TY - JOUR
T1 - Improved platelet survival after cold storage by prevention of glycoprotein Ibα clustering in lipid rafts
AU - Gitz, E.
AU - Koekman, C.A.
AU - van den Heuvel, D.J.
AU - Deckmyn, H.
AU - Akkerman, J.W.N.
AU - Gerritsen, H.C.
AU - Urbanus, R.T
PY - 2012
Y1 - 2012
N2 - ABSTRACT
Background
Room temperature storage of platelets for transfusion increases the risk of microbial infection and
decreases platelet functionality, leading to out-date discard rates of up to 20%. Cold storage may be a
better alternative, but this treatment leads to rapid platelet clearance after transfusion, initiated by
changes in glycoprotein Ibα, the receptor for von Willebrand factor.
Design and Methods
We examined the change in glycoprotein Ibα distribution using Förster Resonance Energy Transfer by
time-gated Fluorescence Lifetime Imaging Microscopy.
Results
Cold storage induced deglycosylation of glycoprotein Ibα ectodomain, exposing N-acetyl-Dglucosamine
residues, which sequestered with GM1 gangliosides in lipid rafts. Raft-associated
glycoprotein Ibα formed clusters upon binding of 14-3-3ζ adaptor proteins to its cytoplasmic tail, a
process accompanied by mitochondrial injury and phosphatidyl serine exposure. Cold storage left
glycoprotein Ibα surface expression unchanged and although glycoprotein V decreased, the fall did not
affect glycoprotein Ibα clustering. Prevention of glycoprotein Ibα clustering by blockade of
deglycosylation and 14-3-3ζ translocation raised the survival of cold-stored platelets above levels of
room temperature platelets without compromising hemostatic functions.
Conclusions
We conclude that glycoprotein Ibα translocates to lipid rafts upon cold-induced deglycosylation and
forms clusters by associating with 14-3-3ζ. Interference with these steps provides a means to enable
cold storage of platelet concentrates in the near future.
AB - ABSTRACT
Background
Room temperature storage of platelets for transfusion increases the risk of microbial infection and
decreases platelet functionality, leading to out-date discard rates of up to 20%. Cold storage may be a
better alternative, but this treatment leads to rapid platelet clearance after transfusion, initiated by
changes in glycoprotein Ibα, the receptor for von Willebrand factor.
Design and Methods
We examined the change in glycoprotein Ibα distribution using Förster Resonance Energy Transfer by
time-gated Fluorescence Lifetime Imaging Microscopy.
Results
Cold storage induced deglycosylation of glycoprotein Ibα ectodomain, exposing N-acetyl-Dglucosamine
residues, which sequestered with GM1 gangliosides in lipid rafts. Raft-associated
glycoprotein Ibα formed clusters upon binding of 14-3-3ζ adaptor proteins to its cytoplasmic tail, a
process accompanied by mitochondrial injury and phosphatidyl serine exposure. Cold storage left
glycoprotein Ibα surface expression unchanged and although glycoprotein V decreased, the fall did not
affect glycoprotein Ibα clustering. Prevention of glycoprotein Ibα clustering by blockade of
deglycosylation and 14-3-3ζ translocation raised the survival of cold-stored platelets above levels of
room temperature platelets without compromising hemostatic functions.
Conclusions
We conclude that glycoprotein Ibα translocates to lipid rafts upon cold-induced deglycosylation and
forms clusters by associating with 14-3-3ζ. Interference with these steps provides a means to enable
cold storage of platelet concentrates in the near future.
U2 - 10.3324/haematol.2012.066290
DO - 10.3324/haematol.2012.066290
M3 - Article
SN - 0390-6078
VL - 97
SP - 1873
EP - 1881
JO - Haematologica
JF - Haematologica
IS - 12
ER -