Interaction of C1q with the Receptor Calreticulin Requires a Conformational Change in C1q

The interaction between C1q and the chaperone calreticulin was studied under various conditions. When both proteins were present in equal amounts in solution, no interaction could be demonstrated. However, C1q immobilized on a hydrophobic surface, exposed to heat‐treatment or bound to immunoglobulin...

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Veröffentlicht in:Scandinavian journal of immunology 2004-05, Vol.59 (5), p.485-495
Hauptverfasser: Steinø, A., Jørgensen, C. S., Laursen, I., Houen, G.
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Sprache:eng
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Zusammenfassung:The interaction between C1q and the chaperone calreticulin was studied under various conditions. When both proteins were present in equal amounts in solution, no interaction could be demonstrated. However, C1q immobilized on a hydrophobic surface, exposed to heat‐treatment or bound to immunoglobulins (Igs) showed a strong, rapid and specific binding of calreticulin. The interaction appeared to be a two‐step process, and the initial phase of interaction was sensitive to high concentrations of salt but not to a physiological salt concentration. The following strong binding was insensitive to salt and extremes of pH but sensitive to strongly denaturing agents (urea and guanidine). The sensitivity to salt during the initial phase of interaction was practically identical to that observed when calreticulin was bound to type V collagen. Binding between C1q and calreticulin could be inhibited by serum amyloid P component and by proteinase K‐digested ovalbumin, and the binding of calreticulin to proteinase K‐digested ovalbumin was shown to be inhibited by C1q. The data indicate that C1q binds stably to the peptide‐binding site of calreticulin and that the initial binding of calreticulin to C1q involves the collagen‐like domain of the C1q molecule. In conclusion, our results suggest calreticulin as a potential receptor for an altered conformation of C1q as occurs during binding to Igs. Thus, the chaperone and protein‐scavenging function of calreticulin may extend from the endoplasmic reticulum to the topologically equivalent cell surface, where it may contribute to the elimination of immune complexes and apoptotic cells.
ISSN:0300-9475
1365-3083
DOI:10.1111/j.0300-9475.2004.01425.x