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  • Cholesterol transport between red blood cells and lipoproteins contributes to cholesterol metabolism in blood.

Cholesterol transport between red blood cells and lipoproteins contributes to cholesterol metabolism in blood.

Journal of lipid research (2020-09-11)
Ryunosuke Ohkawa, Hann Low, Nigora Mukhamedova, Ying Fu, Shao-Jui Lai, Mai Sasaoka, Ayuko Hara, Azusa Yamazaki, Takahiro Kameda, Yuna Horiuchi, Peter J Meikle, Gerard Pernes, Graeme Lancaster, Michael Ditiatkovski, Paul Nestel, Boris Vaisman, Denis Sviridov, Andrew Murphy, Alan T Remaley, Dmitri Sviridov, Minoru Tozuka, Ryunosuke Ohkawa, Hann Low, Nigora Mukhamedova, Ying Fu, Shao-Jui Lai, Mai Sasaoka, Ayuko Hara, Azusa Yamazaki, Takahiro Kameda, Yuna Horiuchi, Peter J Meikle, Gerard Pernes, Graeme Lancaster, Michael Ditiatkovski, Paul Nestel, Boris Vaisman, Denis Sviridov, Andrew Murphy, Alan T Remaley, Dmitri Sviridov, Minoru Tozuka
ABSTRACT

Lipoproteins play a key role in transport of cholesterol to and from tissues. Recent studies have also demonstrated that red blood cells (RBCs), which carry large quantities of free cholesterol in their membrane, play an important role in reverse cholesterol transport. However, the exact role of RBCs in systemic cholesterol metabolism is poorly understood. RBCs were incubated with autologous plasma or isolated lipoproteins resulting in a significant net amount of cholesterol moved from RBCs to HDL, while cholesterol from LDL moved in the opposite direction. Furthermore, the bi-directional cholesterol transport between RBCs and plasma lipoproteins was saturable and temperature-, energy-, and time-dependent, consistent with an active process. We did not find LDLR, ABCG1, or scavenger receptor class B type 1 in RBCs but found a substantial amount of ABCA1 mRNA and protein. However, specific cholesterol efflux from RBCs to isolated apoA-I was negligible, and ABCA1 silencing with siRNA or inhibition with vanadate and Probucol did not inhibit the efflux to apoA-I, HDL, or plasma. Cholesterol efflux from and cholesterol uptake by RBCs from Abca1 +/+ and Abca1 -/- mice were similar, arguing against the role of ABCA1 in cholesterol flux between RBCs and lipoproteins. Bioinformatics analysis identified ABCA7, ABCG5, lipoprotein lipase, and mitochondrial translocator protein as possible candidates that may mediate the cholesterol flux. Together, these results suggest that RBCs actively participate in cholesterol transport in the blood, but the role of cholesterol transporters in RBCs remains uncertain.

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Anti-Glycophorin A antibody produced in goat, affinity isolated antibody, buffered aqueous solution