STAT3 is a transcription factor activated by phosphorylation of tyrosine 705 in response to many cytokines and growth factors. Recently, roles for unphosphorylated STAT3 (U-STAT3) have been described in response to cytokine stimulation, in cancers, and in maintenance of heterochromatin stability. It has been reported that U-STAT3 dimerizes, shuttles between the cytoplasm and nucleus, and binds to DNA, thereby driving genes transcription. Although many reports describe the active role of U-STAT3 in oncogenesis in addition to phosphorylated STAT3, the U-STAT3 functional pathway remains elusive. In this report, we describe the molecular mechanism of U-STAT3 dimerization and we identify the presence of two intermolecular disulfide bridges between Cys367 and Cys542 and Cys418 and Cys426 respectively. Recently, we reported that the same cysteines contribute to the redox regulation of STAT3 signaling pathway both in vitro and in vivo The presence of these disulfides is here demonstrated to largely contribute to the structure and the stability of U-STAT3 dimer as the dimeric form rapidly dissociates upon reduction of the S-S bonds. In particular, the Cys367-Cys542 disulfide bridge is shown to be critical for U-STAT3 DNA binding activity. Mutation of the two Cys residues completely abolishes the DNA binding capability of U-STAT3. Spectroscopic investigations confirm that the non-covalent interactions are sufficient for proper folding and dimer formation, but that the interchain disulfide bonds are crucial to preserve the functional dimer. Finally we propose a reaction scheme of U-STAT3 dimerization with a first common step followed by stabilization through the formation of interchain disulfide bonds.
Intermolecular disulfide bond influences unphosphorylated STAT3 dimerization and function
BUTTURINI, Elena;GOTTE, Giovanni;DELL'ORCO, Daniele;Chiavegato, Giulia;MARINO, VALERIO;MARIOTTO, Sofia Giovanna
2016-01-01
Abstract
STAT3 is a transcription factor activated by phosphorylation of tyrosine 705 in response to many cytokines and growth factors. Recently, roles for unphosphorylated STAT3 (U-STAT3) have been described in response to cytokine stimulation, in cancers, and in maintenance of heterochromatin stability. It has been reported that U-STAT3 dimerizes, shuttles between the cytoplasm and nucleus, and binds to DNA, thereby driving genes transcription. Although many reports describe the active role of U-STAT3 in oncogenesis in addition to phosphorylated STAT3, the U-STAT3 functional pathway remains elusive. In this report, we describe the molecular mechanism of U-STAT3 dimerization and we identify the presence of two intermolecular disulfide bridges between Cys367 and Cys542 and Cys418 and Cys426 respectively. Recently, we reported that the same cysteines contribute to the redox regulation of STAT3 signaling pathway both in vitro and in vivo The presence of these disulfides is here demonstrated to largely contribute to the structure and the stability of U-STAT3 dimer as the dimeric form rapidly dissociates upon reduction of the S-S bonds. In particular, the Cys367-Cys542 disulfide bridge is shown to be critical for U-STAT3 DNA binding activity. Mutation of the two Cys residues completely abolishes the DNA binding capability of U-STAT3. Spectroscopic investigations confirm that the non-covalent interactions are sufficient for proper folding and dimer formation, but that the interchain disulfide bonds are crucial to preserve the functional dimer. Finally we propose a reaction scheme of U-STAT3 dimerization with a first common step followed by stabilization through the formation of interchain disulfide bonds.File | Dimensione | Formato | |
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