A light scatter based model relating erythrocyte vesiculation to lifetime in circulation

Yastrebova, Ekaterina S.; Gisich, Alla V.; Nekrasov, Vyacheslav M.; Gilev, Konstantin V.; Strokotov, Dmitry I.; Chernyshev, Andrei V.; Карпенко, А. А.; Maltsev, Valeri P.

doi:10.1002/cyto.a.24765

Cited by 2 publications

(2 citation statements)

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“…We have demonstrated the SFC's ability to measure 51 indices that characterize erythrocyte morphology and function. 23,25 Additionally, we have measured 21 indices for platelets, allowing for the characterization of platelet morphology and function in relation to hemostasis. 13 Platelet function was assessed through indices that quantify platelet activation, however, there are currently no indices available in the assay for platelet aggregation.…”

Section: Discussionmentioning

confidence: 99%

4π light scattering flow cytometry: enhancing the identification and characterization of individual cells

Alexandrov,

Litvinenko,

Yastrebova

et al. 2023

Anal. Methods

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Section: Discussionmentioning

confidence: 99%

4π light scattering flow cytometry: enhancing the identification and characterization of individual cells

Alexandrov,

Litvinenko,

Yastrebova

et al. 2023

Anal. Methods

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“…Separate, because the observed decrease in cell volume largely exceeds that obtainable with the release of membrane in the form of small vesicles, thus requiring that cell volume decrease by a different mechanism 50,51,66 . Highly coordinated, in order to maintain a remarkably constant surface-to-volume ratio of the discocyte throughout its circulatory life [68][69][70][71] . The common volume regulatory mechanism for circulating reticulocytes and RBCs may involve mechanosensitive channels and loss of potassium through the Gardos channel 72 .…”

Section: Size and Shapementioning

confidence: 99%

Terminal maturation of human reticulocytes to red blood cells by extensive remodelling and progressive liquid ordering of membrane lipids

Minetti

Kaestner

Dorn

2023

Preprint

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The terminal differentiation of reticulocytes to mature red blood cells (RBCs) in mammals is a topic of intense investigation. Although much has been learned about the early phase of reticulocyte maturation in the bone marrow of the adult mammal, after enucleation of the orthochromatic erythroblast, the final maturation of peripheral circulating reticulocytes into RBCs is still poorly understood. Research on reticulocyte maturation was predominantly carried out on stress reticulocytes, or mixed populations of RBCs and normal reticulocytes, strongly limiting the possibility of discriminating different maturational phases and the relative underlying mechanisms. Another limitation was a somewhat "proteinocentric" approach, whereby possible qualitative and quantitative changes in the most important structural component of the membrane, the lipids, were not investigated. In the marrow, the reticulocyte matures through processes intrinsic to the cell (autophagy, ubiquitin/proteasome-dependent proteolysis, exosome release, regulated volume decrease) to reduce its size and simplify its composition. In the circulation, the task is taken over by systemic intervention that is necessary for the removal of extra surface area and to stimulate further volume decrease. The last two processes are preliminary to and go along with the completion of the assembly of the membrane skeleton and its anchoring to the bilayer into a structurally and functionally stable plasma membrane. The selective membrane removal in the marrow phase of maturation leads to the loss of most of the transferrin receptor through release of exosomes enriched in membrane rafts. In the circulatory phase, membrane area decrease is obtained by (a) different mechanism(s), as indicated by several pieces of evidence, including the results of the present study We have isolated here two populations of circulating reticulocytes at different levels of maturation in vivo, and three subpopulations of RBCs of different age from normal human donors, and characterized the evolution of their lipidome. Sphingomyelin, cholesterol and in part phosphatidylethanolamine increase in relative terms, whereas phosphatidylcholine and phosphatidylserine decrease from immature reticulocytes to mature RBCs, at the same time as the surface area per cell decreases. Moreover, the relative amounts of the more than 70 phospholipid subclasses evaluated in the study, based on the number of carbon atoms (12-24) and of double bonds (0-6) in the fatty acids linked to the phospholipid, also change in the process. This complex remodeling suggests the presence of an underlying blueprint, whereby changes in each individual phospholipid subclass all seem to converge in producing a state of higher liquid order, and thus of higher stability, in the lipid bilayer. Results also strongly hint at the lipid remodeling as the driving force, together with cell shrinkage, for the organization of spectrin in an extended meshwork and its anchoring to the bilayer through vertical interactions with intrinsic membrane proteins. A model is proposed, based on concepts of lipid interdigitation and protein "pinning".

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A light scatter based model relating erythrocyte vesiculation to lifetime in circulation

Cited by 2 publications

References 50 publications

4π light scattering flow cytometry: enhancing the identification and characterization of individual cells

4π light scattering flow cytometry: enhancing the identification and characterization of individual cells

Terminal maturation of human reticulocytes to red blood cells by extensive remodelling and progressive liquid ordering of membrane lipids

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