remodeling cells, but also in microtubule-rich areas, of the ovaries and the nervous system, respectively. In both apparatuses, UNC-45A is also abundantly expressed in the ciliated epithelium. As regulators of actomyosin contractility and MT stability are essential for the physiopathology of the female reproductive tract and of neuronal development, our findings suggest that UNC-45A may have a role in ovarian cancer initiation and development as well as in neurodegeneration. [ABSTRACT FROM AUTHOR]

Published

2021