Background
Donor variability of red blood cell (RBC) storage has been observed in both humans and animal models. We utilized a strain of mice with RBCs known to store well (B6) and a strain known to store poorly (FVB) to test the hypothesis that RBCs affected the storage of other RBCs. Study design and
Conclusion
These findings demonstrate that RBCs affect the storage of other RBCs, in both positive and negative directions, indicating not only that RBC storage is intrinsic to the RBC but that RBC-RBC communication occurs. Additional studies will be required to determine the nature of this effect and if these findings translate into human RBC storage.
Methods
Five strains of mice were used: 1) transgenic B6 mice expressing green fluorescent protein (GFP) in their RBCs (GFP.B6), 2) wild-type B6 mice, 3) wild-type FVB mice, 4) F1 crosses between GFP.B6 and FVB mice (GFP.F1), and 5) the analogous wild-type (B6xFVB) F1 cross. GFP.B6 or GFP.F1 RBCs were mixed with wild-type (non-GFP) RBCs from B6 or FVB strains before storage. Twenty-four-hour RBC recoveries were determined for stored RBCs by enumerating circulating GFP+ RBCs by flow cytometry.
Results
Twenty-four-hour recoveries of GFP.F1 RBCs was increased by co-storage with B6 RBCs but decreased by co-storage with FVB RBCs. This effect was dose dependent when tested with GFP.B6 RBCs; the more FVB blood added, the worse the 24-hour recoveries became. RBC cross-regulation did not occur when B6 and FVB RBCs were separated by a semipermeable membrane with a 0.4-µm size cutoff.