PURPOSE: Tropomodulin, a tropomyosin and actin-binding protein stabilizes tropomyosin-actin filaments and is important in maintaining the elongated shape of lens fiber cells. In this study the role of PKCalpha-catalyzed phosphorylation of tropomodulin is determined. METHODS: The interaction of PKCalpha and tropomodulin was measured by immunoprecipitation after activation with either phorbol ester at 200 nM for 60 min or 10 ng/ml EGF for 15 min. Tropomodulin phosphorylation was determined after co-immunoprecipitation using an in vitro [gamma-32P] PKC activity assay and by specific reaction with antiphosphothreonine antisera. Changes in tropomodulin interaction with tropomyosin or with the cytoskeleton were measured in a gel overlay assay and by association with a "Triton-insoluble" fraction. RESULTS: Both phorbol ester and EGF caused an increased interaction of PKCalpha with tropomodulin. Following activation of PKCalpha by phorbol ester or by EGF there was an increased phosphorylation of tropomodulin on threonine residues. The phosphorylation of tropomodulin did not affect interaction with tropomyosin as measured by a gel overlay assay. However, there was an increased association of tropomodulin with the "Triton-insoluble" cytoskeletal fraction. CONCLUSIONS: Activation of PKCalpha by EGF causes an increased phosphorylation of tropomodulin which results in an increase in tropomodulin association with cytoskeletal components. This establishes a signal pathway by which EGF induced activation of PKCalpha alters the interaction of lens cytoskeletal proteins.
PURPOSE: Tropomodulin, a tropomyosin and actin-binding protein stabilizes tropomyosin-actin filaments and is important in maintaining the elongated shape of lens fiber cells. In this study the role of PKCalpha-catalyzed phosphorylation of tropomodulin is determined. METHODS: The interaction of PKCalpha and tropomodulin was measured by immunoprecipitation after activation with either phorbol ester at 200 nM for 60 min or 10 ng/ml EGF for 15 min. Tropomodulin phosphorylation was determined after co-immunoprecipitation using an in vitro [gamma-32P] PKC activity assay and by specific reaction with antiphosphothreonine antisera. Changes in tropomodulin interaction with tropomyosin or with the cytoskeleton were measured in a gel overlay assay and by association with a "Triton-insoluble" fraction. RESULTS: Both phorbol ester and EGF caused an increased interaction of PKCalpha with tropomodulin. Following activation of PKCalpha by phorbol ester or by EGF there was an increased phosphorylation of tropomodulin on threonine residues. The phosphorylation of tropomodulin did not affect interaction with tropomyosin as measured by a gel overlay assay. However, there was an increased association of tropomodulin with the "Triton-insoluble" cytoskeletal fraction. CONCLUSIONS: Activation of PKCalpha by EGF causes an increased phosphorylation of tropomodulin which results in an increase in tropomodulin association with cytoskeletal components. This establishes a signal pathway by which EGF induced activation of PKCalpha alters the interaction of lens cytoskeletal proteins.
Authors: Katherine T Bliss; Takehiro Tsukada; Stefanie Mares Novak; Maxim V Dorovkov; Samar P Shah; Chinedu Nworu; Alla S Kostyukova; Carol C Gregorio Journal: FASEB J Date: 2014-06-02 Impact factor: 5.191