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Reduction in flippase activity contributes to surface presentation of phosphatidylserine in human senescent erythrocytes

Momoko Seki, Nobuto Arashiki, Yuichi Takakuwa, Kosaku Nitta, Fumio Nakamura

2020Journal of Cellular and Molecular Medicine28 citationsDOIOpen Access PDF

Abstract

Abstract Mature human erythrocytes circulate in blood for approximately 120 days, and senescent erythrocytes are removed by splenic macrophages. During this process, the cell membranes of senescent erythrocytes express phosphatidylserine, which is recognized as a signal for phagocytosis by macrophages. However, the mechanisms underlying phosphatidylserine exposure in senescent erythrocytes remain unclear. To clarify these mechanisms, we isolated senescent erythrocytes using density gradient centrifugation and applied fluorescence‐labelled lipids to investigate the flippase and scramblase activities. Senescent erythrocytes showed a decrease in flippase activity but not scramblase activity. Intracellular ATP and K + , the known influential factors on flippase activity, were altered in senescent erythrocytes. Furthermore, quantification by immunoblotting showed that the main flippase molecule in erythrocytes, ATP11C, was partially lost in the senescent cells. Collectively, these results suggest that multiple factors, including altered intracellular substances and reduced ATP11C levels, contribute to decreased flippase activity in senescent erythrocytes in turn to, present phosphatidylserine on their cell membrane. The present study may enable the identification of novel therapeutic approaches for anaemic states, such as those in inflammatory diseases, rheumatoid arthritis, or renal anaemia, resulting from the abnormally shortened lifespan of erythrocytes.

Topics & Concepts

PhosphatidylserineFlippasePhospholipid scramblaseCell biologyIntracellularBiologyRed blood cellPhagocytosisBiochemistryChemistryMembranePhospholipidErythrocyte Function and PathophysiologyNeonatal Health and BiochemistryPhagocytosis and Immune Regulation
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