Cleaved antitrypsin polymers at atomic resolution

MICHELLE A. DUNSTONE; WEIWEN DAI; JAMES C. WHISSTOCK; JAMIE ROSSJOHN; ROBERT N. PIKE; SUSANNE C. FEIL; BERNARD F. LE BONNIEC; MICHAEL W. PARKER; STEPHEN P. BOTTOMLEY

doi:10.1110/ps.9.2.417

Abstract

α1-Antitrypsin deficiency, which can lead to both emphysema and liver disease, is a result of the accumulation of α1-antitrypsin polymers within the hepatocyte. A wealth of biochemical and biophysical data suggests that α1-antitrypsin polymers form via insertion of residues from the reactive center loop of one molecule into the β-sheet of another. However, this long-standing hypothesis has not been confirmed by direct structural evidence. Here, we describe the first crystallographic evidence of a β-strand linked polymer form of α1-antitrypsin: the crystal structure of a cleaved α1-antitrypsin polymer.

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Cleaved antitrypsin polymers at atomic resolution

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