The Conformational Dynamics of a Metastable Serpin Studied by Hydrogen Exchange and Mass Spectrometry

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Abstract

Serpins are a class of protease inhibitors that initially fold to a metastable structure and subsequently undergo a large conformational change to a stable structure when they inhibit their target proteases. How serpins are able to achieve this remarkable conformational rearrangement is still not understood. To address the question of how the dynamic properties of the metastable form may facilitate the conformational change, hydrogen/deuterium exchange and mass spectrometry were employed to probe the conformational dynamics of the serpin human alpha(1)-antitrypsin (alpha(1)AT). It was found that the F helix, which in the crystal structure appears to physically block the conformational change, is highly dynamic in the metastable form. In particular, the C-terminal half of the F helix appears to spend a substantial fraction of time in a partially unfolded state. In contrast, beta-strands 3A and 5A, which must separate to accommodate insertion of the reactive center loop (RCL), are not conformationally flexible in the metastable state but are rigid and stable. The conformational lability required for loop insertion must therefore be triggered during the inhibition reaction. Beta-strand 1C, which anchors the distal end of the RCL and thus prevents transition to the so-called latent form, is also stable, consistent with the observation that alpha(1)AT does not spontaneously adopt the latent form. A surprising degree of flexibility is seen in beta-strand 6A, and it is speculated that this flexibility may deter the formation of edge-edge polymers.

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