Haptoglobin Preserves the CD163 Hemoglobin Scavenger Pathway by Shielding Hemoglobin from Peroxidative Modification

Overview

Journal Blood

Publisher Elsevier

Specialty Hematology

Date 2009 Jan 10

PMID 19131549

Citations 91

Authors

Paul W Buehler

Bindu Abraham

Florence Vallelian

Charlotte Linnemayr

Claudia P Pereira

John F Cipollo

Yiping Jia

Malgorzata Mikolajczyk

Felicitas S Boretti

Gabriele Schoedon

Abdu I Alayash

Dominik J Schaer

Affiliations

Soon will be listed here.

Abstract

Detoxification and clearance of extracellular hemoglobin (Hb) have been attributed to its removal by the CD163 scavenger receptor pathway. However, even low-level hydrogen peroxide (H(2)O(2)) exposure irreversibly modifies Hb and severely impairs Hb endocytosis by CD163. We show here that when Hb is bound to the high-affinity Hb scavenger protein haptoglobin (Hp), the complex protects Hb from structural modification by preventing alpha-globin cross-links and oxidations of amino acids in critical regions of the beta-globin chain (eg, Trp15, Cys93, and Cys112). As a result of this structural stabilization, H(2)O(2)-exposed Hb-Hp binds to CD163 with the same affinity as nonoxidized complex. Endocytosis and lysosomal translocation of oxidized Hb-Hp by CD163-expressing cells were found to be as efficient as with nonoxidized complex. Hp complex formation did not alter Hb's ability to consume added H(2)O(2) by redox cycling, suggesting that within the complex the oxidative radical burden is shifted to Hp. We provide structural and functional evidence that Hp protects Hb when oxidatively challenged with H(2)O(2) preserving CD163-mediated Hb clearance under oxidative stress conditions. In addition, our data provide in vivo evidence that unbound Hb is oxidatively modified within extravascular compartments consistent with our in vitro findings.

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