AI Article Synopsis
- The gelsolin family of proteins, particularly gelsolin and adseverin, have similar structures but differ in the presence of a C-terminal helix in gelsolin, which may act as a calcium-sensitive latch.
- Kinetics studies reveal that calcium ions influence the activation rates of gelsolin and adseverin differently, indicating that gelsolin requires two calcium-related steps and adseverin only one for activation.
- Additionally, temperature significantly affects severing rates for both proteins, with gelsolin's rate increasing much more dramatically than adseverin's with rising temperatures, further supporting the role of the C-terminal helix in regulation.
Article Abstract
The gelsolin family of actin filament binding proteins have highly homologous structures. Gelsolin and adseverin, also known as scinderin, are the most similar members of this family, with adseverin lacking a C-terminal helix found in gelsolin. This helix has been postulated to serve as a calcium-sensitive latch, keeping gelsolin inactive. To test this hypothesis, we have analyzed the kinetics of severing by gelsolin, adseverin, and a gelsolin truncate which lacks the C-terminal latch. We find that the relationship between severing rate and calcium ion concentration differs between gelsolin and adseverin, and suggest that calcium controls one rate-limiting step in the activation of adseverin and two in the activation of gelsolin. In contrast, both proteins are activated equally by protons, and have identical severing kinetics at pHs below 6.3. The temperature sensitivity of severing by adseverin and gelsolin is remarkably different, with gelsolin increasing its severing rate 8-fold per 10 degrees C increase in temperature and adseverin increasing its rate only 2-fold per 10 degrees C increase in temperature. Analysis of the gelsolin construct lacking the C-terminal helix demonstrates that this helix is responsible for the regulatory differences between gelsolin and adseverin. These results support the C-terminal latch hypothesis for the calcium ion activation of gelsolin.
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| http://dx.doi.org/10.1021/bi992871v | DOI Listing |
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